OMSimulator --tempDir=temp_ModelicaTest_trunk_cpp_ModelicaTest_MultiBody_FourbarVariants_JointUSR_fmu --startTime=0 --stopTime=2 --timeout=50 --tolerance=1e-06 ModelicaTest_trunk_cpp_ModelicaTest_MultiBody_FourbarVariants_JointUSR.fmu info: Set temp directory to "/tmp/omsimulator" info: Set working directory to "." info: New temp directory has been created: "temp_ModelicaTest_trunk_cpp_ModelicaTest_MultiBody_FourbarVariants_JointUSR_fmu" info: Set temp directory to "/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/ModelicaTest_trunk_cpp_ModelicaTest.MultiBody.FourbarVariants.JointUSR/temp_ModelicaTest_trunk_cpp_ModelicaTest_MultiBody_FourbarVariants_JointUSR_fmu" info: Set working directory to "/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/ModelicaTest_trunk_cpp_ModelicaTest.MultiBody.FourbarVariants.JointUSR" info: New model "model" with corresponding temp directory "/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/ModelicaTest_trunk_cpp_ModelicaTest.MultiBody.FourbarVariants.JointUSR/temp_ModelicaTest_trunk_cpp_ModelicaTest_MultiBody_FourbarVariants_JointUSR_fmu/model-fhs9m0cw" info: maximum step size for 'model.root': 0.100000 info: Result file: model_res.mat (bufferSize=10) info: Variable model.root.fmu.Body1.cylinder.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.Body1.sphere.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.Body2.cylinder.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.Body2.sphere.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.Body3.cylinder.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.Body3.sphere.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.b2.frameTranslation.shape.shapeType will not be stored in the result file, because the signal type is not supported info: Parameter model.root.fmu.b2.frameTranslation.shapeType will not be stored in the result file, because the signal type is not supported info: Parameter model.root.fmu.b3.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.x_arrowHead.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.x_arrowLine.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.x_label.cylinders[1].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.x_label.cylinders[2].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.y_arrowHead.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.y_arrowLine.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.y_label.cylinders[1].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.y_label.cylinders[2].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.z_arrowHead.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.z_arrowLine.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.z_label.cylinders[1].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.z_label.cylinders[2].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.fixedFrame.z_label.cylinders[3].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.j2.box.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.jointUSR.revolute.cylinder.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.jointUSR.rod1.rodShape.shapeType will not be stored in the result file, because the signal type is not supported info: Parameter model.root.fmu.jointUSR.rod1.rodShapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.jointUSR.rod1.sphericalShape_b.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.jointUSR.rod1.universalShape1.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.jointUSR.rod1.universalShape2.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.jointUSR.rod2.shape.shapeType will not be stored in the result file, because the signal type is not supported info: Parameter model.root.fmu.jointUSR.rod2.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.gravityArrowHead.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.gravityArrowLine.shapeType will not be stored in the result file, because the signal type is not supported info: Parameter model.root.fmu.world.label1 will not be stored in the result file, because the signal type is not supported info: Parameter model.root.fmu.world.label2 will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.x_arrowHead.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.x_arrowLine.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.x_label.cylinders[1].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.x_label.cylinders[2].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.y_arrowHead.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.y_arrowLine.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.y_label.cylinders[1].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.y_label.cylinders[2].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.z_arrowHead.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.z_arrowLine.shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.z_label.cylinders[1].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.z_label.cylinders[2].shapeType will not be stored in the result file, because the signal type is not supported info: Variable model.root.fmu.world.z_label.cylinders[3].shapeType will not be stored in the result file, because the signal type is not supported error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selection, i.e., during simulation the states will be dynamically selected in such a way that in no position a degree of freedom is lost. error: [getDerivatives] fmi2_import_get_derivatives failed for FMU "model.root.fmu" [CVODE ERROR] CVode At t = 0.475742 repeated recoverable right-hand side function errors. error: [stepUntil] SUNDIALS_ERROR: CVode() failed with flag = -10 error: [fmi2logger] fmu (logStatusError): Singular position of loop (either no or two analytic solutions; the mechanism has lost one-degree-of freedom in this position). Try first to use another Modelica.Mechanics.MultiBody.Joints.Assemblies.JointXXX component. In most cases it is best that the joints outside of the JointXXX component are revolute and NOT prismatic joints. If this also lead to singular positions, it could be that this kinematic loop cannot be solved analytically. In this case you have to build up the loop with basic joints (NO aggregation JointXXX components) and rely on dynamic state selectio