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| | LifeV |
| | Default Physical Solver.
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| #define | TAU_M value(1.0)/( eval(squareroot,TAU_M_DEN) ) |
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| #define | TAU_M_DEN TAU_M_DEN_DT + TAU_M_DEN_VEL + TAU_M_DEN_VISC |
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| #define | TAU_M_DEN_DT value(M_density*M_density)*value(M_bdfOrder*M_bdfOrder)/value(M_timestep * M_timestep) |
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| #define | TAU_M_DEN_VEL value(M_density*M_density)*dot(value(M_fespaceUETA, beta_rep), value(M_fespaceUETA, beta_rep))/(h_K*h_K) |
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| #define | TAU_M_DEN_VISC value(M_C_I)*value(M_viscosity*M_viscosity)/(h_K*h_K*h_K*h_K) |
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| #define | TAU_M_TILDE value(1.0)/( TAU_M_DEN_DT_NOSQUARED + eval(squareroot,TAU_M_DEN_VEL+TAU_M_DEN_VISC) ) |
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| #define | TAU_M_DEN_DT_NOSQUARED value(M_density)*value(M_alpha)/value(M_timestep) |
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| #define | TAU_C (h_K*h_K)/(TAU_M) |
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| #define | TAU_M_NO_DT value(1.0)/( eval( squareroot, TAU_M_DEN_VEL + TAU_M_DEN_VISC ) ) |
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| #define | TAU_C_NO_DT (h_K*h_K)/(TAU_M_NO_DT) |
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| #define | TAU_M_UPRIME value(1.0)/( TAU_M_DEN_DT_NOSQUARED + eval(squareroot,TAU_M_DEN_UPRIME) ) |
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| #define | TAU_M_DEN_UPRIME TAU_M_DEN_VEL_UPRIME + TAU_M_DEN_VISC_UPRIME |
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| #define | TAU_M_DEN_VEL_UPRIME value(M_density*M_density)*dot(value(M_fespaceUETA, *velocity_repeated), value(M_fespaceUETA, *velocity_repeated))/(h_K*h_K) |
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| #define | TAU_M_DEN_VISC_UPRIME value(M_C_I)*value(M_viscosity*M_viscosity)/(h_K*h_K*h_K*h_K) |
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| #define | TAU_M_NO_DT_UPRIME value(1.0)/( eval( squareroot, TAU_M_DEN_VEL_UPRIME + TAU_M_DEN_VISC_UPRIME ) ) |
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| #define | TAU_C_NO_DT_PPRIME (h_K*h_K)/(TAU_M_NO_DT_UPRIME) |
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◆ TAU_M
| #define TAU_M value(1.0)/( eval(squareroot,TAU_M_DEN) ) |
◆ TAU_M_DEN
◆ TAU_M_DEN_DT
| #define TAU_M_DEN_DT value(M_density*M_density)*value(M_bdfOrder*M_bdfOrder)/value(M_timestep * M_timestep) |
◆ TAU_M_DEN_VEL
| #define TAU_M_DEN_VEL value(M_density*M_density)*dot(value(M_fespaceUETA, beta_rep), value(M_fespaceUETA, beta_rep))/(h_K*h_K) |
◆ TAU_M_DEN_VISC
| #define TAU_M_DEN_VISC value(M_C_I)*value(M_viscosity*M_viscosity)/(h_K*h_K*h_K*h_K) |
◆ TAU_M_TILDE
◆ TAU_M_DEN_DT_NOSQUARED
| #define TAU_M_DEN_DT_NOSQUARED value(M_density)*value(M_alpha)/value(M_timestep) |
◆ TAU_C
| #define TAU_C (h_K*h_K)/(TAU_M) |
◆ TAU_M_NO_DT
◆ TAU_C_NO_DT
◆ TAU_M_UPRIME
◆ TAU_M_DEN_UPRIME
◆ TAU_M_DEN_VEL_UPRIME
| #define TAU_M_DEN_VEL_UPRIME value(M_density*M_density)*dot(value(M_fespaceUETA, *velocity_repeated), value(M_fespaceUETA, *velocity_repeated))/(h_K*h_K) |
◆ TAU_M_DEN_VISC_UPRIME
| #define TAU_M_DEN_VISC_UPRIME value(M_C_I)*value(M_viscosity*M_viscosity)/(h_K*h_K*h_K*h_K) |
◆ TAU_M_NO_DT_UPRIME
◆ TAU_C_NO_DT_PPRIME
Include dependency graph for StabilizationSUPG_semi_implicit_ale.cpp:
1.8.13 