Environment - simulationEnvironment: startTime=0 stopTime=1200 tolerance=1e-06 numberOfIntervals=2500 stepSize=0.48 Regular simulation: ./ThermoSysPro_ThermoSysPro.Fluid.Examples.SimpleExamples.TestGasTurbine -abortSlowSimulation -alarm=480 -lv LOG_STATS LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 1.201e+10 | | | | fb = f(u_max) = 1.2019e+10 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 4.45931e+08 | | | | fb = f(u_max) = 4.5456e+08 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -4.61188e+07 | | | | fb = f(u_max) = -3.77395e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -3.03516e+07 | | | | fb = f(u_max) = -2.21359e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -1.73667e+07 | | | | fb = f(u_max) = -9.25823e+06 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -1.12224e+07 | | | | fb = f(u_max) = -3.18421e+06 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -1.34402e+07 | | | | fb = f(u_max) = -4.49483e+06 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -8.79065e+06 | | | | fb = f(u_max) = -201428 | | | | fa and fb must have opposite sign which is not the case LOG_STDOUT | warning | While solving non-linear system an assertion failed during initialization. | | | | | The non-linear solver tries to solve the problem that could take some time. | | | | | It could help to provide better start-values for the iteration variables. | | | | | For more information simulate with -lv LOG_NLS_V LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -1.68137e+07 | | | | fb = f(u_max) = -8.56778e+06 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 2.5526e+09 | | | | fb = f(u_max) = 2.56084e+09 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -1.68137e+07 | | | | fb = f(u_max) = -8.56778e+06 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 2.5526e+09 | | | | fb = f(u_max) = 2.56084e+09 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 1.87094e+08 | | | | fb = f(u_max) = 1.96031e+08 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 1.87094e+08 | | | | fb = f(u_max) = 1.96031e+08 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 1.87094e+08 | | | | fb = f(u_max) = 1.96031e+08 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = -2.20992e+07 | | | | fb = f(u_max) = -1.38033e+07 | | | | fa and fb must have opposite sign which is not the case LOG_STDOUT | warning | While solving non-linear system an assertion failed during initialization. | | | | | The non-linear solver tries to solve the problem that could take some time. | | | | | It could help to provide better start-values for the iteration variables. | | | | | For more information simulate with -lv LOG_NLS_V LOG_ASSERT | debug | The arguments u_min and u_max provided in the function call | | | | solveOneNonlinearEquation(f,u_min,u_max) | | | | do not bracket the root of the single non-linear equation 0=f(u): | | | | u_min = 200 | | | | u_max = 6000 | | | | fa = f(u_min) = 6.49996e+10 | | | | fb = f(u_max) = 6.50079e+10 | | | | fa and fb must have opposite sign which is not the case LOG_SUCCESS | info | The initialization finished successfully without homotopy method. LOG_STATS | info | ### STATISTICS ### | | | | | timer | | | | | | 0.0061831s reading init.xml | | | | | | 0.000440967s reading info.xml | | | | | | 9.1842e-05s [ 0.0%] pre-initialization | | | | | | 0.158552s [ 6.8%] initialization | | | | | | 0.000244078s [ 0.0%] steps | | | | | | 4.0687e-05s [ 0.0%] solver (excl. callbacks) | | | | | | 0s [ 0.0%] creating output-file | | | | | | 0.023042s [ 1.0%] event-handling | | | | | | 0.0220222s [ 0.9%] overhead | | | | | | 2.11543s [ 91.2%] simulation | | | | | | 2.31943s [100.0%] total | | | | | events | | | | | | 2 state events | | | | | | 0 time events | | | | | solver: euler | | | | | | 10004 steps taken | | | | | | 10004 calls of functionODE | | | | | | 0 evaluations of jacobian | | | | | | 0 error test failures | | | | | | 0 convergence test failures | | | | | | 0s time of jacobian evaluation LOG_SUCCESS | info | The simulation finished successfully.