| /libCEED/examples/fluids/qfunctions/ |
| H A D | newtonian.h | 172 CeedScalar strain_rate[6], kmstress[6], stress[3][3], Fe[3]; in RHSFunction_Newtonian() local
176 ViscousEnergyFlux(context, s.Y, grad_s, stress, Fe); in RHSFunction_Newtonian()
183 FluxTotal(F_inviscid, stress, Fe, Flux); in RHSFunction_Newtonian()
243 CeedScalar strain_rate[6], kmstress[6], stress[3][3], Fe[3]; in IFunction_Newtonian() local
247 ViscousEnergyFlux(context, s.Y, grad_s, stress, Fe); in IFunction_Newtonian()
254 FluxTotal(F_inviscid, stress, Fe, Flux); in IFunction_Newtonian()
416 CeedScalar strain_rate[6], kmstress[6], stress[3][3], Fe[3]; in BoundaryIntegral() local
420 ViscousEnergyFlux(context, s.Y, grad_s, stress, Fe); in BoundaryIntegral()
426 FluxTotal_Boundary(F_inviscid, stress, Fe, norm, Flux); in BoundaryIntegral()
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| H A D | bc_freestream.h | 208 CeedScalar strain_rate[6], kmstress[6], stress[3][3], Fe[3]; in RiemannOutflow() local
212 ViscousEnergyFlux(gas, s_int.Y, grad_s, stress, Fe); in RiemannOutflow()
217 FluxTotal_RiemannBoundary(F_inviscid_normal, stress, Fe, normal, Flux); in RiemannOutflow()
348 CeedScalar strain_rate[6], kmstress[6], stress[3][3], Fe[3]; in PressureOutflow() local
352 ViscousEnergyFlux(gas, s.Y, grad_s, stress, Fe); in PressureOutflow()
358 FluxTotal_Boundary(F_inviscid, stress, Fe, normal, Flux); in PressureOutflow()
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| H A D | advection.h | 333 CeedScalar Fe[3], Fe_dXdx[3] = {0.}; in IFunction_AdvectionGeneric() local
335 for (CeedInt i = 0; i < dim; i++) Fe[i] = -context->diffusion_coeff * grad_s[i].U.E_total; in IFunction_AdvectionGeneric()
336 MatVecNM(dXdx, Fe, dim, dim, CEED_NOTRANSPOSE, Fe_dXdx); in IFunction_AdvectionGeneric()
468 CeedScalar Fe[3], Fe_dXdx[3] = {0.}; in RHSFunction_AdvectionGeneric() local
470 for (CeedInt i = 0; i < dim; i++) Fe[i] = -context->diffusion_coeff * grad_s[i].U.E_total; in RHSFunction_AdvectionGeneric()
471 MatVecNM(dXdx, Fe, dim, dim, CEED_NOTRANSPOSE, Fe_dXdx); in RHSFunction_AdvectionGeneric()
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| H A D | newtonian_state.h | 481 …const StateConservative F_inviscid[3], CeedScalar stress[3][3], CeedScalar Fe[3], CeedScalar Flux[… in FluxTotal()
485 Flux[4][j] = F_inviscid[j].E_total + Fe[j]; in FluxTotal()
489 …ndary(const StateConservative F_inviscid[3], const CeedScalar stress[3][3], const CeedScalar Fe[3], in FluxTotal_Boundary()
497 Flux[4] += (F_inviscid[j].E_total + Fe[j]) * normal[j]; in FluxTotal_Boundary()
501 …y(const StateConservative F_inviscid_normal, const CeedScalar stress[3][3], const CeedScalar Fe[3], in FluxTotal_RiemannBoundary()
510 Flux[4] += Fe[j] * normal[j]; in FluxTotal_RiemannBoundary()
564 CeedScalar Fe[3]) { in ViscousEnergyFlux()
566 …Fe[i] = -Y.velocity[0] * stress[0][i] - Y.velocity[1] * stress[1][i] - Y.velocity[2] * stress[2][i… in ViscousEnergyFlux()
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| H A D | blasius.h | 177 const CeedScalar Fe[3] = {0}; // TODO: viscous energy flux needs grad temperature in Blasius_Inflow() local
179 FluxTotal_Boundary(Flux_inviscid, stress, Fe, norm, Flux); in Blasius_Inflow()
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