xref: /honee/qfunctions/stabilization.h (revision d0cce58a225f566416816c7cc1c29c21754c8854) 
1d1b9ef12SLeila Ghaffari // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors.
2d1b9ef12SLeila Ghaffari // All Rights Reserved. See the top-level LICENSE and NOTICE files for details.
3d1b9ef12SLeila Ghaffari //
4d1b9ef12SLeila Ghaffari // SPDX-License-Identifier: BSD-2-Clause
5d1b9ef12SLeila Ghaffari //
6d1b9ef12SLeila Ghaffari // This file is part of CEED:  http://github.com/ceed
7d1b9ef12SLeila Ghaffari 
8d1b9ef12SLeila Ghaffari /// @file
9d1b9ef12SLeila Ghaffari /// Helper functions for computing stabilization terms of a newtonian simulation
10d1b9ef12SLeila Ghaffari 
11d1b9ef12SLeila Ghaffari 
12d1b9ef12SLeila Ghaffari #ifndef stabilization_h
13d1b9ef12SLeila Ghaffari #define stabilization_h
14d1b9ef12SLeila Ghaffari 
15d1b9ef12SLeila Ghaffari #include <ceed.h>
16*d0cce58aSJeremy L Thompson #include "newtonian_state.h"
17d1b9ef12SLeila Ghaffari 
18d1b9ef12SLeila Ghaffari // *****************************************************************************
19d1b9ef12SLeila Ghaffari // Helper function for computing the variation in primitive variables,
20d1b9ef12SLeila Ghaffari //   given Tau_d
21d1b9ef12SLeila Ghaffari // *****************************************************************************
22d1b9ef12SLeila Ghaffari CEED_QFUNCTION_HELPER void dYFromTau(CeedScalar Y[5], CeedScalar Tau_d[3],
23d1b9ef12SLeila Ghaffari                                      CeedScalar dY[5]) {
24d1b9ef12SLeila Ghaffari   dY[0] = Tau_d[0] * Y[0];
25d1b9ef12SLeila Ghaffari   dY[1] = Tau_d[1] * Y[1];
26d1b9ef12SLeila Ghaffari   dY[2] = Tau_d[1] * Y[2];
27d1b9ef12SLeila Ghaffari   dY[3] = Tau_d[1] * Y[3];
28d1b9ef12SLeila Ghaffari   dY[4] = Tau_d[2] * Y[4];
29d1b9ef12SLeila Ghaffari }
30d1b9ef12SLeila Ghaffari 
31d1b9ef12SLeila Ghaffari // *****************************************************************************
32d1b9ef12SLeila Ghaffari // Helper functions for computing the stabilization terms
33d1b9ef12SLeila Ghaffari // *****************************************************************************
34d1b9ef12SLeila Ghaffari CEED_QFUNCTION_HELPER void StabilizationMatrix(NewtonianIdealGasContext gas,
35d1b9ef12SLeila Ghaffari     State s, CeedScalar Tau_d[3], CeedScalar R[5], const CeedScalar x[3],
36d1b9ef12SLeila Ghaffari     CeedScalar stab[5][3]) {
37d1b9ef12SLeila Ghaffari   CeedScalar dY[5];
38d1b9ef12SLeila Ghaffari   const CeedScalar dx_i[3] = {0};
39d1b9ef12SLeila Ghaffari   StateConservative dF[3];
40d1b9ef12SLeila Ghaffari   // Zero stab so all future terms can safely sum into it
41d1b9ef12SLeila Ghaffari   for (CeedInt i=0; i<5; i++)
42d1b9ef12SLeila Ghaffari     for (CeedInt j=0; j<3; j++)
43d1b9ef12SLeila Ghaffari       stab[i][j] = 0;
44d1b9ef12SLeila Ghaffari   dYFromTau(R, Tau_d, dY);
45d1b9ef12SLeila Ghaffari   State ds = StateFromY_fwd(gas, s, dY, x, dx_i);
46d1b9ef12SLeila Ghaffari   FluxInviscid_fwd(gas, s, ds, dF);
47d1b9ef12SLeila Ghaffari   for (CeedInt i=0; i<3; i++) {
48d1b9ef12SLeila Ghaffari     CeedScalar dF_i[5];
49d1b9ef12SLeila Ghaffari     UnpackState_U(dF[i], dF_i);
50d1b9ef12SLeila Ghaffari     for (CeedInt j=0; j<5; j++)
51d1b9ef12SLeila Ghaffari       stab[j][i] += dF_i[j];
52d1b9ef12SLeila Ghaffari   }
53d1b9ef12SLeila Ghaffari }
54d1b9ef12SLeila Ghaffari 
55d1b9ef12SLeila Ghaffari CEED_QFUNCTION_HELPER void Stabilization(NewtonianIdealGasContext gas, State s,
56d1b9ef12SLeila Ghaffari     CeedScalar Tau_d[3], State ds[3], CeedScalar U_dot[5],
57d1b9ef12SLeila Ghaffari     const CeedScalar body_force[5], const CeedScalar x[3], CeedScalar stab[5][3]) {
58d1b9ef12SLeila Ghaffari   // -- Stabilization method: none (Galerkin), SU, or SUPG
59d1b9ef12SLeila Ghaffari   CeedScalar R[5] = {0};
60d1b9ef12SLeila Ghaffari   switch (gas->stabilization) {
61d1b9ef12SLeila Ghaffari   case STAB_NONE:
62d1b9ef12SLeila Ghaffari     break;
63d1b9ef12SLeila Ghaffari   case STAB_SU:
64d1b9ef12SLeila Ghaffari     FluxInviscidStrong(gas, s, ds, R);
65d1b9ef12SLeila Ghaffari     break;
66d1b9ef12SLeila Ghaffari   case STAB_SUPG:
67d1b9ef12SLeila Ghaffari     FluxInviscidStrong(gas, s, ds, R);
68d1b9ef12SLeila Ghaffari     for (CeedInt j=0; j<5; j++) R[j] += U_dot[j] - body_force[j];
69d1b9ef12SLeila Ghaffari     break;
70d1b9ef12SLeila Ghaffari   }
71d1b9ef12SLeila Ghaffari   StabilizationMatrix(gas, s, Tau_d, R, x, stab);
72d1b9ef12SLeila Ghaffari }
73d1b9ef12SLeila Ghaffari 
74d1b9ef12SLeila Ghaffari // *****************************************************************************
75d1b9ef12SLeila Ghaffari // Helper function for computing Tau elements (stabilization constant)
76d1b9ef12SLeila Ghaffari //   Model from:
77d1b9ef12SLeila Ghaffari //     PHASTA
78d1b9ef12SLeila Ghaffari //
79d1b9ef12SLeila Ghaffari //   Tau[i] = itau=0 which is diagonal-Shakib (3 values still but not spatial)
80d1b9ef12SLeila Ghaffari //
81d1b9ef12SLeila Ghaffari // *****************************************************************************
82d1b9ef12SLeila Ghaffari CEED_QFUNCTION_HELPER void Tau_diagPrim(NewtonianIdealGasContext gas, State s,
83d1b9ef12SLeila Ghaffari                                         const CeedScalar dXdx[3][3],
84d1b9ef12SLeila Ghaffari                                         const CeedScalar dt, CeedScalar Tau_d[3]) {
85d1b9ef12SLeila Ghaffari   // Context
86d1b9ef12SLeila Ghaffari   const CeedScalar Ctau_t = gas->Ctau_t;
87d1b9ef12SLeila Ghaffari   const CeedScalar Ctau_v = gas->Ctau_v;
88d1b9ef12SLeila Ghaffari   const CeedScalar Ctau_C = gas->Ctau_C;
89d1b9ef12SLeila Ghaffari   const CeedScalar Ctau_M = gas->Ctau_M;
90d1b9ef12SLeila Ghaffari   const CeedScalar Ctau_E = gas->Ctau_E;
91d1b9ef12SLeila Ghaffari   const CeedScalar cv = gas->cv;
92d1b9ef12SLeila Ghaffari   const CeedScalar mu = gas->mu;
93d1b9ef12SLeila Ghaffari   const CeedScalar u[3] = {s.Y.velocity[0], s.Y.velocity[1], s.Y.velocity[2]};
94d1b9ef12SLeila Ghaffari   const CeedScalar rho = s.U.density;
95d1b9ef12SLeila Ghaffari 
96d1b9ef12SLeila Ghaffari   CeedScalar gijd[6];
97d1b9ef12SLeila Ghaffari   CeedScalar tau;
98d1b9ef12SLeila Ghaffari   CeedScalar dts;
99d1b9ef12SLeila Ghaffari   CeedScalar fact;
100d1b9ef12SLeila Ghaffari 
101d1b9ef12SLeila Ghaffari   //*INDENT-OFF*
102d1b9ef12SLeila Ghaffari   gijd[0] =   dXdx[0][0] * dXdx[0][0]
103d1b9ef12SLeila Ghaffari             + dXdx[1][0] * dXdx[1][0]
104d1b9ef12SLeila Ghaffari             + dXdx[2][0] * dXdx[2][0];
105d1b9ef12SLeila Ghaffari 
106d1b9ef12SLeila Ghaffari   gijd[1] =   dXdx[0][0] * dXdx[0][1]
107d1b9ef12SLeila Ghaffari             + dXdx[1][0] * dXdx[1][1]
108d1b9ef12SLeila Ghaffari             + dXdx[2][0] * dXdx[2][1];
109d1b9ef12SLeila Ghaffari 
110d1b9ef12SLeila Ghaffari   gijd[2] =   dXdx[0][1] * dXdx[0][1]
111d1b9ef12SLeila Ghaffari             + dXdx[1][1] * dXdx[1][1]
112d1b9ef12SLeila Ghaffari             + dXdx[2][1] * dXdx[2][1];
113d1b9ef12SLeila Ghaffari 
114d1b9ef12SLeila Ghaffari   gijd[3] =   dXdx[0][0] * dXdx[0][2]
115d1b9ef12SLeila Ghaffari             + dXdx[1][0] * dXdx[1][2]
116d1b9ef12SLeila Ghaffari             + dXdx[2][0] * dXdx[2][2];
117d1b9ef12SLeila Ghaffari 
118d1b9ef12SLeila Ghaffari   gijd[4] =   dXdx[0][1] * dXdx[0][2]
119d1b9ef12SLeila Ghaffari             + dXdx[1][1] * dXdx[1][2]
120d1b9ef12SLeila Ghaffari             + dXdx[2][1] * dXdx[2][2];
121d1b9ef12SLeila Ghaffari 
122d1b9ef12SLeila Ghaffari   gijd[5] =   dXdx[0][2] * dXdx[0][2]
123d1b9ef12SLeila Ghaffari             + dXdx[1][2] * dXdx[1][2]
124d1b9ef12SLeila Ghaffari             + dXdx[2][2] * dXdx[2][2];
125d1b9ef12SLeila Ghaffari   //*INDENT-ON*
126d1b9ef12SLeila Ghaffari 
127d1b9ef12SLeila Ghaffari   dts = Ctau_t / dt ;
128d1b9ef12SLeila Ghaffari 
129d1b9ef12SLeila Ghaffari   tau = rho*rho*((4. * dts * dts)
130d1b9ef12SLeila Ghaffari                  + u[0] * ( u[0] * gijd[0] + 2. * ( u[1] * gijd[1] + u[2] * gijd[3]))
131d1b9ef12SLeila Ghaffari                  + u[1] * ( u[1] * gijd[2] + 2. *   u[2] * gijd[4])
132d1b9ef12SLeila Ghaffari                  + u[2] *   u[2] * gijd[5])
133d1b9ef12SLeila Ghaffari         + Ctau_v* mu * mu *
134d1b9ef12SLeila Ghaffari         (gijd[0]*gijd[0] + gijd[2]*gijd[2] + gijd[5]*gijd[5] +
135d1b9ef12SLeila Ghaffari          + 2. * (gijd[1]*gijd[1] + gijd[3]*gijd[3] + gijd[4]*gijd[4]));
136d1b9ef12SLeila Ghaffari 
137d1b9ef12SLeila Ghaffari   fact = sqrt(tau);
138d1b9ef12SLeila Ghaffari 
139d1b9ef12SLeila Ghaffari   Tau_d[0] = Ctau_C * fact / (rho*(gijd[0] + gijd[2] + gijd[5]))*0.125;
140d1b9ef12SLeila Ghaffari 
141d1b9ef12SLeila Ghaffari   Tau_d[1] = Ctau_M / fact;
142d1b9ef12SLeila Ghaffari   Tau_d[2] = Ctau_E / ( fact * cv );
143d1b9ef12SLeila Ghaffari 
144d1b9ef12SLeila Ghaffari   // consider putting back the way I initially had it  Ctau_E * Tau_d[1] /cv
145d1b9ef12SLeila Ghaffari   //  to avoid a division if the compiler is smart enough to see that cv IS
146d1b9ef12SLeila Ghaffari   // a constant that it could invert once for all elements
147d1b9ef12SLeila Ghaffari   // but in that case energy tau is scaled by the product of Ctau_E * Ctau_M
148d1b9ef12SLeila Ghaffari   // OR we could absorb cv into Ctau_E but this puts more burden on user to
149d1b9ef12SLeila Ghaffari   // know how to change constants with a change of fluid or units.  Same for
150d1b9ef12SLeila Ghaffari   // Ctau_v * mu * mu IF AND ONLY IF we don't add viscosity law =f(T)
151d1b9ef12SLeila Ghaffari }
152d1b9ef12SLeila Ghaffari 
153d1b9ef12SLeila Ghaffari // *****************************************************************************
154d1b9ef12SLeila Ghaffari 
155d1b9ef12SLeila Ghaffari #endif // stabilization_h
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