Environment - simulationEnvironment: startTime=0 stopTime=1 tolerance=1e-06 numberOfIntervals=2500 stepSize=0.0004 Regular simulation: ./Buildings_12_Buildings.DHC.Networks.Pipes.Validation.Pipe -abortSlowSimulation -alarm=400 -emit_protected -lv LOG_STATS LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_STDOUT | warning | Non-Linear Solver try to handle a problem with a called assert. LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context 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 | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Division by zero diameter * abs(m_flow) / (crossArea * mu) in function context LOG_ASSERT | debug | Solving non-linear system 58 failed at time=0. | | | | For more information please use -lv LOG_NLS. LOG_ASSERT | info | simulation terminated by an assertion at initialization