1e0eea495SMark #include <petsc/private/dmpleximpl.h> /*I "petscdmplex.h" I*/ 2e0eea495SMark #include <petsclandau.h> /*I "petsclandau.h" I*/ 3e0eea495SMark #include <petscts.h> 4e0eea495SMark #include <petscdmforest.h> 58a6f2e61SMark Adams #include <petscdmcomposite.h> 68a6f2e61SMark Adams 7e0eea495SMark /* Landau collision operator */ 8cefb98e8SMark Adams 9cefb98e8SMark Adams /* relativistic terms */ 10cefb98e8SMark Adams #if defined(PETSC_USE_REAL_SINGLE) 118a6f2e61SMark Adams #define SPEED_OF_LIGHT 2.99792458e8F 12cefb98e8SMark Adams #define C_0(v0) (SPEED_OF_LIGHT/v0) /* needed for relativistic tensor on all architectures */ 13cefb98e8SMark Adams #else 148a6f2e61SMark Adams #define SPEED_OF_LIGHT 2.99792458e8 15cefb98e8SMark Adams #define C_0(v0) (SPEED_OF_LIGHT/v0) /* needed for relativistic tensor on all architectures */ 16cefb98e8SMark Adams #endif 17cefb98e8SMark Adams 18e0eea495SMark #define PETSC_THREAD_SYNC 1952cdd6eaSMark #include "land_tensors.h" 20e0eea495SMark 218fdabdddSMark Adams #if defined(PETSC_HAVE_OPENMP) 228fdabdddSMark Adams #include <omp.h> 238fdabdddSMark Adams #endif 248fdabdddSMark Adams 25a587d139SMark /* vector padding not supported */ 26e0eea495SMark #define LANDAU_VL 1 2752cdd6eaSMark 28e8d2b73aSMark Adams static PetscErrorCode LandauGPUMapsDestroy(void *ptr) 29a587d139SMark { 30a587d139SMark P4estVertexMaps *maps = (P4estVertexMaps*)ptr; 31a587d139SMark PetscErrorCode ierr; 32a587d139SMark PetscFunctionBegin; 338a6f2e61SMark Adams // free device data 348a6f2e61SMark Adams if (maps[0].deviceType != LANDAU_CPU) { 35a587d139SMark #if defined(PETSC_HAVE_KOKKOS_KERNELS) 368a6f2e61SMark Adams if (maps[0].deviceType == LANDAU_KOKKOS) { 378a6f2e61SMark Adams ierr = LandauKokkosDestroyMatMaps(maps, maps[0].numgrids);CHKERRQ(ierr); // imples Kokkos does 38a587d139SMark } // else could be CUDA 39a587d139SMark #elif defined(PETSC_HAVE_CUDA) 408a6f2e61SMark Adams if (maps[0].deviceType == LANDAU_CUDA) { 418a6f2e61SMark Adams ierr = LandauCUDADestroyMatMaps(maps, maps[0].numgrids);CHKERRQ(ierr); 42a587d139SMark } else SETERRQ1(PETSC_COMM_SELF, PETSC_ERR_PLIB, "maps->deviceType %D ?????",maps->deviceType); 43a587d139SMark #endif 44a587d139SMark } 458a6f2e61SMark Adams // free host data 468a6f2e61SMark Adams for (PetscInt grid=0 ; grid < maps[0].numgrids ; grid++) { 478a6f2e61SMark Adams ierr = PetscFree(maps[grid].c_maps);CHKERRQ(ierr); 488a6f2e61SMark Adams ierr = PetscFree(maps[grid].gIdx);CHKERRQ(ierr); 498a6f2e61SMark Adams } 50a587d139SMark ierr = PetscFree(maps);CHKERRQ(ierr); 518a6f2e61SMark Adams 52a587d139SMark PetscFunctionReturn(0); 53a587d139SMark } 54cefb98e8SMark Adams static PetscErrorCode energy_f(PetscInt dim, PetscReal time, const PetscReal x[], PetscInt Nf_dummy, PetscScalar *u, void *actx) 55cefb98e8SMark Adams { 56cefb98e8SMark Adams PetscReal v2 = 0; 57cefb98e8SMark Adams PetscFunctionBegin; 58cefb98e8SMark Adams /* compute v^2 / 2 */ 59cefb98e8SMark Adams for (int i = 0; i < dim; ++i) v2 += x[i]*x[i]; 60cefb98e8SMark Adams /* evaluate the Maxwellian */ 61cefb98e8SMark Adams u[0] = v2/2; 62cefb98e8SMark Adams PetscFunctionReturn(0); 63cefb98e8SMark Adams } 64cefb98e8SMark Adams 65cefb98e8SMark Adams /* needs double */ 66cefb98e8SMark Adams static PetscErrorCode gamma_m1_f(PetscInt dim, PetscReal time, const PetscReal x[], PetscInt Nf_dummy, PetscScalar *u, void *actx) 67cefb98e8SMark Adams { 68cefb98e8SMark Adams PetscReal *c2_0_arr = ((PetscReal*)actx); 69cefb98e8SMark Adams double u2 = 0, c02 = (double)*c2_0_arr, xx; 70cefb98e8SMark Adams 71cefb98e8SMark Adams PetscFunctionBegin; 72cefb98e8SMark Adams /* compute u^2 / 2 */ 73cefb98e8SMark Adams for (int i = 0; i < dim; ++i) u2 += x[i]*x[i]; 74cefb98e8SMark Adams /* gamma - 1 = g_eps, for conditioning and we only take derivatives */ 75cefb98e8SMark Adams xx = u2/c02; 76cefb98e8SMark Adams #if defined(PETSC_USE_DEBUG) 77cefb98e8SMark Adams u[0] = PetscSqrtReal(1. + xx); 78cefb98e8SMark Adams #else 79cefb98e8SMark Adams u[0] = xx/(PetscSqrtReal(1. + xx) + 1.) - 1.; // better conditioned. -1 might help condition and only used for derivative 80cefb98e8SMark Adams #endif 81cefb98e8SMark Adams PetscFunctionReturn(0); 82cefb98e8SMark Adams } 83e8d2b73aSMark Adams 84e0eea495SMark /* 85e0eea495SMark LandauFormJacobian_Internal - Evaluates Jacobian matrix. 86e0eea495SMark 87e0eea495SMark Input Parameters: 88e0eea495SMark . globX - input vector 89e0eea495SMark . actx - optional user-defined context 90e0eea495SMark . dim - dimension 91e0eea495SMark 92e0eea495SMark Output Parameters: 93e0eea495SMark . J0acP - Jacobian matrix filled, not created 94e0eea495SMark */ 95930e68a5SMark Adams static PetscErrorCode LandauFormJacobian_Internal(Vec a_X, Mat JacP, const PetscInt dim, PetscReal shift, void *a_ctx) 96e0eea495SMark { 97e0eea495SMark LandauCtx *ctx = (LandauCtx*)a_ctx; 98e0eea495SMark PetscErrorCode ierr; 99365b711fSMark Adams PetscInt numCells[LANDAU_MAX_GRIDS],Nq,Nb,Nf[LANDAU_MAX_GRIDS],N; 100e0eea495SMark PetscQuadrature quad; 101e0eea495SMark const PetscReal *quadWeights; 1028a6f2e61SMark Adams PetscTabulation *Tf; // used for CPU and print info. Same on all grids and all species 103e8d2b73aSMark Adams PetscReal Eq_m[LANDAU_MAX_SPECIES], m_0=ctx->m_0; /* normalize mass -- not needed! */ 1048a6f2e61SMark Adams PetscScalar *cellClosure=NULL; 105af0767daSMark Adams const PetscScalar *xdata=NULL; 1068a6f2e61SMark Adams PetscDS prob; 1078a6f2e61SMark Adams //PetscLogDouble flops; 108a587d139SMark PetscContainer container; 1098a6f2e61SMark Adams P4estVertexMaps *maps; 1108a6f2e61SMark Adams PetscSection section[LANDAU_MAX_GRIDS],globsection[LANDAU_MAX_GRIDS]; 1118fdabdddSMark Adams Mat subJ[LANDAU_MAX_GRIDS*LANDAU_MAX_BATCH_SZ]; 112e0eea495SMark 113e0eea495SMark PetscFunctionBegin; 114e0eea495SMark PetscValidHeaderSpecific(a_X,VEC_CLASSID,1); 115e0eea495SMark PetscValidHeaderSpecific(JacP,MAT_CLASSID,2); 116064a246eSJacob Faibussowitsch PetscValidPointer(ctx,5); 117a587d139SMark /* check for matrix container for GPU assembly */ 118930e68a5SMark Adams ierr = PetscLogEventBegin(ctx->events[10],0,0,0,0);CHKERRQ(ierr); 1198a6f2e61SMark Adams ierr = DMGetDS(ctx->plex[0], &prob);CHKERRQ(ierr); // same DS for all grids 1208a6f2e61SMark Adams ierr = PetscDSGetTabulation(prob, &Tf);CHKERRQ(ierr); // Bf, &Df same for all grids 121a587d139SMark ierr = PetscObjectQuery((PetscObject) JacP, "assembly_maps", (PetscObject *) &container);CHKERRQ(ierr); 1228a6f2e61SMark Adams if (container) { 123930e68a5SMark Adams if (!ctx->gpu_assembly) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"GPU matrix container but no GPU assembly"); 124a587d139SMark ierr = PetscContainerGetPointer(container, (void **) &maps);CHKERRQ(ierr); 125930e68a5SMark Adams if (!maps) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"empty GPU matrix container"); 1268fdabdddSMark Adams for (PetscInt i=0;i<ctx->num_grids*ctx->batch_sz;i++) subJ[i] = NULL; 1278a6f2e61SMark Adams } else { 1288fdabdddSMark Adams for (PetscInt tid=0 ; tid<ctx->batch_sz ; tid++) { 1298a6f2e61SMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 1308fdabdddSMark Adams ierr = DMCreateMatrix(ctx->plex[grid], &subJ[ LAND_PACK_IDX(tid,grid) ]);CHKERRQ(ierr); 1318fdabdddSMark Adams } 132a587d139SMark } 1338a6f2e61SMark Adams maps = NULL; 13454545eeeSMark Adams } 1358a6f2e61SMark Adams /* DS, Tab and quad is same on all grids */ 1368a6f2e61SMark Adams if (ctx->plex[0] == NULL) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"Plex not created"); 137e0eea495SMark ierr = PetscFEGetQuadrature(ctx->fe[0], &quad);CHKERRQ(ierr); 1388a6f2e61SMark Adams ierr = PetscQuadratureGetData(quad, NULL, NULL, &Nq, NULL, &quadWeights);CHKERRQ(ierr); Nb = Nq; 139930e68a5SMark Adams if (Nq >LANDAU_MAX_NQ) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"Order too high. Nq = %D > LANDAU_MAX_NQ (%D)",Nq,LANDAU_MAX_NQ); 140930e68a5SMark Adams if (LANDAU_DIM != dim) SETERRQ2(ctx->comm, PETSC_ERR_PLIB, "dim %D != LANDAU_DIM %d",dim,LANDAU_DIM); 1418a6f2e61SMark Adams /* setup each grid */ 1428a6f2e61SMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 1438a6f2e61SMark Adams PetscInt cStart, cEnd; 1448a6f2e61SMark Adams if (ctx->plex[grid] == NULL) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"Plex not created"); 1458a6f2e61SMark Adams ierr = DMPlexGetHeightStratum(ctx->plex[grid], 0, &cStart, &cEnd);CHKERRQ(ierr); 1468a6f2e61SMark Adams numCells[grid] = cEnd - cStart; // grids can have different topology 1478a6f2e61SMark Adams ierr = DMGetLocalSection(ctx->plex[grid], §ion[grid]);CHKERRQ(ierr); 1488a6f2e61SMark Adams ierr = DMGetGlobalSection(ctx->plex[grid], &globsection[grid]);CHKERRQ(ierr); 1498a6f2e61SMark Adams ierr = PetscSectionGetNumFields(section[grid], &Nf[grid]);CHKERRQ(ierr); 150930e68a5SMark Adams } 151b8d122ceSMark Adams ierr = VecGetSize(a_X,&N);CHKERRQ(ierr); 1528a6f2e61SMark Adams ierr = PetscLogEventEnd(ctx->events[10],0,0,0,0);CHKERRQ(ierr); 1538fdabdddSMark Adams if (!ctx->initialized) { /* create static point data, Jacobian called first, only one vertex copy */ 1548fdabdddSMark Adams PetscReal *invJe,*ww,*xx,*yy,*zz=NULL,*invJ_a; 155365b711fSMark Adams PetscInt outer_ipidx, outer_ej,grid, nip_glb = 0; 1568a6f2e61SMark Adams PetscFE fe; 1578a6f2e61SMark Adams 158e8d2b73aSMark Adams ierr = PetscLogEventBegin(ctx->events[7],0,0,0,0);CHKERRQ(ierr); 1598a6f2e61SMark Adams ierr = PetscInfo(ctx->plex[0], "Initialize static data\n");CHKERRQ(ierr); 160365b711fSMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) nip_glb += Nq*numCells[grid]; 161e8d2b73aSMark Adams /* collect f data, first time is for Jacobian, but make mass now */ 1628a6f2e61SMark Adams if (ctx->verbose > 0) { 163365b711fSMark Adams PetscInt ncells = 0; 164365b711fSMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) ncells += numCells[grid]; 1658fdabdddSMark Adams ierr = PetscPrintf(ctx->comm,"%D) %s %D IPs, %D cells total, Nb=%D, Nq=%D, dim=%D, Tab: Nb=%D Nf=%D Np=%D cdim=%D N=%D\n", 166365b711fSMark Adams 0,"FormLandau",nip_glb,ncells, Nb, Nq, dim, Tf[0]->Nb, ctx->num_species, Tf[0]->Np, Tf[0]->cdim, N);CHKERRQ(ierr); 167e0eea495SMark } 1688a6f2e61SMark Adams ierr = PetscMalloc4(nip_glb,&ww,nip_glb,&xx,nip_glb,&yy,nip_glb*dim*dim,&invJ_a);CHKERRQ(ierr); 169e8d2b73aSMark Adams if (dim==3) { 1708a6f2e61SMark Adams ierr = PetscMalloc1(nip_glb,&zz);CHKERRQ(ierr); 171930e68a5SMark Adams } 1728a6f2e61SMark Adams if (ctx->use_energy_tensor_trick) { 1738a6f2e61SMark Adams ierr = PetscFECreateDefault(PETSC_COMM_SELF, dim, 1, PETSC_FALSE, NULL, PETSC_DECIDE, &fe);CHKERRQ(ierr); 1748a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject) fe, "energy");CHKERRQ(ierr); 1758a6f2e61SMark Adams } 1768fdabdddSMark Adams /* init each grids static data - no batch */ 1778fdabdddSMark Adams for (grid=0, outer_ipidx=0, outer_ej=0 ; grid < ctx->num_grids ; grid++) { // OpenMP (once) 1788a6f2e61SMark Adams Vec v2_2 = NULL; // projected function: v^2/2 for non-relativistic, gamma... for relativistic 1798a6f2e61SMark Adams PetscSection e_section; 1808a6f2e61SMark Adams DM dmEnergy; 1818a6f2e61SMark Adams PetscInt cStart, cEnd, ej; 1828a6f2e61SMark Adams 1838a6f2e61SMark Adams ierr = DMPlexGetHeightStratum(ctx->plex[grid], 0, &cStart, &cEnd);CHKERRQ(ierr); 184cefb98e8SMark Adams // prep energy trick, get v^2 / 2 vector 185cefb98e8SMark Adams if (ctx->use_energy_tensor_trick) { 186cefb98e8SMark Adams PetscErrorCode (*energyf[1])(PetscInt, PetscReal, const PetscReal [], PetscInt, PetscScalar [], void *) = {ctx->use_relativistic_corrections ? gamma_m1_f : energy_f}; 187cefb98e8SMark Adams Vec glob_v2; 188cefb98e8SMark Adams PetscReal *c2_0[1], data[1] = {PetscSqr(C_0(ctx->v_0))}; 189cefb98e8SMark Adams 1908a6f2e61SMark Adams ierr = DMClone(ctx->plex[grid], &dmEnergy);CHKERRQ(ierr); 191cefb98e8SMark Adams ierr = PetscObjectSetName((PetscObject) dmEnergy, "energy");CHKERRQ(ierr); 192cefb98e8SMark Adams ierr = DMSetField(dmEnergy, 0, NULL, (PetscObject)fe);CHKERRQ(ierr); 193cefb98e8SMark Adams ierr = DMCreateDS(dmEnergy);CHKERRQ(ierr); 194cefb98e8SMark Adams ierr = DMGetSection(dmEnergy, &e_section);CHKERRQ(ierr); 195cefb98e8SMark Adams ierr = DMGetGlobalVector(dmEnergy,&glob_v2);CHKERRQ(ierr); 1968a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject) glob_v2, "trick");CHKERRQ(ierr); 197cefb98e8SMark Adams c2_0[0] = &data[0]; 198cefb98e8SMark Adams ierr = DMProjectFunction(dmEnergy, 0., energyf, (void**)c2_0, INSERT_ALL_VALUES, glob_v2);CHKERRQ(ierr); 199cefb98e8SMark Adams ierr = DMGetLocalVector(dmEnergy, &v2_2);CHKERRQ(ierr); 200cefb98e8SMark Adams ierr = VecZeroEntries(v2_2);CHKERRQ(ierr); /* zero BCs so don't set */ 201cefb98e8SMark Adams ierr = DMGlobalToLocalBegin(dmEnergy, glob_v2, INSERT_VALUES, v2_2);CHKERRQ(ierr); 202cefb98e8SMark Adams ierr = DMGlobalToLocalEnd (dmEnergy, glob_v2, INSERT_VALUES, v2_2);CHKERRQ(ierr); 203cefb98e8SMark Adams ierr = DMViewFromOptions(dmEnergy,NULL, "-energy_dm_view");CHKERRQ(ierr); 204cefb98e8SMark Adams ierr = VecViewFromOptions(glob_v2,NULL, "-energy_vec_view");CHKERRQ(ierr); 205cefb98e8SMark Adams ierr = DMRestoreGlobalVector(dmEnergy, &glob_v2);CHKERRQ(ierr); 206cefb98e8SMark Adams } 2078a6f2e61SMark Adams /* append part of the IP data for each grid */ 2088a6f2e61SMark Adams for (ej = 0 ; ej < numCells[grid]; ++ej, ++outer_ej) { 209cefb98e8SMark Adams PetscScalar *coefs = NULL; 210cefb98e8SMark Adams PetscReal vj[LANDAU_MAX_NQ*LANDAU_DIM],detJj[LANDAU_MAX_NQ], Jdummy[LANDAU_MAX_NQ*LANDAU_DIM*LANDAU_DIM], c0 = C_0(ctx->v_0), c02 = PetscSqr(c0); 2118fdabdddSMark Adams invJe = invJ_a + outer_ej*Nq*dim*dim; 2128fdabdddSMark Adams ierr = DMPlexComputeCellGeometryFEM(ctx->plex[grid], ej+cStart, quad, vj, Jdummy, invJe, detJj);CHKERRQ(ierr); 213cefb98e8SMark Adams if (ctx->use_energy_tensor_trick) { 2148a6f2e61SMark Adams ierr = DMPlexVecGetClosure(dmEnergy, e_section, v2_2, ej+cStart, NULL, &coefs);CHKERRQ(ierr); 215cefb98e8SMark Adams } 2168a6f2e61SMark Adams /* create static point data */ 217365b711fSMark Adams for (PetscInt qj = 0; qj < Nq; qj++, outer_ipidx++) { 2188a6f2e61SMark Adams const PetscInt gidx = outer_ipidx; 2198fdabdddSMark Adams const PetscReal *invJ = &invJe[qj*dim*dim]; 2208a6f2e61SMark Adams ww [gidx] = detJj[qj] * quadWeights[qj]; 2218a6f2e61SMark Adams if (dim==2) ww [gidx] *= vj[qj * dim + 0]; /* cylindrical coordinate, w/o 2pi */ 222cefb98e8SMark Adams // get xx, yy, zz 223cefb98e8SMark Adams if (ctx->use_energy_tensor_trick) { 224cefb98e8SMark Adams double refSpaceDer[3],eGradPhi[3]; 225cefb98e8SMark Adams const PetscReal * const DD = Tf[0]->T[1]; 226cefb98e8SMark Adams const PetscReal *Dq = &DD[qj*Nb*dim]; 227cefb98e8SMark Adams for (int d = 0; d < 3; ++d) refSpaceDer[d] = eGradPhi[d] = 0.0; 228cefb98e8SMark Adams for (int b = 0; b < Nb; ++b) { 229cefb98e8SMark Adams for (int d = 0; d < dim; ++d) refSpaceDer[d] += Dq[b*dim+d]*PetscRealPart(coefs[b]); 230cefb98e8SMark Adams } 231cefb98e8SMark Adams xx[gidx] = 1e10; 232cefb98e8SMark Adams if (ctx->use_relativistic_corrections) { 233cefb98e8SMark Adams double dg2_c2 = 0; 234cefb98e8SMark Adams //for (int d = 0; d < dim; ++d) refSpaceDer[d] *= c02; 235cefb98e8SMark Adams for (int d = 0; d < dim; ++d) dg2_c2 += PetscSqr(refSpaceDer[d]); 236cefb98e8SMark Adams dg2_c2 *= (double)c02; 237cefb98e8SMark Adams if (dg2_c2 >= .999) { 238e8d2b73aSMark Adams xx[gidx] = vj[qj * dim + 0]; /* coordinate */ 239e8d2b73aSMark Adams yy[gidx] = vj[qj * dim + 1]; 240e8d2b73aSMark Adams if (dim==3) zz[gidx] = vj[qj * dim + 2]; 241cefb98e8SMark Adams PetscPrintf(ctx->comm,"Error: %12.5e %D.%D) dg2/c02 = %12.5e x= %12.5e %12.5e %12.5e\n",PetscSqrtReal(xx[gidx]*xx[gidx] + yy[gidx]*yy[gidx] + zz[gidx]*zz[gidx]), ej, qj, dg2_c2, xx[gidx],yy[gidx],zz[gidx]); 242cefb98e8SMark Adams } else { 243cefb98e8SMark Adams PetscReal fact = c02/PetscSqrtReal(1. - dg2_c2); 244cefb98e8SMark Adams for (int d = 0; d < dim; ++d) refSpaceDer[d] *= fact; 245cefb98e8SMark Adams // could test with other point u' that (grad - grad') * U (refSpaceDer, refSpaceDer') == 0 246cefb98e8SMark Adams } 247cefb98e8SMark Adams } 248cefb98e8SMark Adams if (xx[gidx] == 1e10) { 249cefb98e8SMark Adams for (int d = 0; d < dim; ++d) { 250cefb98e8SMark Adams for (int e = 0 ; e < dim; ++e) { 2518fdabdddSMark Adams eGradPhi[d] += invJ[e*dim+d]*refSpaceDer[e]; 252cefb98e8SMark Adams } 253cefb98e8SMark Adams } 254cefb98e8SMark Adams xx[gidx] = eGradPhi[0]; 255cefb98e8SMark Adams yy[gidx] = eGradPhi[1]; 256cefb98e8SMark Adams if (dim==3) zz[gidx] = eGradPhi[2]; 257cefb98e8SMark Adams } 258cefb98e8SMark Adams } else { 259cefb98e8SMark Adams xx[gidx] = vj[qj * dim + 0]; /* coordinate */ 260cefb98e8SMark Adams yy[gidx] = vj[qj * dim + 1]; 261cefb98e8SMark Adams if (dim==3) zz[gidx] = vj[qj * dim + 2]; 262cefb98e8SMark Adams } 263e0eea495SMark } /* q */ 264cefb98e8SMark Adams if (ctx->use_energy_tensor_trick) { 2658a6f2e61SMark Adams ierr = DMPlexVecRestoreClosure(dmEnergy, e_section, v2_2, ej+cStart, NULL, &coefs);CHKERRQ(ierr); 266cefb98e8SMark Adams } 267930e68a5SMark Adams } /* ej */ 268cefb98e8SMark Adams if (ctx->use_energy_tensor_trick) { 269cefb98e8SMark Adams ierr = DMRestoreLocalVector(dmEnergy, &v2_2);CHKERRQ(ierr); 270cefb98e8SMark Adams ierr = DMDestroy(&dmEnergy);CHKERRQ(ierr); 271cefb98e8SMark Adams } 2728a6f2e61SMark Adams } /* grid */ 2738a6f2e61SMark Adams if (ctx->use_energy_tensor_trick) { 2748a6f2e61SMark Adams ierr = PetscFEDestroy(&fe);CHKERRQ(ierr); 2758a6f2e61SMark Adams } 276e8d2b73aSMark Adams /* cache static data */ 277a587d139SMark if (ctx->deviceType == LANDAU_CUDA || ctx->deviceType == LANDAU_KOKKOS) { 2788a6f2e61SMark Adams #if defined(PETSC_HAVE_CUDA) || defined(PETSC_HAVE_KOKKOS_KERNELS) 279e8d2b73aSMark Adams PetscReal invMass[LANDAU_MAX_SPECIES],nu_alpha[LANDAU_MAX_SPECIES], nu_beta[LANDAU_MAX_SPECIES]; 2808a6f2e61SMark Adams for (PetscInt grid = 0; grid < ctx->num_grids ; grid++) { 2818a6f2e61SMark Adams for (PetscInt ii=ctx->species_offset[grid];ii<ctx->species_offset[grid+1];ii++) { 2828a6f2e61SMark Adams invMass[ii] = m_0/ctx->masses[ii]; 2838a6f2e61SMark Adams nu_alpha[ii] = PetscSqr(ctx->charges[ii]/m_0)*m_0/ctx->masses[ii]; 2848a6f2e61SMark Adams nu_beta[ii] = PetscSqr(ctx->charges[ii]/ctx->epsilon0)*ctx->lnLam / (8*PETSC_PI) * ctx->t_0*ctx->n_0/PetscPowReal(ctx->v_0,3); 2858a6f2e61SMark Adams } 286e8d2b73aSMark Adams } 287e0eea495SMark if (ctx->deviceType == LANDAU_CUDA) { 288e0eea495SMark #if defined(PETSC_HAVE_CUDA) 2898fdabdddSMark Adams ierr = LandauCUDAStaticDataSet(ctx->plex[0], Nq, ctx->batch_sz, ctx->num_grids, numCells, ctx->species_offset, ctx->mat_offset, 2908fdabdddSMark Adams nu_alpha, nu_beta, invMass, invJ_a, xx, yy, zz, ww, &ctx->SData_d);CHKERRQ(ierr); 291e0eea495SMark #else 292930e68a5SMark Adams SETERRQ1(ctx->comm,PETSC_ERR_ARG_WRONG,"-landau_device_type %s not built","cuda"); 293e0eea495SMark #endif 294e0eea495SMark } else if (ctx->deviceType == LANDAU_KOKKOS) { 2958a6f2e61SMark Adams #if defined(PETSC_HAVE_KOKKOS_KERNELS) 2968fdabdddSMark Adams ierr = LandauKokkosStaticDataSet(ctx->plex[0], Nq, ctx->batch_sz, ctx->num_grids, numCells, ctx->species_offset, ctx->mat_offset, 2978fdabdddSMark Adams nu_alpha, nu_beta, invMass,invJ_a,xx,yy,zz,ww,&ctx->SData_d);CHKERRQ(ierr); 298e0eea495SMark #else 299930e68a5SMark Adams SETERRQ1(ctx->comm,PETSC_ERR_ARG_WRONG,"-landau_device_type %s not built","kokkos"); 300e0eea495SMark #endif 301a587d139SMark } 302e8d2b73aSMark Adams #endif 303e8d2b73aSMark Adams /* free */ 3048a6f2e61SMark Adams ierr = PetscFree4(ww,xx,yy,invJ_a);CHKERRQ(ierr); 305e8d2b73aSMark Adams if (dim==3) { 306e8d2b73aSMark Adams ierr = PetscFree(zz);CHKERRQ(ierr); 307e8d2b73aSMark Adams } 308e8d2b73aSMark Adams } else { /* CPU version, just copy in, only use part */ 3098a6f2e61SMark Adams ctx->SData_d.w = (void*)ww; 3108a6f2e61SMark Adams ctx->SData_d.x = (void*)xx; 3118a6f2e61SMark Adams ctx->SData_d.y = (void*)yy; 3128a6f2e61SMark Adams ctx->SData_d.z = (void*)zz; 3138a6f2e61SMark Adams ctx->SData_d.invJ = (void*)invJ_a; 314e8d2b73aSMark Adams } 3158a6f2e61SMark Adams ctx->initialized = PETSC_TRUE; 316e8d2b73aSMark Adams ierr = PetscLogEventEnd(ctx->events[7],0,0,0,0);CHKERRQ(ierr); 3178a6f2e61SMark Adams } // initialize 3188fdabdddSMark Adams if (shift==0) { /* create dynamic point data: f_alpha for closure of each cell (cellClosure[nbatch,ngrids,ncells[g],f[Nb,ns[g]]]) or xdata */ 3198a6f2e61SMark Adams DM pack; 3208a6f2e61SMark Adams ierr = VecGetDM(a_X, &pack);CHKERRQ(ierr); 3218a6f2e61SMark Adams if (!pack) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_PLIB, "pack has no DM"); 322e8d2b73aSMark Adams ierr = PetscLogEventBegin(ctx->events[1],0,0,0,0);CHKERRQ(ierr); 323e8d2b73aSMark Adams ierr = MatZeroEntries(JacP);CHKERRQ(ierr); 324365b711fSMark Adams for (PetscInt fieldA=0;fieldA<ctx->num_species;fieldA++) { 325e8d2b73aSMark Adams Eq_m[fieldA] = ctx->Ez * ctx->t_0 * ctx->charges[fieldA] / (ctx->v_0 * ctx->masses[fieldA]); /* normalize dimensionless */ 326e8d2b73aSMark Adams if (dim==2) Eq_m[fieldA] *= 2 * PETSC_PI; /* add the 2pi term that is not in Landau */ 327e8d2b73aSMark Adams } 328b8d122ceSMark Adams if (!ctx->gpu_assembly || !container) { 329*f37ccb5fSMark Adams Vec *locXArray,*globXArray; 3308a6f2e61SMark Adams PetscScalar *cellClosure_it; 331*f37ccb5fSMark Adams PetscInt cellClosure_sz=0,nDMs; 3328a6f2e61SMark Adams /* count cellClosure size */ 333*f37ccb5fSMark Adams ierr = DMCompositeGetNumberDM(pack,&nDMs);CHKERRQ(ierr); 3348a6f2e61SMark Adams for (PetscInt grid=0 ; grid<ctx->num_grids ; grid++) cellClosure_sz += Nb*Nf[grid]*numCells[grid]; 3358fdabdddSMark Adams ierr = PetscMalloc1(cellClosure_sz*ctx->batch_sz,&cellClosure);CHKERRQ(ierr); 3368a6f2e61SMark Adams cellClosure_it = cellClosure; 337*f37ccb5fSMark Adams ierr = PetscMalloc(sizeof(*locXArray)*nDMs, &locXArray);CHKERRQ(ierr); 338*f37ccb5fSMark Adams ierr = PetscMalloc(sizeof(*globXArray)*nDMs, &globXArray);CHKERRQ(ierr); 339*f37ccb5fSMark Adams ierr = DMCompositeGetLocalAccessArray(pack, a_X, nDMs, NULL, locXArray);CHKERRQ(ierr); 340*f37ccb5fSMark Adams ierr = DMCompositeGetAccessArray(pack, a_X, nDMs, NULL, globXArray);CHKERRQ(ierr); 3418fdabdddSMark Adams for (PetscInt b_id = 0 ; b_id < ctx->batch_sz ; b_id++) { // OpenMP (once) 3428a6f2e61SMark Adams for (PetscInt grid=0 ; grid<ctx->num_grids ; grid++) { 3438fdabdddSMark Adams Vec locX = locXArray[ LAND_PACK_IDX(b_id,grid) ], globX = globXArray[ LAND_PACK_IDX(b_id,grid) ], locX2; 3448a6f2e61SMark Adams PetscInt cStart, cEnd, ei; 3458a6f2e61SMark Adams ierr = VecDuplicate(locX,&locX2);CHKERRQ(ierr); 3468a6f2e61SMark Adams ierr = DMGlobalToLocalBegin(ctx->plex[grid], globX, INSERT_VALUES, locX2);CHKERRQ(ierr); 3478a6f2e61SMark Adams ierr = DMGlobalToLocalEnd (ctx->plex[grid], globX, INSERT_VALUES, locX2);CHKERRQ(ierr); 3488a6f2e61SMark Adams ierr = DMPlexGetHeightStratum(ctx->plex[grid], 0, &cStart, &cEnd);CHKERRQ(ierr); 3498a6f2e61SMark Adams for (ei = cStart ; ei < cEnd; ++ei) { 350e8d2b73aSMark Adams PetscScalar *coef = NULL; 3518a6f2e61SMark Adams ierr = DMPlexVecGetClosure(ctx->plex[grid], section[grid], locX2, ei, NULL, &coef);CHKERRQ(ierr); 3528a6f2e61SMark Adams ierr = PetscMemcpy(cellClosure_it,coef,Nb*Nf[grid]*sizeof(*cellClosure_it));CHKERRQ(ierr); /* change if LandauIPReal != PetscScalar */ 3538a6f2e61SMark Adams ierr = DMPlexVecRestoreClosure(ctx->plex[grid], section[grid], locX2, ei, NULL, &coef);CHKERRQ(ierr); 3548a6f2e61SMark Adams cellClosure_it += Nb*Nf[grid]; 3558a6f2e61SMark Adams } 3568a6f2e61SMark Adams ierr = VecDestroy(&locX2);CHKERRQ(ierr); 3578a6f2e61SMark Adams } 3588fdabdddSMark Adams } 3598fdabdddSMark Adams if (cellClosure_it-cellClosure != cellClosure_sz*ctx->batch_sz) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_PLIB, "iteration wrong %D != cellClosure_sz = %D",cellClosure_it-cellClosure,cellClosure_sz*ctx->batch_sz); 360*f37ccb5fSMark Adams ierr = DMCompositeRestoreLocalAccessArray(pack, a_X, nDMs, NULL, locXArray);CHKERRQ(ierr); 361*f37ccb5fSMark Adams ierr = DMCompositeRestoreAccessArray(pack, a_X, nDMs, NULL, globXArray);CHKERRQ(ierr); 362*f37ccb5fSMark Adams ierr = PetscFree(locXArray);CHKERRQ(ierr); 363*f37ccb5fSMark Adams ierr = PetscFree(globXArray);CHKERRQ(ierr); 3648a6f2e61SMark Adams xdata = NULL; 365b8d122ceSMark Adams } else { 366af0767daSMark Adams PetscMemType mtype; 367af0767daSMark Adams ierr = VecGetArrayReadAndMemType(a_X,&xdata,&mtype);CHKERRQ(ierr); 3681eec90e4SMark Adams if (mtype!=PETSC_MEMTYPE_HOST && ctx->deviceType == LANDAU_CPU) { 3691eec90e4SMark Adams SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"CPU run with device data: use -mat_type aij"); 3701eec90e4SMark Adams } 3718a6f2e61SMark Adams cellClosure = NULL; 372b8d122ceSMark Adams } 373e8d2b73aSMark Adams ierr = PetscLogEventEnd(ctx->events[1],0,0,0,0);CHKERRQ(ierr); 3748a6f2e61SMark Adams } else xdata = cellClosure = NULL; 375*f37ccb5fSMark Adams 376e8d2b73aSMark Adams /* do it */ 377e8d2b73aSMark Adams if (ctx->deviceType == LANDAU_CUDA || ctx->deviceType == LANDAU_KOKKOS) { 378e8d2b73aSMark Adams if (ctx->deviceType == LANDAU_CUDA) { 379e8d2b73aSMark Adams #if defined(PETSC_HAVE_CUDA) 3808fdabdddSMark Adams ierr = LandauCUDAJacobian(ctx->plex,Nq,ctx->batch_sz,ctx->num_grids,numCells,Eq_m,cellClosure,N,xdata,&ctx->SData_d,ctx->subThreadBlockSize,shift,ctx->events,ctx->mat_offset, ctx->species_offset, subJ, JacP);CHKERRQ(ierr); 381e8d2b73aSMark Adams #else 382e8d2b73aSMark Adams SETERRQ1(ctx->comm,PETSC_ERR_ARG_WRONG,"-landau_device_type %s not built","cuda"); 383e8d2b73aSMark Adams #endif 384e8d2b73aSMark Adams } else if (ctx->deviceType == LANDAU_KOKKOS) { 3858a6f2e61SMark Adams #if defined(PETSC_HAVE_KOKKOS_KERNELS) 3868fdabdddSMark Adams ierr = LandauKokkosJacobian(ctx->plex,Nq,ctx->batch_sz,ctx->num_grids,numCells,Eq_m,cellClosure,N,xdata,&ctx->SData_d,ctx->subThreadBlockSize,shift,ctx->events,ctx->mat_offset, ctx->species_offset, subJ,JacP);CHKERRQ(ierr); 387e8d2b73aSMark Adams #else 388e8d2b73aSMark Adams SETERRQ1(ctx->comm,PETSC_ERR_ARG_WRONG,"-landau_device_type %s not built","kokkos"); 389e8d2b73aSMark Adams #endif 390e8d2b73aSMark Adams } 391e0eea495SMark } else { /* CPU version */ 3928fdabdddSMark Adams PetscInt ip_offset[LANDAU_MAX_GRIDS+1], ipf_offset[LANDAU_MAX_GRIDS+1], elem_offset[LANDAU_MAX_GRIDS+1],IPf_sz_glb,IPf_sz_tot,num_grids=ctx->num_grids; 3938fdabdddSMark Adams PetscReal *ff, *dudx, *dudy, *dudz, *invJ_a = (PetscReal*)ctx->SData_d.invJ, *xx = (PetscReal*)ctx->SData_d.x, *yy = (PetscReal*)ctx->SData_d.y, *zz = (PetscReal*)ctx->SData_d.z, *ww = (PetscReal*)ctx->SData_d.w; 394a587d139SMark const PetscReal *const BB = Tf[0]->T[0], * const DD = Tf[0]->T[1]; 395e8d2b73aSMark Adams PetscReal Eq_m[LANDAU_MAX_SPECIES], invMass[LANDAU_MAX_SPECIES], nu_alpha[LANDAU_MAX_SPECIES], nu_beta[LANDAU_MAX_SPECIES]; 3968fdabdddSMark Adams /* count IPf size, etc */ 3978fdabdddSMark Adams ip_offset[0] = ipf_offset[0] = elem_offset[0] = 0; 3988fdabdddSMark Adams for (PetscInt grid=0 ; grid<num_grids ; grid++) { 3998fdabdddSMark Adams PetscInt nfloc = ctx->species_offset[grid+1] - ctx->species_offset[grid]; 4008fdabdddSMark Adams elem_offset[grid+1] = elem_offset[grid] + numCells[grid]; 4018fdabdddSMark Adams ip_offset[grid+1] = ip_offset[grid] + numCells[grid]*Nq; 4028fdabdddSMark Adams ipf_offset[grid+1] = ipf_offset[grid] + Nq*nfloc*numCells[grid]; 4038fdabdddSMark Adams } 4048fdabdddSMark Adams IPf_sz_glb = ipf_offset[num_grids]; 4058fdabdddSMark Adams IPf_sz_tot = IPf_sz_glb*ctx->batch_sz; 4068a6f2e61SMark Adams if (shift==0.0) { /* compute dynamic data f and df and init data for Jacobian */ 4078fdabdddSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 4088fdabdddSMark Adams double starttime, endtime; 4098fdabdddSMark Adams starttime = MPI_Wtime(); 4108fdabdddSMark Adams #endif 411a587d139SMark ierr = PetscLogEventBegin(ctx->events[8],0,0,0,0);CHKERRQ(ierr); 412365b711fSMark Adams for (PetscInt fieldA=0;fieldA<ctx->num_species;fieldA++) { 413e8d2b73aSMark Adams invMass[fieldA] = m_0/ctx->masses[fieldA]; 414e8d2b73aSMark Adams Eq_m[fieldA] = ctx->Ez * ctx->t_0 * ctx->charges[fieldA] / (ctx->v_0 * ctx->masses[fieldA]); /* normalize dimensionless */ 415e8d2b73aSMark Adams if (dim==2) Eq_m[fieldA] *= 2 * PETSC_PI; /* add the 2pi term that is not in Landau */ 416e8d2b73aSMark Adams nu_alpha[fieldA] = PetscSqr(ctx->charges[fieldA]/m_0)*m_0/ctx->masses[fieldA]; 417e8d2b73aSMark Adams nu_beta[fieldA] = PetscSqr(ctx->charges[fieldA]/ctx->epsilon0)*ctx->lnLam / (8*PETSC_PI) * ctx->t_0*ctx->n_0/PetscPowReal(ctx->v_0,3); 418e8d2b73aSMark Adams } 4198fdabdddSMark Adams ierr = PetscMalloc4(IPf_sz_tot, &ff, IPf_sz_tot, &dudx, IPf_sz_tot, &dudy, dim==3 ? IPf_sz_tot : 0, &dudz);CHKERRQ(ierr); 4208fdabdddSMark Adams // F df/dx 4218fdabdddSMark Adams for (PetscInt tid = 0 ; tid < ctx->batch_sz*elem_offset[num_grids] ; tid++) { // for each element 4228fdabdddSMark Adams const PetscInt b_Nelem = elem_offset[num_grids], b_elem_idx = tid%b_Nelem, b_id = tid/b_Nelem; // b_id == OMP thd_id in batch 4238fdabdddSMark Adams // find my grid: 4248fdabdddSMark Adams PetscInt grid = 0; 4258fdabdddSMark Adams while (b_elem_idx >= elem_offset[grid+1]) grid++; // yuck search for grid 4268fdabdddSMark Adams { 4278fdabdddSMark Adams const PetscInt loc_nip = numCells[grid]*Nq, loc_Nf = ctx->species_offset[grid+1] - ctx->species_offset[grid], loc_elem = b_elem_idx - elem_offset[grid]; 4288fdabdddSMark Adams const PetscInt moffset = LAND_MOFFSET(b_id,grid,ctx->batch_sz,ctx->num_grids,ctx->mat_offset); //b_id*b_N + ctx->mat_offset[grid]; 4298fdabdddSMark Adams PetscScalar *coef, coef_buff[LANDAU_MAX_SPECIES*LANDAU_MAX_NQ]; 4308fdabdddSMark Adams PetscReal *invJe = &invJ_a[(ip_offset[grid] + loc_elem*Nq)*dim*dim]; // ingJ is static data on batch 0 4318a6f2e61SMark Adams PetscInt b,f,q; 4328a6f2e61SMark Adams if (cellClosure) { 4338fdabdddSMark Adams coef = &cellClosure[b_id*IPf_sz_glb + ipf_offset[grid] + loc_elem*Nb*loc_Nf]; // this is const 434b8d122ceSMark Adams } else { 435b8d122ceSMark Adams coef = coef_buff; 4368fdabdddSMark Adams for (f = 0; f < loc_Nf; ++f) { 4378fdabdddSMark Adams LandauIdx *const Idxs = &maps[grid].gIdx[loc_elem][f][0]; 438b8d122ceSMark Adams for (b = 0; b < Nb; ++b) { 4398a6f2e61SMark Adams PetscInt idx = Idxs[b]; 440b8d122ceSMark Adams if (idx >= 0) { 4418a6f2e61SMark Adams coef[f*Nb+b] = xdata[idx+moffset]; 442b8d122ceSMark Adams } else { 443b8d122ceSMark Adams idx = -idx - 1; 444b8d122ceSMark Adams coef[f*Nb+b] = 0; 4458a6f2e61SMark Adams for (q = 0; q < maps[grid].num_face; q++) { 4468a6f2e61SMark Adams PetscInt id = maps[grid].c_maps[idx][q].gid; 4478a6f2e61SMark Adams PetscScalar scale = maps[grid].c_maps[idx][q].scale; 4488a6f2e61SMark Adams coef[f*Nb+b] += scale*xdata[id+moffset]; 449b8d122ceSMark Adams } 450b8d122ceSMark Adams } 451b8d122ceSMark Adams } 452b8d122ceSMark Adams } 453b8d122ceSMark Adams } 454a587d139SMark /* get f and df */ 4558fdabdddSMark Adams for (PetscInt qi = 0; qi < Nq; qi++) { 4568fdabdddSMark Adams const PetscReal *invJ = &invJe[qi*dim*dim]; 457a587d139SMark const PetscReal *Bq = &BB[qi*Nb]; 458a587d139SMark const PetscReal *Dq = &DD[qi*Nb*dim]; 4598fdabdddSMark Adams PetscReal u_x[LANDAU_DIM]; 460a587d139SMark /* get f & df */ 4618fdabdddSMark Adams for (f = 0; f < loc_Nf; ++f) { 4628fdabdddSMark Adams const PetscInt idx = b_id*IPf_sz_glb + ipf_offset[grid] + f*loc_nip + loc_elem*Nq + qi; 463a587d139SMark PetscInt b, e; 464e8d2b73aSMark Adams PetscReal refSpaceDer[LANDAU_DIM]; 4658a6f2e61SMark Adams ff[idx] = 0.0; 466365b711fSMark Adams for (int d = 0; d < LANDAU_DIM; ++d) refSpaceDer[d] = 0.0; 467a587d139SMark for (b = 0; b < Nb; ++b) { 468a587d139SMark const PetscInt cidx = b; 4698a6f2e61SMark Adams ff[idx] += Bq[cidx]*PetscRealPart(coef[f*Nb+cidx]); 470365b711fSMark Adams for (int d = 0; d < dim; ++d) { 4718fdabdddSMark Adams refSpaceDer[d] += Dq[cidx*dim+d]*PetscRealPart(coef[f*Nb+cidx]); 472a587d139SMark } 473a587d139SMark } 4748fdabdddSMark Adams for (int d = 0; d < dim; ++d) { 4758fdabdddSMark Adams for (e = 0, u_x[d] = 0.0; e < dim; ++e) { 4768fdabdddSMark Adams u_x[d] += invJ[e*dim+d]*refSpaceDer[e]; 477a587d139SMark } 4788fdabdddSMark Adams } 4798fdabdddSMark Adams dudx[idx] = u_x[0]; 4808fdabdddSMark Adams dudy[idx] = u_x[1]; 481a587d139SMark #if LANDAU_DIM==3 4828fdabdddSMark Adams dudz[idx] = u_x[2]; 483a587d139SMark #endif 484a587d139SMark } 4858a6f2e61SMark Adams } // q 4868a6f2e61SMark Adams } // grid 4878fdabdddSMark Adams } // grid*batch 488a587d139SMark ierr = PetscLogEventEnd(ctx->events[8],0,0,0,0);CHKERRQ(ierr); 4898fdabdddSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 4908fdabdddSMark Adams endtime = MPI_Wtime(); 4918fdabdddSMark Adams if (ctx->stage) ctx->times[LANDAU_F_DF] += (endtime - starttime); 4928fdabdddSMark Adams #endif 4938a6f2e61SMark Adams } // Jacobian setup 4948a6f2e61SMark Adams /* doit it */ 4958fdabdddSMark Adams for (PetscInt tid = 0 ; tid < ctx->batch_sz*elem_offset[num_grids] ; tid++) { // for each element 4968fdabdddSMark Adams const PetscInt b_Nelem = elem_offset[num_grids]; 4978fdabdddSMark Adams const PetscInt b_elem_idx = tid%b_Nelem, b_id = tid/b_Nelem; 4988fdabdddSMark Adams PetscInt grid = 0; 4998fdabdddSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 5008fdabdddSMark Adams double starttime, endtime; 5018fdabdddSMark Adams starttime = MPI_Wtime(); 5028fdabdddSMark Adams #endif 5038fdabdddSMark Adams while (b_elem_idx >= elem_offset[grid+1]) grid++; 5048fdabdddSMark Adams { 5058fdabdddSMark Adams const PetscInt loc_Nf = ctx->species_offset[grid+1] - ctx->species_offset[grid], loc_elem = b_elem_idx - elem_offset[grid]; 5068fdabdddSMark Adams const PetscInt moffset = LAND_MOFFSET(b_id,grid,ctx->batch_sz,ctx->num_grids,ctx->mat_offset)/* ; b_id*b_N + ctx->mat_offset[grid] */, totDim = loc_Nf*Nq, elemMatSize = totDim*totDim; 5078a6f2e61SMark Adams PetscScalar *elemMat; 5088fdabdddSMark Adams const PetscReal *invJe = &invJ_a[(ip_offset[grid] + loc_elem*Nq)*dim*dim]; 5098a6f2e61SMark Adams ierr = PetscMalloc1(elemMatSize, &elemMat);CHKERRQ(ierr); 5108a6f2e61SMark Adams ierr = PetscMemzero(elemMat, elemMatSize*sizeof(*elemMat));CHKERRQ(ierr); 5118a6f2e61SMark Adams ierr = PetscLogEventBegin(ctx->events[4],0,0,0,0);CHKERRQ(ierr); 5128fdabdddSMark Adams for (PetscInt qj = 0; qj < Nq; ++qj) { 5138fdabdddSMark Adams const PetscInt jpidx_glb = ip_offset[grid] + qj + loc_elem * Nq; 5148a6f2e61SMark Adams PetscReal g0[LANDAU_MAX_SPECIES], g2[LANDAU_MAX_SPECIES][LANDAU_DIM], g3[LANDAU_MAX_SPECIES][LANDAU_DIM][LANDAU_DIM]; // could make a LANDAU_MAX_SPECIES_GRID ~ number of ions - 1 5158a6f2e61SMark Adams PetscInt d,d2,dp,d3,IPf_idx; 5168fdabdddSMark Adams if (shift==0.0) { // Jacobian 5178fdabdddSMark Adams const PetscReal * const invJj = &invJe[qj*dim*dim]; 518930e68a5SMark Adams PetscReal gg2[LANDAU_MAX_SPECIES][LANDAU_DIM],gg3[LANDAU_MAX_SPECIES][LANDAU_DIM][LANDAU_DIM], gg2_temp[LANDAU_DIM], gg3_temp[LANDAU_DIM][LANDAU_DIM]; 5198fdabdddSMark Adams const PetscReal vj[3] = {xx[jpidx_glb], yy[jpidx_glb], zz ? zz[jpidx_glb] : 0}, wj = ww[jpidx_glb]; 52052cdd6eaSMark // create g2 & g3 52152cdd6eaSMark for (d=0;d<dim;d++) { // clear accumulation data D & K 52252cdd6eaSMark gg2_temp[d] = 0; 52352cdd6eaSMark for (d2=0;d2<dim;d2++) gg3_temp[d][d2] = 0; 52452cdd6eaSMark } 5258a6f2e61SMark Adams /* inner beta reduction */ 5268a6f2e61SMark Adams IPf_idx = 0; 5278fdabdddSMark Adams for (PetscInt grid_r = 0, f_off = 0, ipidx = 0; grid_r < ctx->num_grids ; grid_r++, f_off = ctx->species_offset[grid_r]) { // IPf_idx += nip_loc_r*Nfloc_r 5288a6f2e61SMark Adams PetscInt nip_loc_r = numCells[grid_r]*Nq, Nfloc_r = Nf[grid_r]; 5298a6f2e61SMark Adams for (PetscInt ei_r = 0, loc_fdf_idx = 0; ei_r < numCells[grid_r]; ++ei_r) { 5308a6f2e61SMark Adams for (PetscInt qi = 0; qi < Nq; qi++, ipidx++, loc_fdf_idx++) { 531e8d2b73aSMark Adams const PetscReal wi = ww[ipidx], x = xx[ipidx], y = yy[ipidx]; 53252cdd6eaSMark PetscReal temp1[3] = {0, 0, 0}, temp2 = 0; 53352cdd6eaSMark #if LANDAU_DIM==2 5348a6f2e61SMark Adams PetscReal Ud[2][2], Uk[2][2], mask = (PetscAbs(vj[0]-x) < 100*PETSC_SQRT_MACHINE_EPSILON && PetscAbs(vj[1]-y) < 100*PETSC_SQRT_MACHINE_EPSILON) ? 0. : 1.; 5358a6f2e61SMark Adams LandauTensor2D(vj, x, y, Ud, Uk, mask); 53652cdd6eaSMark #else 5378a6f2e61SMark Adams PetscReal U[3][3], z = zz[ipidx], mask = (PetscAbs(vj[0]-x) < 100*PETSC_SQRT_MACHINE_EPSILON && PetscAbs(vj[1]-y) < 100*PETSC_SQRT_MACHINE_EPSILON && PetscAbs(vj[2]-z) < 100*PETSC_SQRT_MACHINE_EPSILON) ? 0. : 1.; 538cefb98e8SMark Adams if (ctx->use_relativistic_corrections) { 5398a6f2e61SMark Adams LandauTensor3DRelativistic(vj, x, y, z, U, mask, C_0(ctx->v_0)); 540cefb98e8SMark Adams } else { 5418a6f2e61SMark Adams LandauTensor3D(vj, x, y, z, U, mask); 542cefb98e8SMark Adams } 54352cdd6eaSMark #endif 544365b711fSMark Adams for (int f = 0; f < Nfloc_r ; ++f) { 5458fdabdddSMark Adams const PetscInt idx = b_id*IPf_sz_glb + ipf_offset[grid_r] + f*nip_loc_r + ei_r*Nq + qi; // IPf_idx + f*nip_loc_r + loc_fdf_idx; 5468a6f2e61SMark Adams temp1[0] += dudx[idx]*nu_beta[f+f_off]*invMass[f+f_off]; 5478a6f2e61SMark Adams temp1[1] += dudy[idx]*nu_beta[f+f_off]*invMass[f+f_off]; 54852cdd6eaSMark #if LANDAU_DIM==3 5498a6f2e61SMark Adams temp1[2] += dudz[idx]*nu_beta[f+f_off]*invMass[f+f_off]; 55052cdd6eaSMark #endif 5518a6f2e61SMark Adams temp2 += ff[idx]*nu_beta[f+f_off]; 55252cdd6eaSMark } 55352cdd6eaSMark temp1[0] *= wi; 55452cdd6eaSMark temp1[1] *= wi; 55552cdd6eaSMark #if LANDAU_DIM==3 55652cdd6eaSMark temp1[2] *= wi; 55752cdd6eaSMark #endif 55852cdd6eaSMark temp2 *= wi; 55952cdd6eaSMark #if LANDAU_DIM==2 56052cdd6eaSMark for (d2 = 0; d2 < 2; d2++) { 56152cdd6eaSMark for (d3 = 0; d3 < 2; ++d3) { 56252cdd6eaSMark /* K = U * grad(f): g2=e: i,A */ 56352cdd6eaSMark gg2_temp[d2] += Uk[d2][d3]*temp1[d3]; 56452cdd6eaSMark /* D = -U * (I \kron (fx)): g3=f: i,j,A */ 56552cdd6eaSMark gg3_temp[d2][d3] += Ud[d2][d3]*temp2; 56652cdd6eaSMark } 56752cdd6eaSMark } 56852cdd6eaSMark #else 56952cdd6eaSMark for (d2 = 0; d2 < 3; ++d2) { 57052cdd6eaSMark for (d3 = 0; d3 < 3; ++d3) { 57152cdd6eaSMark /* K = U * grad(f): g2 = e: i,A */ 57252cdd6eaSMark gg2_temp[d2] += U[d2][d3]*temp1[d3]; 57352cdd6eaSMark /* D = -U * (I \kron (fx)): g3 = f: i,j,A */ 57452cdd6eaSMark gg3_temp[d2][d3] += U[d2][d3]*temp2; 57552cdd6eaSMark } 57652cdd6eaSMark } 57752cdd6eaSMark #endif 5788a6f2e61SMark Adams } // qi 5798a6f2e61SMark Adams } // ei_r 5808a6f2e61SMark Adams IPf_idx += nip_loc_r*Nfloc_r; 5818a6f2e61SMark Adams } /* grid_r - IPs */ 5828fdabdddSMark Adams if (IPf_idx != IPf_sz_glb) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_PLIB, "IPf_idx != IPf_sz %D %D",IPf_idx,IPf_sz_glb); 58352cdd6eaSMark // add alpha and put in gg2/3 5848fdabdddSMark Adams for (PetscInt fieldA = 0, f_off = ctx->species_offset[grid]; fieldA < loc_Nf; ++fieldA) { 58552cdd6eaSMark for (d2 = 0; d2 < dim; d2++) { 5868a6f2e61SMark Adams gg2[fieldA][d2] = gg2_temp[d2]*nu_alpha[fieldA+f_off]; 58752cdd6eaSMark for (d3 = 0; d3 < dim; d3++) { 5888a6f2e61SMark Adams gg3[fieldA][d2][d3] = -gg3_temp[d2][d3]*nu_alpha[fieldA+f_off]*invMass[fieldA+f_off]; 58952cdd6eaSMark } 59052cdd6eaSMark } 59152cdd6eaSMark } 59252cdd6eaSMark /* add electric field term once per IP */ 5938fdabdddSMark Adams for (PetscInt fieldA = 0, f_off = ctx->species_offset[grid] ; fieldA < loc_Nf; ++fieldA) { 5948a6f2e61SMark Adams gg2[fieldA][dim-1] += Eq_m[fieldA+f_off]; 59552cdd6eaSMark } 596930e68a5SMark Adams /* Jacobian transform - g2, g3 */ 5978fdabdddSMark Adams for (PetscInt fieldA = 0; fieldA < loc_Nf; ++fieldA) { 59852cdd6eaSMark for (d = 0; d < dim; ++d) { 59952cdd6eaSMark g2[fieldA][d] = 0.0; 60052cdd6eaSMark for (d2 = 0; d2 < dim; ++d2) { 60152cdd6eaSMark g2[fieldA][d] += invJj[d*dim+d2]*gg2[fieldA][d2]; 60252cdd6eaSMark g3[fieldA][d][d2] = 0.0; 60352cdd6eaSMark for (d3 = 0; d3 < dim; ++d3) { 60452cdd6eaSMark for (dp = 0; dp < dim; ++dp) { 60552cdd6eaSMark g3[fieldA][d][d2] += invJj[d*dim + d3]*gg3[fieldA][d3][dp]*invJj[d2*dim + dp]; 60652cdd6eaSMark } 60752cdd6eaSMark } 60852cdd6eaSMark g3[fieldA][d][d2] *= wj; 60952cdd6eaSMark } 61052cdd6eaSMark g2[fieldA][d] *= wj; 61152cdd6eaSMark } 61252cdd6eaSMark } 613930e68a5SMark Adams } else { // mass 6148fdabdddSMark Adams PetscReal wj = ww[jpidx_glb]; 615930e68a5SMark Adams /* Jacobian transform - g0 */ 6168fdabdddSMark Adams for (PetscInt fieldA = 0; fieldA < loc_Nf ; ++fieldA) { 6178a6f2e61SMark Adams if (dim==2) { 6188a6f2e61SMark Adams g0[fieldA] = wj * shift * 2. * PETSC_PI; // move this to below and remove g0 6198a6f2e61SMark Adams } else { 6208a6f2e61SMark Adams g0[fieldA] = wj * shift; // move this to below and remove g0 6218a6f2e61SMark Adams } 622930e68a5SMark Adams } 623930e68a5SMark Adams } 62452cdd6eaSMark /* FE matrix construction */ 62552cdd6eaSMark { 626a587d139SMark PetscInt fieldA,d,f,d2,g; 62752cdd6eaSMark const PetscReal *BJq = &BB[qj*Nb], *DIq = &DD[qj*Nb*dim]; 62852cdd6eaSMark /* assemble - on the diagonal (I,I) */ 6298fdabdddSMark Adams for (fieldA = 0; fieldA < loc_Nf ; fieldA++) { 630a587d139SMark for (f = 0; f < Nb ; f++) { 63152cdd6eaSMark const PetscInt i = fieldA*Nb + f; /* Element matrix row */ 63252cdd6eaSMark for (g = 0; g < Nb; ++g) { 63352cdd6eaSMark const PetscInt j = fieldA*Nb + g; /* Element matrix column */ 63452cdd6eaSMark const PetscInt fOff = i*totDim + j; 635930e68a5SMark Adams if (shift==0.0) { 63652cdd6eaSMark for (d = 0; d < dim; ++d) { 63752cdd6eaSMark elemMat[fOff] += DIq[f*dim+d]*g2[fieldA][d]*BJq[g]; 63852cdd6eaSMark for (d2 = 0; d2 < dim; ++d2) { 63952cdd6eaSMark elemMat[fOff] += DIq[f*dim + d]*g3[fieldA][d][d2]*DIq[g*dim + d2]; 64052cdd6eaSMark } 64152cdd6eaSMark } 642930e68a5SMark Adams } else { // mass 643930e68a5SMark Adams elemMat[fOff] += BJq[f]*g0[fieldA]*BJq[g]; 644930e68a5SMark Adams } 64552cdd6eaSMark } 64652cdd6eaSMark } 64752cdd6eaSMark } 64852cdd6eaSMark } 649e0eea495SMark } /* qj loop */ 650c8a6034eSMark ierr = PetscLogEventEnd(ctx->events[4],0,0,0,0);CHKERRQ(ierr); 6518fdabdddSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 6528fdabdddSMark Adams endtime = MPI_Wtime(); 6538fdabdddSMark Adams if (ctx->stage) ctx->times[LANDAU_KERNEL] += (endtime - starttime); 6548fdabdddSMark Adams #endif 655e0eea495SMark /* assemble matrix */ 656e0eea495SMark ierr = PetscLogEventBegin(ctx->events[6],0,0,0,0);CHKERRQ(ierr); 6578a6f2e61SMark Adams if (!container) { 6588fdabdddSMark Adams PetscInt cStart; 6598fdabdddSMark Adams ierr = DMPlexGetHeightStratum(ctx->plex[grid], 0, &cStart, NULL);CHKERRQ(ierr); 6608fdabdddSMark Adams ierr = DMPlexMatSetClosure(ctx->plex[grid], section[grid], globsection[grid], subJ[ LAND_PACK_IDX(b_id,grid) ], loc_elem + cStart, elemMat, ADD_VALUES);CHKERRQ(ierr); 661a587d139SMark } else { // GPU like assembly for debugging 662e8d2b73aSMark Adams PetscInt fieldA,idx,q,f,g,d,nr,nc,rows0[LANDAU_MAX_Q_FACE],cols0[LANDAU_MAX_Q_FACE]={0},rows[LANDAU_MAX_Q_FACE],cols[LANDAU_MAX_Q_FACE]; 663e8d2b73aSMark Adams PetscScalar vals[LANDAU_MAX_Q_FACE*LANDAU_MAX_Q_FACE],row_scale[LANDAU_MAX_Q_FACE],col_scale[LANDAU_MAX_Q_FACE]={0}; 664a587d139SMark /* assemble - from the diagonal (I,I) in this format for DMPlexMatSetClosure */ 6658fdabdddSMark Adams for (fieldA = 0; fieldA < loc_Nf ; fieldA++) { 6668fdabdddSMark Adams LandauIdx *const Idxs = &maps[grid].gIdx[loc_elem][fieldA][0]; 667a587d139SMark for (f = 0; f < Nb ; f++) { 668a587d139SMark idx = Idxs[f]; 669a587d139SMark if (idx >= 0) { 670a587d139SMark nr = 1; 671a587d139SMark rows0[0] = idx; 672a587d139SMark row_scale[0] = 1.; 673a587d139SMark } else { 674a587d139SMark idx = -idx - 1; 6758a6f2e61SMark Adams nr = maps[grid].num_face; 6768a6f2e61SMark Adams for (q = 0; q < maps[grid].num_face; q++) { 6778a6f2e61SMark Adams rows0[q] = maps[grid].c_maps[idx][q].gid; 6788a6f2e61SMark Adams row_scale[q] = maps[grid].c_maps[idx][q].scale; 679a587d139SMark } 680a587d139SMark } 681a587d139SMark for (g = 0; g < Nb; ++g) { 682a587d139SMark idx = Idxs[g]; 683a587d139SMark if (idx >= 0) { 684a587d139SMark nc = 1; 685a587d139SMark cols0[0] = idx; 686a587d139SMark col_scale[0] = 1.; 687a587d139SMark } else { 688a587d139SMark idx = -idx - 1; 6898a6f2e61SMark Adams nc = maps[grid].num_face; 6908a6f2e61SMark Adams for (q = 0; q < maps[grid].num_face; q++) { 6918a6f2e61SMark Adams cols0[q] = maps[grid].c_maps[idx][q].gid; 6928a6f2e61SMark Adams col_scale[q] = maps[grid].c_maps[idx][q].scale; 693a587d139SMark } 694a587d139SMark } 695a587d139SMark const PetscInt i = fieldA*Nb + f; /* Element matrix row */ 696a587d139SMark const PetscInt j = fieldA*Nb + g; /* Element matrix column */ 697a587d139SMark const PetscScalar Aij = elemMat[i*totDim + j]; 6988a6f2e61SMark Adams for (q = 0; q < nr; q++) rows[q] = rows0[q] + moffset; 6998a6f2e61SMark Adams for (d = 0; d < nc; d++) cols[d] = cols0[d] + moffset; 700a587d139SMark for (q = 0; q < nr; q++) { 701a587d139SMark for (d = 0; d < nc; d++) { 702a587d139SMark vals[q*nc + d] = row_scale[q]*col_scale[d]*Aij; 703a587d139SMark } 704a587d139SMark } 705a587d139SMark ierr = MatSetValues(JacP,nr,rows,nc,cols,vals,ADD_VALUES);CHKERRQ(ierr); 706a587d139SMark } 707a587d139SMark } 708a587d139SMark } 709a587d139SMark } 7108fdabdddSMark Adams if (loc_elem==-1) { 711c8a6034eSMark PetscErrorCode ierr2; 712930e68a5SMark Adams ierr2 = PetscPrintf(ctx->comm,"CPU Element matrix\n");CHKERRQ(ierr2); 713365b711fSMark Adams for (int d = 0; d < totDim; ++d) { 714365b711fSMark Adams for (int f = 0; f < totDim; ++f) {ierr2 = PetscPrintf(ctx->comm," %12.5e", PetscRealPart(elemMat[d*totDim + f]));CHKERRQ(ierr2);} 715930e68a5SMark Adams ierr2 = PetscPrintf(ctx->comm,"\n");CHKERRQ(ierr2); 716e0eea495SMark } 717930e68a5SMark Adams exit(12); 718e0eea495SMark } 719930e68a5SMark Adams ierr = PetscFree(elemMat);CHKERRQ(ierr); 7208fdabdddSMark Adams ierr = PetscLogEventEnd(ctx->events[6],0,0,0,0);CHKERRQ(ierr); 7218fdabdddSMark Adams } /* grid */ 7228fdabdddSMark Adams } /* outer element & batch loop */ 7238fdabdddSMark Adams if (shift==0.0) { // mass 7248fdabdddSMark Adams ierr = PetscFree4(ff, dudx, dudy, dudz);CHKERRQ(ierr); 7258fdabdddSMark Adams } 7268a6f2e61SMark Adams if (!container) { // move nest matrix to global JacP 7278fdabdddSMark Adams for (PetscInt b_id = 0 ; b_id < ctx->batch_sz ; b_id++) { // OpenMP 7288fdabdddSMark Adams for (PetscInt grid=0 ; grid<ctx->num_grids ; grid++) { 7298fdabdddSMark Adams const PetscInt moffset = LAND_MOFFSET(b_id,grid,ctx->batch_sz,ctx->num_grids,ctx->mat_offset); // b_id*b_N + ctx->mat_offset[grid]; 7308fdabdddSMark Adams PetscInt nloc, nzl, colbuf[1024], row; 7318a6f2e61SMark Adams const PetscInt *cols; 7328a6f2e61SMark Adams const PetscScalar *vals; 7338fdabdddSMark Adams Mat B = subJ[ LAND_PACK_IDX(b_id,grid) ]; 7348a6f2e61SMark Adams ierr = MatAssemblyBegin(B, MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 7358a6f2e61SMark Adams ierr = MatAssemblyEnd(B, MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 7368a6f2e61SMark Adams ierr = MatGetSize(B, &nloc, NULL);CHKERRQ(ierr); 7378a6f2e61SMark Adams for (int i=0 ; i<nloc ; i++) { 7388a6f2e61SMark Adams ierr = MatGetRow(B,i,&nzl,&cols,&vals);CHKERRQ(ierr); 7398a6f2e61SMark Adams if (nzl>1024) SETERRQ1(PetscObjectComm((PetscObject) B), PETSC_ERR_PLIB, "Row too big: %D",nzl); 7408a6f2e61SMark Adams for (int j=0; j<nzl; j++) colbuf[j] = cols[j] + moffset; 7418a6f2e61SMark Adams row = i + moffset; 7428a6f2e61SMark Adams ierr = MatSetValues(JacP,1,&row,nzl,colbuf,vals,ADD_VALUES);CHKERRQ(ierr); 7438a6f2e61SMark Adams ierr = MatRestoreRow(B,i,&nzl,&cols,&vals);CHKERRQ(ierr); 7448a6f2e61SMark Adams } 7458fdabdddSMark Adams ierr = MatDestroy(&B);CHKERRQ(ierr); 7468a6f2e61SMark Adams } 7478fdabdddSMark Adams } 748930e68a5SMark Adams } 749a587d139SMark } /* CPU version */ 750*f37ccb5fSMark Adams 751e0eea495SMark ierr = MatAssemblyBegin(JacP, MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 752e0eea495SMark ierr = MatAssemblyEnd(JacP, MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 7538fdabdddSMark Adams // create maps of needed 754a4e16f14SMark Adams #define MAP_BF_SIZE (64*LANDAU_DIM*LANDAU_DIM*LANDAU_MAX_Q_FACE*LANDAU_MAX_SPECIES) 755a587d139SMark if (ctx->gpu_assembly && !container) { 756a587d139SMark PetscScalar elemMatrix[LANDAU_MAX_NQ*LANDAU_MAX_NQ*LANDAU_MAX_SPECIES*LANDAU_MAX_SPECIES], *elMat; 757a587d139SMark pointInterpolationP4est pointMaps[MAP_BF_SIZE][LANDAU_MAX_Q_FACE]; 758a587d139SMark PetscInt q,eidx,fieldA; 7598a6f2e61SMark Adams ierr = PetscInfo1(ctx->plex[0], "Make GPU maps %D\n",1);CHKERRQ(ierr); 760a587d139SMark ierr = PetscLogEventBegin(ctx->events[2],0,0,0,0);CHKERRQ(ierr); 7618a6f2e61SMark Adams ierr = PetscMalloc(sizeof(*maps)*ctx->num_grids, &maps);CHKERRQ(ierr); 762a587d139SMark ierr = PetscContainerCreate(PETSC_COMM_SELF, &container);CHKERRQ(ierr); 763a587d139SMark ierr = PetscContainerSetPointer(container, (void *)maps);CHKERRQ(ierr); 764e8d2b73aSMark Adams ierr = PetscContainerSetUserDestroy(container, LandauGPUMapsDestroy);CHKERRQ(ierr); 765a587d139SMark ierr = PetscObjectCompose((PetscObject) JacP, "assembly_maps", (PetscObject) container);CHKERRQ(ierr); 766a587d139SMark ierr = PetscContainerDestroy(&container);CHKERRQ(ierr); 767*f37ccb5fSMark Adams 7688a6f2e61SMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 7698a6f2e61SMark Adams PetscInt cStart, cEnd, ej, Nfloc = Nf[grid], totDim = Nfloc*Nq; 7708a6f2e61SMark Adams ierr = DMPlexGetHeightStratum(ctx->plex[grid], 0, &cStart, &cEnd);CHKERRQ(ierr); 771a587d139SMark // make maps 7728a6f2e61SMark Adams maps[grid].d_self = NULL; 7738a6f2e61SMark Adams maps[grid].num_elements = numCells[grid]; 7748a6f2e61SMark Adams maps[grid].num_face = (PetscInt)(pow(Nq,1./((double)dim))+.001); // Q 7758a6f2e61SMark Adams maps[grid].num_face = (PetscInt)(pow(maps[grid].num_face,(double)(dim-1))+.001); // Q^2 7768a6f2e61SMark Adams maps[grid].num_reduced = 0; 7778a6f2e61SMark Adams maps[grid].deviceType = ctx->deviceType; 7788a6f2e61SMark Adams maps[grid].numgrids = ctx->num_grids; 779a587d139SMark // count reduced and get 7808a6f2e61SMark Adams ierr = PetscMalloc(maps[grid].num_elements * sizeof(*maps[grid].gIdx), &maps[grid].gIdx);CHKERRQ(ierr); 7818a6f2e61SMark Adams for (fieldA=0;fieldA<Nf[grid];fieldA++) { 782a587d139SMark for (ej = cStart, eidx = 0 ; ej < cEnd; ++ej, ++eidx) { 783a587d139SMark for (q = 0; q < Nb; ++q) { 784a587d139SMark PetscInt numindices,*indices; 785a587d139SMark PetscScalar *valuesOrig = elMat = elemMatrix; 7868a6f2e61SMark Adams ierr = PetscMemzero(elMat, totDim*totDim*sizeof(*elMat));CHKERRQ(ierr); 787a587d139SMark elMat[ (fieldA*Nb + q)*totDim + fieldA*Nb + q] = 1; 7888a6f2e61SMark Adams ierr = DMPlexGetClosureIndices(ctx->plex[grid], section[grid], globsection[grid], ej, PETSC_TRUE, &numindices, &indices, NULL, (PetscScalar **) &elMat);CHKERRQ(ierr); 789365b711fSMark Adams for (PetscInt f = 0 ; f < numindices ; ++f) { // look for a non-zero on the diagonal 790930e68a5SMark Adams if (PetscAbs(PetscRealPart(elMat[f*numindices + f])) > PETSC_MACHINE_EPSILON) { 791a587d139SMark // found it 792a67fe797SJose E. Roman if (PetscAbs(PetscRealPart(elMat[f*numindices + f] - 1.)) < PETSC_MACHINE_EPSILON) { 7938a6f2e61SMark Adams maps[grid].gIdx[eidx][fieldA][q] = (LandauIdx)indices[f]; // normal vertex 1.0 794a587d139SMark } else { //found a constraint 795a587d139SMark int jj = 0; 796a587d139SMark PetscReal sum = 0; 797a587d139SMark const PetscInt ff = f; 7988a6f2e61SMark Adams maps[grid].gIdx[eidx][fieldA][q] = -maps[grid].num_reduced - 1; // gid = -(idx+1): idx = -gid - 1 799a587d139SMark do { // constraints are continous in Plex - exploit that here 800a587d139SMark int ii; 8018a6f2e61SMark Adams for (ii = 0, pointMaps[maps[grid].num_reduced][jj].scale = 0; ii < maps[grid].num_face; ii++) { // DMPlex puts them all together 802a587d139SMark if (ff + ii < numindices) { 8038a6f2e61SMark Adams pointMaps[maps[grid].num_reduced][jj].scale += PetscRealPart(elMat[f*numindices + ff + ii]); 804a587d139SMark } 805a587d139SMark } 8068a6f2e61SMark Adams sum += pointMaps[maps[grid].num_reduced][jj].scale; 8078a6f2e61SMark Adams if (pointMaps[maps[grid].num_reduced][jj].scale == 0) pointMaps[maps[grid].num_reduced][jj].gid = -1; // 3D has Q and Q^2 interps -- all contiguous??? 8088a6f2e61SMark Adams else pointMaps[maps[grid].num_reduced][jj].gid = indices[f]; 8098a6f2e61SMark Adams } while (++jj < maps[grid].num_face && ++f < numindices); // jj is incremented if we hit the end 8108a6f2e61SMark Adams while (jj++ < maps[grid].num_face) { 8118a6f2e61SMark Adams pointMaps[maps[grid].num_reduced][jj].scale = 0; 8128a6f2e61SMark Adams pointMaps[maps[grid].num_reduced][jj].gid = -1; 813a587d139SMark } 814bd08a171SMark Adams if (PetscAbs(sum-1.0) > 10*PETSC_MACHINE_EPSILON) { // debug 815a587d139SMark int d,f; 816a587d139SMark PetscReal tmp = 0; 8178a6f2e61SMark Adams PetscPrintf(PETSC_COMM_SELF,"\t\t%D.%D.%D) ERROR total I = %22.16e (LANDAU_MAX_Q_FACE=%d, #face=%D)\n",eidx,q,fieldA,sum,LANDAU_MAX_Q_FACE,maps[grid].num_face); 818a587d139SMark for (d = 0, tmp = 0; d < numindices; ++d) { 81960d4fc61SSatish Balay if (tmp!=0 && PetscAbs(tmp-1.0) > 10*PETSC_MACHINE_EPSILON) {ierr = PetscPrintf(PETSC_COMM_WORLD,"%3D) %3D: ",d,indices[d]);CHKERRQ(ierr);} 820a587d139SMark for (f = 0; f < numindices; ++f) { 821a587d139SMark tmp += PetscRealPart(elMat[d*numindices + f]); 822a587d139SMark } 82360d4fc61SSatish Balay if (tmp!=0) {ierr = PetscPrintf(ctx->comm," | %22.16e\n",tmp);CHKERRQ(ierr);} 824a587d139SMark } 825a587d139SMark } 8268a6f2e61SMark Adams maps[grid].num_reduced++; 8278a6f2e61SMark Adams if (maps[grid].num_reduced>=MAP_BF_SIZE) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_PLIB, "maps[grid].num_reduced %d > %d",maps[grid].num_reduced,MAP_BF_SIZE); 828a587d139SMark } 829a587d139SMark break; 830a587d139SMark } 831a587d139SMark } 832a587d139SMark // cleanup 8338a6f2e61SMark Adams ierr = DMPlexRestoreClosureIndices(ctx->plex[grid], section[grid], globsection[grid], ej, PETSC_TRUE, &numindices, &indices, NULL, (PetscScalar **) &elMat);CHKERRQ(ierr); 8348a6f2e61SMark Adams if (elMat != valuesOrig) {ierr = DMRestoreWorkArray(ctx->plex[grid], numindices*numindices, MPIU_SCALAR, &elMat);CHKERRQ(ierr);} 835a587d139SMark } 836a587d139SMark } 837a587d139SMark } 8388a6f2e61SMark Adams // allocate and copy point datamaps[grid].gIdx[eidx][field][q] 8398a6f2e61SMark Adams ierr = PetscMalloc(maps[grid].num_reduced * sizeof(*maps[grid].c_maps), &maps[grid].c_maps);CHKERRQ(ierr); 8408a6f2e61SMark Adams for (ej = 0; ej < maps[grid].num_reduced; ++ej) { 8418a6f2e61SMark Adams for (q = 0; q < maps[grid].num_face; ++q) { 8428a6f2e61SMark Adams maps[grid].c_maps[ej][q].scale = pointMaps[ej][q].scale; 8438a6f2e61SMark Adams maps[grid].c_maps[ej][q].gid = pointMaps[ej][q].gid; 844a587d139SMark } 845a587d139SMark } 846a587d139SMark #if defined(PETSC_HAVE_KOKKOS_KERNELS) 847a587d139SMark if (ctx->deviceType == LANDAU_KOKKOS) { 8488a6f2e61SMark Adams ierr = LandauKokkosCreateMatMaps(maps, pointMaps, Nf, Nq, grid);CHKERRQ(ierr); // imples Kokkos does 849a587d139SMark } // else could be CUDA 850a587d139SMark #endif 851a587d139SMark #if defined(PETSC_HAVE_CUDA) 852a587d139SMark if (ctx->deviceType == LANDAU_CUDA) { 8538a6f2e61SMark Adams ierr = LandauCUDACreateMatMaps(maps, pointMaps, Nf, Nq, grid);CHKERRQ(ierr); 854a587d139SMark } 855a587d139SMark #endif 8568a6f2e61SMark Adams } /* grids */ 857a587d139SMark ierr = PetscLogEventEnd(ctx->events[2],0,0,0,0);CHKERRQ(ierr); 8588a6f2e61SMark Adams } /* first pass with GPU assembly */ 859e0eea495SMark /* clean up */ 8608a6f2e61SMark Adams if (cellClosure) { 8618a6f2e61SMark Adams ierr = PetscFree(cellClosure);CHKERRQ(ierr); 862930e68a5SMark Adams } 863af0767daSMark Adams if (xdata) { 864af0767daSMark Adams ierr = VecRestoreArrayReadAndMemType(a_X,&xdata);CHKERRQ(ierr); 865b8d122ceSMark Adams } 866e0eea495SMark PetscFunctionReturn(0); 867e0eea495SMark } 868e0eea495SMark 869e0eea495SMark #if defined(LANDAU_ADD_BCS) 870e0eea495SMark static void zero_bc(PetscInt dim, PetscInt Nf, PetscInt NfAux, 871e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 872e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 873e0eea495SMark PetscReal t, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar uexact[]) 874e0eea495SMark { 875e0eea495SMark uexact[0] = 0; 876e0eea495SMark } 877e0eea495SMark #endif 878e0eea495SMark 879e0eea495SMark #define MATVEC2(__a,__x,__p) {int i,j; for (i=0.; i<2; i++) {__p[i] = 0; for (j=0.; j<2; j++) __p[i] += __a[i][j]*__x[j]; }} 880e0eea495SMark static void CircleInflate(PetscReal r1, PetscReal r2, PetscReal r0, PetscInt num_sections, PetscReal x, PetscReal y, 881e0eea495SMark PetscReal *outX, PetscReal *outY) 882e0eea495SMark { 883e0eea495SMark PetscReal rr = PetscSqrtReal(x*x + y*y), outfact, efact; 884a003a357SMark if (rr < r1 + PETSC_SQRT_MACHINE_EPSILON) { 885e0eea495SMark *outX = x; *outY = y; 886e0eea495SMark } else { 887e0eea495SMark const PetscReal xy[2] = {x,y}, sinphi=y/rr, cosphi=x/rr; 888e0eea495SMark PetscReal cth,sth,xyprime[2],Rth[2][2],rotcos,newrr; 889e0eea495SMark if (num_sections==2) { 890e0eea495SMark rotcos = 0.70710678118654; 891e0eea495SMark outfact = 1.5; efact = 2.5; 892e0eea495SMark /* rotate normalized vector into [-pi/4,pi/4) */ 893e0eea495SMark if (sinphi >= 0.) { /* top cell, -pi/2 */ 894e0eea495SMark cth = 0.707106781186548; sth = -0.707106781186548; 895e0eea495SMark } else { /* bottom cell -pi/8 */ 896e0eea495SMark cth = 0.707106781186548; sth = .707106781186548; 897e0eea495SMark } 898e0eea495SMark } else if (num_sections==3) { 899e0eea495SMark rotcos = 0.86602540378443; 900e0eea495SMark outfact = 1.5; efact = 2.5; 901e0eea495SMark /* rotate normalized vector into [-pi/6,pi/6) */ 902e0eea495SMark if (sinphi >= 0.5) { /* top cell, -pi/3 */ 903e0eea495SMark cth = 0.5; sth = -0.866025403784439; 904e0eea495SMark } else if (sinphi >= -.5) { /* mid cell 0 */ 905e0eea495SMark cth = 1.; sth = .0; 906e0eea495SMark } else { /* bottom cell +pi/3 */ 907e0eea495SMark cth = 0.5; sth = 0.866025403784439; 908e0eea495SMark } 909e0eea495SMark } else if (num_sections==4) { 910e0eea495SMark rotcos = 0.9238795325112; 911e0eea495SMark outfact = 1.5; efact = 3; 912e0eea495SMark /* rotate normalized vector into [-pi/8,pi/8) */ 913e0eea495SMark if (sinphi >= 0.707106781186548) { /* top cell, -3pi/8 */ 914e0eea495SMark cth = 0.38268343236509; sth = -0.923879532511287; 915e0eea495SMark } else if (sinphi >= 0.) { /* mid top cell -pi/8 */ 916e0eea495SMark cth = 0.923879532511287; sth = -.38268343236509; 917e0eea495SMark } else if (sinphi >= -0.707106781186548) { /* mid bottom cell + pi/8 */ 918e0eea495SMark cth = 0.923879532511287; sth = 0.38268343236509; 919e0eea495SMark } else { /* bottom cell + 3pi/8 */ 920e0eea495SMark cth = 0.38268343236509; sth = .923879532511287; 921e0eea495SMark } 922e0eea495SMark } else { 923e0eea495SMark cth = 0.; sth = 0.; rotcos = 0; efact = 0; 924e0eea495SMark } 925e0eea495SMark Rth[0][0] = cth; Rth[0][1] =-sth; 926e0eea495SMark Rth[1][0] = sth; Rth[1][1] = cth; 927e0eea495SMark MATVEC2(Rth,xy,xyprime); 928e0eea495SMark if (num_sections==2) { 929e0eea495SMark newrr = xyprime[0]/rotcos; 930e0eea495SMark } else { 931e0eea495SMark PetscReal newcosphi=xyprime[0]/rr, rin = r1, rout = rr - rin; 932e0eea495SMark PetscReal routmax = r0*rotcos/newcosphi - rin, nroutmax = r0 - rin, routfrac = rout/routmax; 933e0eea495SMark newrr = rin + routfrac*nroutmax; 934e0eea495SMark } 935e0eea495SMark *outX = cosphi*newrr; *outY = sinphi*newrr; 936e0eea495SMark /* grade */ 937e0eea495SMark PetscReal fact,tt,rs,re, rr = PetscSqrtReal(PetscSqr(*outX) + PetscSqr(*outY)); 938e0eea495SMark if (rr > r2) { rs = r2; re = r0; fact = outfact;} /* outer zone */ 939e0eea495SMark else { rs = r1; re = r2; fact = efact;} /* electron zone */ 940e0eea495SMark tt = (rs + PetscPowReal((rr - rs)/(re - rs),fact) * (re-rs)) / rr; 941e0eea495SMark *outX *= tt; 942e0eea495SMark *outY *= tt; 943e0eea495SMark } 944e0eea495SMark } 945e0eea495SMark 946e0eea495SMark static PetscErrorCode GeometryDMLandau(DM base, PetscInt point, PetscInt dim, const PetscReal abc[], PetscReal xyz[], void *a_ctx) 947e0eea495SMark { 948e0eea495SMark LandauCtx *ctx = (LandauCtx*)a_ctx; 949e0eea495SMark PetscReal r = abc[0], z = abc[1]; 950e0eea495SMark if (ctx->inflate) { 951e0eea495SMark PetscReal absR, absZ; 952930e68a5SMark Adams absR = PetscAbs(r); 953930e68a5SMark Adams absZ = PetscAbs(z); 9548a6f2e61SMark Adams CircleInflate(ctx->i_radius[0],ctx->e_radius,ctx->radius[0],ctx->num_sections,absR,absZ,&absR,&absZ); // wrong: how do I know what grid I am on? 955e0eea495SMark r = (r > 0) ? absR : -absR; 956e0eea495SMark z = (z > 0) ? absZ : -absZ; 957e0eea495SMark } 958e0eea495SMark xyz[0] = r; 959e0eea495SMark xyz[1] = z; 960e0eea495SMark if (dim==3) xyz[2] = abc[2]; 961e0eea495SMark 962e0eea495SMark PetscFunctionReturn(0); 963e0eea495SMark } 964e0eea495SMark 9658a6f2e61SMark Adams /* create DMComposite of meshes for each species group */ 9668a6f2e61SMark Adams static PetscErrorCode LandauDMCreateVMeshes(MPI_Comm comm_self, const PetscInt dim, const char prefix[], LandauCtx *ctx, DM *pack) 967e0eea495SMark { 968e0eea495SMark PetscErrorCode ierr; 969e0eea495SMark size_t len; 9708a6f2e61SMark Adams char fname[128] = ""; /* we can add a file if we want, for each grid */ 971cd7e8a5eSksagiyam char plex_name[128] = ""; /* name of the mesh in the file */ 972e0eea495SMark 973e0eea495SMark PetscFunctionBegin; 974e0eea495SMark /* create DM */ 975e0eea495SMark ierr = PetscStrlen(fname, &len);CHKERRQ(ierr); 9768a6f2e61SMark Adams if (len) { // not used, need to loop over grids 977e0eea495SMark PetscInt dim2; 978cd7e8a5eSksagiyam 979cd7e8a5eSksagiyam ierr = DMPlexCreateFromFile(comm_self, fname, plex_name, ctx->interpolate, pack);CHKERRQ(ierr); 9808a6f2e61SMark Adams ierr = DMGetDimension(*pack, &dim2);CHKERRQ(ierr); 9818a6f2e61SMark Adams if (LANDAU_DIM != dim2) SETERRQ2(comm_self, PETSC_ERR_PLIB, "dim %D != LANDAU_DIM %d",dim2,LANDAU_DIM); 982e0eea495SMark } else { /* p4est, quads */ 9838a6f2e61SMark Adams ierr = DMCompositeCreate(comm_self,pack);CHKERRQ(ierr); 984e0eea495SMark /* Create plex mesh of Landau domain */ 9858a6f2e61SMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 9868a6f2e61SMark Adams PetscReal radius = ctx->radius[grid]; 987e0eea495SMark if (!ctx->sphere) { 988e0eea495SMark PetscInt cells[] = {2,2,2}; 989e0eea495SMark PetscReal lo[] = {-radius,-radius,-radius}, hi[] = {radius,radius,radius}; 990e0eea495SMark DMBoundaryType periodicity[3] = {DM_BOUNDARY_NONE, dim==2 ? DM_BOUNDARY_NONE : DM_BOUNDARY_NONE, DM_BOUNDARY_NONE}; 9918fdabdddSMark Adams if (dim==2) { lo[0] = 0; cells[0] = /* cells[1] = */ 1; } 9928a6f2e61SMark Adams ierr = DMPlexCreateBoxMesh(comm_self, dim, PETSC_FALSE, cells, lo, hi, periodicity, PETSC_TRUE, &ctx->plex[grid]);CHKERRQ(ierr); // todo: make composite and create dm[grid] here 9938a6f2e61SMark Adams ierr = DMLocalizeCoordinates(ctx->plex[grid]);CHKERRQ(ierr); /* needed for periodic */ 9948a6f2e61SMark Adams if (dim==3) {ierr = PetscObjectSetName((PetscObject) ctx->plex[grid], "cube");CHKERRQ(ierr);} 9958a6f2e61SMark Adams else {ierr = PetscObjectSetName((PetscObject) ctx->plex[grid], "half-plane");CHKERRQ(ierr);} 9968a6f2e61SMark Adams } else if (dim==2) { // sphere is all wrong. should just have one inner radius 997e0eea495SMark PetscInt numCells,cells[16][4],i,j; 998e0eea495SMark PetscInt numVerts; 9998a6f2e61SMark Adams PetscReal inner_radius1 = ctx->i_radius[grid], inner_radius2 = ctx->e_radius; 1000e0eea495SMark PetscReal *flatCoords = NULL; 1001e0eea495SMark PetscInt *flatCells = NULL, *pcell; 1002e0eea495SMark if (ctx->num_sections==2) { 1003e0eea495SMark #if 1 1004e0eea495SMark numCells = 5; 1005e0eea495SMark numVerts = 10; 1006e0eea495SMark int cells2[][4] = { {0,1,4,3}, 1007e0eea495SMark {1,2,5,4}, 1008e0eea495SMark {3,4,7,6}, 1009e0eea495SMark {4,5,8,7}, 1010e0eea495SMark {6,7,8,9} }; 1011e0eea495SMark for (i = 0; i < numCells; i++) for (j = 0; j < 4; j++) cells[i][j] = cells2[i][j]; 1012e0eea495SMark ierr = PetscMalloc2(numVerts * 2, &flatCoords, numCells * 4, &flatCells);CHKERRQ(ierr); 1013e0eea495SMark { 1014e0eea495SMark PetscReal (*coords)[2] = (PetscReal (*) [2]) flatCoords; 1015e0eea495SMark for (j = 0; j < numVerts-1; j++) { 1016e0eea495SMark PetscReal z, r, theta = -PETSC_PI/2 + (j%3) * PETSC_PI/2; 10178a6f2e61SMark Adams PetscReal rad = (j >= 6) ? inner_radius1 : (j >= 3) ? inner_radius2 : ctx->radius[grid]; 1018e0eea495SMark z = rad * PetscSinReal(theta); 1019e0eea495SMark coords[j][1] = z; 1020e0eea495SMark r = rad * PetscCosReal(theta); 1021e0eea495SMark coords[j][0] = r; 1022e0eea495SMark } 1023e0eea495SMark coords[numVerts-1][0] = coords[numVerts-1][1] = 0; 1024e0eea495SMark } 1025e0eea495SMark #else 1026e0eea495SMark numCells = 4; 1027e0eea495SMark numVerts = 8; 1028e0eea495SMark static int cells2[][4] = {{0,1,2,3}, 1029e0eea495SMark {4,5,1,0}, 1030e0eea495SMark {5,6,2,1}, 1031e0eea495SMark {6,7,3,2}}; 1032e0eea495SMark for (i = 0; i < numCells; i++) for (j = 0; j < 4; j++) cells[i][j] = cells2[i][j]; 1033a587d139SMark ierr = loc2(numVerts * 2, &flatCoords, numCells * 4, &flatCells);CHKERRQ(ierr); 1034e0eea495SMark { 1035e0eea495SMark PetscReal (*coords)[2] = (PetscReal (*) [2]) flatCoords; 1036e0eea495SMark PetscInt j; 1037e0eea495SMark for (j = 0; j < 8; j++) { 1038e0eea495SMark PetscReal z, r; 1039e0eea495SMark PetscReal theta = -PETSC_PI/2 + (j%4) * PETSC_PI/3.; 10408a6f2e61SMark Adams PetscReal rad = ctx->radius[grid] * ((j < 4) ? 0.5 : 1.0); 1041e0eea495SMark z = rad * PetscSinReal(theta); 1042e0eea495SMark coords[j][1] = z; 1043e0eea495SMark r = rad * PetscCosReal(theta); 1044e0eea495SMark coords[j][0] = r; 1045e0eea495SMark } 1046e0eea495SMark } 1047e0eea495SMark #endif 1048e0eea495SMark } else if (ctx->num_sections==3) { 1049e0eea495SMark numCells = 7; 1050e0eea495SMark numVerts = 12; 1051e0eea495SMark int cells2[][4] = { {0,1,5,4}, 1052e0eea495SMark {1,2,6,5}, 1053e0eea495SMark {2,3,7,6}, 1054e0eea495SMark {4,5,9,8}, 1055e0eea495SMark {5,6,10,9}, 1056e0eea495SMark {6,7,11,10}, 1057e0eea495SMark {8,9,10,11} }; 1058e0eea495SMark for (i = 0; i < numCells; i++) for (j = 0; j < 4; j++) cells[i][j] = cells2[i][j]; 1059e0eea495SMark ierr = PetscMalloc2(numVerts * 2, &flatCoords, numCells * 4, &flatCells);CHKERRQ(ierr); 1060e0eea495SMark { 1061e0eea495SMark PetscReal (*coords)[2] = (PetscReal (*) [2]) flatCoords; 1062e0eea495SMark for (j = 0; j < numVerts; j++) { 1063e0eea495SMark PetscReal z, r, theta = -PETSC_PI/2 + (j%4) * PETSC_PI/3; 10648a6f2e61SMark Adams PetscReal rad = (j >= 8) ? inner_radius1 : (j >= 4) ? inner_radius2 : ctx->radius[grid]; 1065e0eea495SMark z = rad * PetscSinReal(theta); 1066e0eea495SMark coords[j][1] = z; 1067e0eea495SMark r = rad * PetscCosReal(theta); 1068e0eea495SMark coords[j][0] = r; 1069e0eea495SMark } 1070e0eea495SMark } 1071e0eea495SMark } else if (ctx->num_sections==4) { 1072e0eea495SMark numCells = 10; 1073e0eea495SMark numVerts = 16; 1074e0eea495SMark int cells2[][4] = { {0,1,6,5}, 1075e0eea495SMark {1,2,7,6}, 1076e0eea495SMark {2,3,8,7}, 1077e0eea495SMark {3,4,9,8}, 1078e0eea495SMark {5,6,11,10}, 1079e0eea495SMark {6,7,12,11}, 1080e0eea495SMark {7,8,13,12}, 1081e0eea495SMark {8,9,14,13}, 1082e0eea495SMark {10,11,12,15}, 1083e0eea495SMark {12,13,14,15}}; 1084e0eea495SMark for (i = 0; i < numCells; i++) for (j = 0; j < 4; j++) cells[i][j] = cells2[i][j]; 1085e0eea495SMark ierr = PetscMalloc2(numVerts * 2, &flatCoords, numCells * 4, &flatCells);CHKERRQ(ierr); 1086e0eea495SMark { 1087e0eea495SMark PetscReal (*coords)[2] = (PetscReal (*) [2]) flatCoords; 1088e0eea495SMark for (j = 0; j < numVerts-1; j++) { 1089e0eea495SMark PetscReal z, r, theta = -PETSC_PI/2 + (j%5) * PETSC_PI/4; 10908a6f2e61SMark Adams PetscReal rad = (j >= 10) ? inner_radius1 : (j >= 5) ? inner_radius2 : ctx->radius[grid]; 1091e0eea495SMark z = rad * PetscSinReal(theta); 1092e0eea495SMark coords[j][1] = z; 1093e0eea495SMark r = rad * PetscCosReal(theta); 1094e0eea495SMark coords[j][0] = r; 1095e0eea495SMark } 1096e0eea495SMark coords[numVerts-1][0] = coords[numVerts-1][1] = 0; 1097e0eea495SMark } 1098e0eea495SMark } else { 1099e0eea495SMark numCells = 0; 1100e0eea495SMark numVerts = 0; 1101e0eea495SMark } 1102e0eea495SMark for (j = 0, pcell = flatCells; j < numCells; j++, pcell += 4) { 1103e0eea495SMark pcell[0] = cells[j][0]; pcell[1] = cells[j][1]; 1104e0eea495SMark pcell[2] = cells[j][2]; pcell[3] = cells[j][3]; 1105e0eea495SMark } 11068a6f2e61SMark Adams ierr = DMPlexCreateFromCellListPetsc(comm_self,2,numCells,numVerts,4,ctx->interpolate,flatCells,2,flatCoords,&ctx->plex[grid]);CHKERRQ(ierr); 1107e0eea495SMark ierr = PetscFree2(flatCoords,flatCells);CHKERRQ(ierr); 11088a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject) ctx->plex[grid], "semi-circle");CHKERRQ(ierr); 1109930e68a5SMark Adams } else SETERRQ(ctx->comm, PETSC_ERR_PLIB, "Velocity space meshes does not support cubed sphere"); 1110e0eea495SMark 11118a6f2e61SMark Adams ierr = DMSetFromOptions(ctx->plex[grid]);CHKERRQ(ierr); 11128a6f2e61SMark Adams } // grid loop 11138a6f2e61SMark Adams ierr = PetscObjectSetOptionsPrefix((PetscObject)*pack,prefix);CHKERRQ(ierr); 11148a6f2e61SMark Adams ierr = DMSetFromOptions(*pack);CHKERRQ(ierr); 1115e0eea495SMark 11168a6f2e61SMark Adams { /* convert to p4est (or whatever), wait for discretization to create pack */ 1117e0eea495SMark char convType[256]; 1118e0eea495SMark PetscBool flg; 1119930e68a5SMark Adams ierr = PetscOptionsBegin(ctx->comm, prefix, "Mesh conversion options", "DMPLEX");CHKERRQ(ierr); 11208a6f2e61SMark Adams ierr = PetscOptionsFList("-dm_landau_type","Convert DMPlex to another format (p4est)","plexland.c",DMList,DMPLEX,convType,256,&flg);CHKERRQ(ierr); 11211e1ea65dSPierre Jolivet ierr = PetscOptionsEnd();CHKERRQ(ierr); 1122e0eea495SMark if (flg) { 11238a6f2e61SMark Adams ctx->use_p4est = PETSC_TRUE; /* flag for Forest */ 11248a6f2e61SMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 1125e0eea495SMark DM dmforest; 11268a6f2e61SMark Adams ierr = DMConvert(ctx->plex[grid],convType,&dmforest);CHKERRQ(ierr); 1127e0eea495SMark if (dmforest) { 1128e0eea495SMark PetscBool isForest; 1129e0eea495SMark ierr = PetscObjectSetOptionsPrefix((PetscObject)dmforest,prefix);CHKERRQ(ierr); 1130e0eea495SMark ierr = DMIsForest(dmforest,&isForest);CHKERRQ(ierr); 1131e0eea495SMark if (isForest) { 1132e0eea495SMark if (ctx->sphere && ctx->inflate) { 1133e0eea495SMark ierr = DMForestSetBaseCoordinateMapping(dmforest,GeometryDMLandau,ctx);CHKERRQ(ierr); 1134e0eea495SMark } 11358a6f2e61SMark Adams if (dmforest->prealloc_only != ctx->plex[grid]->prealloc_only) SETERRQ(PetscObjectComm((PetscObject)dmforest),PETSC_ERR_PLIB,"plex->prealloc_only != dm->prealloc_only"); 11368a6f2e61SMark Adams ierr = DMDestroy(&ctx->plex[grid]);CHKERRQ(ierr); 11378a6f2e61SMark Adams ctx->plex[grid] = dmforest; // Forest for adaptivity 1138*f37ccb5fSMark Adams } else SETERRQ(ctx->comm, PETSC_ERR_PLIB, "Converted to non Forest?"); 1139*f37ccb5fSMark Adams } else SETERRQ(ctx->comm, PETSC_ERR_PLIB, "Convert failed?"); 1140e0eea495SMark } 11418a6f2e61SMark Adams } else ctx->use_p4est = PETSC_FALSE; /* flag for Forest */ 1142e0eea495SMark } 11438a6f2e61SMark Adams } /* non-file */ 11448a6f2e61SMark Adams ierr = DMSetDimension(*pack, dim);CHKERRQ(ierr); 11458a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject) *pack, "Mesh");CHKERRQ(ierr); 11468a6f2e61SMark Adams ierr = DMSetApplicationContext(*pack, ctx);CHKERRQ(ierr); 11478a6f2e61SMark Adams 1148e0eea495SMark PetscFunctionReturn(0); 1149e0eea495SMark } 1150e0eea495SMark 11518a6f2e61SMark Adams static PetscErrorCode SetupDS(DM pack, PetscInt dim, PetscInt grid, LandauCtx *ctx) 1152e0eea495SMark { 1153e0eea495SMark PetscErrorCode ierr; 11548a6f2e61SMark Adams PetscInt ii,i0; 1155e0eea495SMark char buf[256]; 11568a6f2e61SMark Adams PetscSection section; 11578a6f2e61SMark Adams 11588a6f2e61SMark Adams PetscFunctionBegin; 11598a6f2e61SMark Adams for (ii = ctx->species_offset[grid], i0 = 0 ; ii < ctx->species_offset[grid+1] ; ii++, i0++) { 1160e0eea495SMark if (ii==0) ierr = PetscSNPrintf(buf, 256, "e"); 1161e0eea495SMark else {ierr = PetscSNPrintf(buf, 256, "i%D", ii);CHKERRQ(ierr);} 1162e0eea495SMark /* Setup Discretization - FEM */ 1163cefb98e8SMark Adams ierr = PetscFECreateDefault(PETSC_COMM_SELF, dim, 1, PETSC_FALSE, NULL, PETSC_DECIDE, &ctx->fe[ii]);CHKERRQ(ierr); 1164e0eea495SMark ierr = PetscObjectSetName((PetscObject) ctx->fe[ii], buf);CHKERRQ(ierr); 11658a6f2e61SMark Adams ierr = DMSetField(ctx->plex[grid], i0, NULL, (PetscObject) ctx->fe[ii]);CHKERRQ(ierr); 1166e0eea495SMark } 11678a6f2e61SMark Adams ierr = DMCreateDS(ctx->plex[grid]);CHKERRQ(ierr); 11688a6f2e61SMark Adams ierr = DMGetSection(ctx->plex[grid], §ion);CHKERRQ(ierr); 11698a6f2e61SMark Adams for (PetscInt ii = ctx->species_offset[grid], i0 = 0 ; ii < ctx->species_offset[grid+1] ; ii++, i0++) { 1170e0eea495SMark if (ii==0) ierr = PetscSNPrintf(buf, 256, "se"); 1171e0eea495SMark else ierr = PetscSNPrintf(buf, 256, "si%D", ii); 11728a6f2e61SMark Adams ierr = PetscSectionSetComponentName(section, i0, 0, buf);CHKERRQ(ierr); 1173e0eea495SMark } 1174e0eea495SMark PetscFunctionReturn(0); 1175e0eea495SMark } 1176e0eea495SMark 1177e0eea495SMark /* Define a Maxwellian function for testing out the operator. */ 1178e0eea495SMark 1179e0eea495SMark /* Using cartesian velocity space coordinates, the particle */ 1180e0eea495SMark /* density, [1/m^3], is defined according to */ 1181e0eea495SMark 1182e0eea495SMark /* $$ n=\int_{R^3} dv^3 \left(\frac{m}{2\pi T}\right)^{3/2}\exp [- mv^2/(2T)] $$ */ 1183e0eea495SMark 1184e0eea495SMark /* Using some constant, c, we normalize the velocity vector into a */ 1185e0eea495SMark /* dimensionless variable according to v=c*x. Thus the density, $n$, becomes */ 1186e0eea495SMark 1187e0eea495SMark /* $$ n=\int_{R^3} dx^3 \left(\frac{mc^2}{2\pi T}\right)^{3/2}\exp [- mc^2/(2T)*x^2] $$ */ 1188e0eea495SMark 1189e0eea495SMark /* Defining $\theta=2T/mc^2$, we thus find that the probability density */ 1190e0eea495SMark /* for finding the particle within the interval in a box dx^3 around x is */ 1191e0eea495SMark 1192e0eea495SMark /* f(x;\theta)=\left(\frac{1}{\pi\theta}\right)^{3/2} \exp [ -x^2/\theta ] */ 1193e0eea495SMark 1194e0eea495SMark typedef struct { 11958a6f2e61SMark Adams PetscReal v_0; 1196e0eea495SMark PetscReal kT_m; 1197e0eea495SMark PetscReal n; 1198e0eea495SMark PetscReal shift; 1199e0eea495SMark } MaxwellianCtx; 1200e0eea495SMark 1201e0eea495SMark static PetscErrorCode maxwellian(PetscInt dim, PetscReal time, const PetscReal x[], PetscInt Nf_dummy, PetscScalar *u, void *actx) 1202e0eea495SMark { 1203e0eea495SMark MaxwellianCtx *mctx = (MaxwellianCtx*)actx; 1204e0eea495SMark PetscInt i; 12058a6f2e61SMark Adams PetscReal v2 = 0, theta = 2*mctx->kT_m/(mctx->v_0*mctx->v_0); /* theta = 2kT/mc^2 */ 1206e0eea495SMark PetscFunctionBegin; 1207e0eea495SMark /* compute the exponents, v^2 */ 1208e0eea495SMark for (i = 0; i < dim; ++i) v2 += x[i]*x[i]; 1209e0eea495SMark /* evaluate the Maxwellian */ 1210e0eea495SMark u[0] = mctx->n*PetscPowReal(PETSC_PI*theta,-1.5)*(PetscExpReal(-v2/theta)); 1211e0eea495SMark if (mctx->shift!=0.) { 1212e0eea495SMark v2 = 0; 1213e0eea495SMark for (i = 0; i < dim-1; ++i) v2 += x[i]*x[i]; 1214e0eea495SMark v2 += (x[dim-1]-mctx->shift)*(x[dim-1]-mctx->shift); 1215e0eea495SMark /* evaluate the shifted Maxwellian */ 1216e0eea495SMark u[0] += mctx->n*PetscPowReal(PETSC_PI*theta,-1.5)*(PetscExpReal(-v2/theta)); 1217e0eea495SMark } 1218e0eea495SMark PetscFunctionReturn(0); 1219e0eea495SMark } 1220e0eea495SMark 1221e0eea495SMark /*@ 1222e0eea495SMark LandauAddMaxwellians - Add a Maxwellian distribution to a state 1223e0eea495SMark 1224e0eea495SMark Collective on X 1225e0eea495SMark 1226e0eea495SMark Input Parameters: 12278a6f2e61SMark Adams . dm - The mesh (local) 1228e0eea495SMark + time - Current time 12298a6f2e61SMark Adams - temps - Temperatures of each species (global) 12308a6f2e61SMark Adams . ns - Number density of each species (global) 12318a6f2e61SMark Adams - grid - index into current grid - just used for offset into temp and ns 1232e0eea495SMark + actx - Landau context 1233e0eea495SMark 1234e0eea495SMark Output Parameter: 12358a6f2e61SMark Adams . X - The state (local to this grid) 1236e0eea495SMark 12371e3d9a73SSatish Balay Level: beginner 12381e3d9a73SSatish Balay 1239e0eea495SMark .keywords: mesh 1240e0eea495SMark .seealso: LandauCreateVelocitySpace() 1241e0eea495SMark @*/ 12428fdabdddSMark Adams PetscErrorCode LandauAddMaxwellians(DM dm, Vec X, PetscReal time, PetscReal temps[], PetscReal ns[], PetscInt grid, PetscInt b_id, void *actx) 1243e0eea495SMark { 1244e0eea495SMark LandauCtx *ctx = (LandauCtx*)actx; 1245e0eea495SMark PetscErrorCode (*initu[LANDAU_MAX_SPECIES])(PetscInt, PetscReal, const PetscReal [], PetscInt, PetscScalar [], void *); 12468a6f2e61SMark Adams PetscErrorCode ierr,ii,i0; 1247e0eea495SMark PetscInt dim; 1248e0eea495SMark MaxwellianCtx *mctxs[LANDAU_MAX_SPECIES], data[LANDAU_MAX_SPECIES]; 1249e0eea495SMark 1250e0eea495SMark PetscFunctionBegin; 1251e0eea495SMark ierr = DMGetDimension(dm, &dim);CHKERRQ(ierr); 1252e0eea495SMark if (!ctx) { ierr = DMGetApplicationContext(dm, &ctx);CHKERRQ(ierr); } 12538a6f2e61SMark Adams for (ii = ctx->species_offset[grid], i0 = 0 ; ii < ctx->species_offset[grid+1] ; ii++, i0++) { 12548a6f2e61SMark Adams mctxs[i0] = &data[i0]; 12558fdabdddSMark Adams data[i0].v_0 = ctx->v_0; // v_0 same for all grids 12568a6f2e61SMark Adams data[i0].kT_m = ctx->k*temps[ii]/ctx->masses[ii]; /* kT/m */ 12578fdabdddSMark Adams data[i0].n = ns[ii] * (1+(double)b_id/10.0); // make solves a little different to mimic application, n[0] use for Conner-Hastie 12588fdabdddSMark Adams //printf(">>>>>>>> %d.%d) ctx->n[%d]=%g ctx->electronShift=%e\n",b_id,grid,ii,data[i0].n,ctx->electronShift); 12598a6f2e61SMark Adams initu[i0] = maxwellian; 12608a6f2e61SMark Adams data[i0].shift = 0; 1261e0eea495SMark } 1262e0eea495SMark data[0].shift = ctx->electronShift; 1263e0eea495SMark /* need to make ADD_ALL_VALUES work - TODO */ 1264e0eea495SMark ierr = DMProjectFunction(dm, time, initu, (void**)mctxs, INSERT_ALL_VALUES, X);CHKERRQ(ierr); 1265e0eea495SMark PetscFunctionReturn(0); 1266e0eea495SMark } 1267e0eea495SMark 1268e0eea495SMark /* 1269e0eea495SMark LandauSetInitialCondition - Addes Maxwellians with context 1270e0eea495SMark 1271e0eea495SMark Collective on X 1272e0eea495SMark 1273e0eea495SMark Input Parameters: 1274e0eea495SMark . dm - The mesh 12758a6f2e61SMark Adams - grid - index into current grid - just used for offset into temp and ns 1276e0eea495SMark + actx - Landau context with T and n 1277e0eea495SMark 1278e0eea495SMark Output Parameter: 1279e0eea495SMark . X - The state 1280e0eea495SMark 1281e0eea495SMark Level: beginner 1282e0eea495SMark 1283e0eea495SMark .keywords: mesh 1284e0eea495SMark .seealso: LandauCreateVelocitySpace(), LandauAddMaxwellians() 1285e0eea495SMark */ 12868fdabdddSMark Adams static PetscErrorCode LandauSetInitialCondition(DM dm, Vec X, PetscInt grid, PetscInt b_id, void *actx) 1287e0eea495SMark { 1288e0eea495SMark LandauCtx *ctx = (LandauCtx*)actx; 1289e0eea495SMark PetscErrorCode ierr; 1290e0eea495SMark PetscFunctionBegin; 1291e0eea495SMark if (!ctx) { ierr = DMGetApplicationContext(dm, &ctx);CHKERRQ(ierr); } 1292e0eea495SMark ierr = VecZeroEntries(X);CHKERRQ(ierr); 12938fdabdddSMark Adams ierr = LandauAddMaxwellians(dm, X, 0.0, ctx->thermal_temps, ctx->n, grid, b_id, ctx);CHKERRQ(ierr); 1294e0eea495SMark PetscFunctionReturn(0); 1295e0eea495SMark } 1296e0eea495SMark 12978a6f2e61SMark Adams // adapt a level once. Forest in/out 12988a6f2e61SMark Adams static PetscErrorCode adaptToleranceFEM(PetscFE fem, Vec sol, PetscInt type, PetscInt grid, LandauCtx *ctx, DM *newForest) 1299e0eea495SMark { 13008a6f2e61SMark Adams DM forest, plex, adaptedDM = NULL; 1301e0eea495SMark PetscDS prob; 1302e0eea495SMark PetscBool isForest; 1303e0eea495SMark PetscQuadrature quad; 1304e0eea495SMark PetscInt Nq, *Nb, cStart, cEnd, c, dim, qj, k; 1305e0eea495SMark DMLabel adaptLabel = NULL; 1306e0eea495SMark PetscErrorCode ierr; 1307e0eea495SMark 1308e0eea495SMark PetscFunctionBegin; 13098a6f2e61SMark Adams forest = ctx->plex[grid]; 13108a6f2e61SMark Adams ierr = DMCreateDS(forest);CHKERRQ(ierr); 13118a6f2e61SMark Adams ierr = DMGetDS(forest, &prob);CHKERRQ(ierr); 13128a6f2e61SMark Adams ierr = DMGetDimension(forest, &dim);CHKERRQ(ierr); 13138a6f2e61SMark Adams ierr = DMIsForest(forest, &isForest);CHKERRQ(ierr); 13148a6f2e61SMark Adams if (!isForest) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"! Forest"); 13158a6f2e61SMark Adams ierr = DMConvert(forest, DMPLEX, &plex);CHKERRQ(ierr); 1316e0eea495SMark ierr = DMPlexGetHeightStratum(plex,0,&cStart,&cEnd);CHKERRQ(ierr); 1317e0eea495SMark ierr = DMLabelCreate(PETSC_COMM_SELF,"adapt",&adaptLabel);CHKERRQ(ierr); 1318e0eea495SMark ierr = PetscFEGetQuadrature(fem, &quad);CHKERRQ(ierr); 1319e0eea495SMark ierr = PetscQuadratureGetData(quad, NULL, NULL, &Nq, NULL, NULL);CHKERRQ(ierr); 1320930e68a5SMark Adams if (Nq >LANDAU_MAX_NQ) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"Order too high. Nq = %D > LANDAU_MAX_NQ (%D)",Nq,LANDAU_MAX_NQ); 1321e0eea495SMark ierr = PetscDSGetDimensions(prob, &Nb);CHKERRQ(ierr); 1322e0eea495SMark if (type==4) { 1323e0eea495SMark for (c = cStart; c < cEnd; c++) { 1324e0eea495SMark ierr = DMLabelSetValue(adaptLabel, c, DM_ADAPT_REFINE);CHKERRQ(ierr); 1325e0eea495SMark } 132674c602b1SMark ierr = PetscInfo1(sol, "Phase:%s: Uniform refinement\n","adaptToleranceFEM");CHKERRQ(ierr); 1327e0eea495SMark } else if (type==2) { 132852cdd6eaSMark PetscInt rCellIdx[8], eCellIdx[64], iCellIdx[64], eMaxIdx = -1, iMaxIdx = -1, nr = 0, nrmax = (dim==3) ? 8 : 2; 1329a003a357SMark PetscReal minRad = PETSC_INFINITY, r, eMinRad = PETSC_INFINITY, iMinRad = PETSC_INFINITY; 1330e0eea495SMark for (c = 0; c < 64; c++) { eCellIdx[c] = iCellIdx[c] = -1; } 1331e0eea495SMark for (c = cStart; c < cEnd; c++) { 1332e0eea495SMark PetscReal tt, v0[LANDAU_MAX_NQ*3], detJ[LANDAU_MAX_NQ]; 1333e0eea495SMark ierr = DMPlexComputeCellGeometryFEM(plex, c, quad, v0, NULL, NULL, detJ);CHKERRQ(ierr); 1334e0eea495SMark for (qj = 0; qj < Nq; ++qj) { 1335e0eea495SMark tt = PetscSqr(v0[dim*qj+0]) + PetscSqr(v0[dim*qj+1]) + PetscSqr(((dim==3) ? v0[dim*qj+2] : 0)); 1336e0eea495SMark r = PetscSqrtReal(tt); 1337a003a357SMark if (r < minRad - PETSC_SQRT_MACHINE_EPSILON*10.) { 1338e0eea495SMark minRad = r; 1339e0eea495SMark nr = 0; 1340e0eea495SMark rCellIdx[nr++]= c; 1341e0eea495SMark ierr = PetscInfo4(sol, "\t\tPhase: adaptToleranceFEM Found first inner r=%e, cell %D, qp %D/%D\n", r, c, qj+1, Nq);CHKERRQ(ierr); 1342a003a357SMark } else if ((r-minRad) < PETSC_SQRT_MACHINE_EPSILON*100. && nr < nrmax) { 1343e0eea495SMark for (k=0;k<nr;k++) if (c == rCellIdx[k]) break; 1344e0eea495SMark if (k==nr) { 1345e0eea495SMark rCellIdx[nr++]= c; 1346e0eea495SMark ierr = PetscInfo5(sol, "\t\t\tPhase: adaptToleranceFEM Found another inner r=%e, cell %D, qp %D/%D, d=%e\n", r, c, qj+1, Nq, r-minRad);CHKERRQ(ierr); 1347e0eea495SMark } 1348e0eea495SMark } 1349e0eea495SMark if (ctx->sphere) { 1350e0eea495SMark if ((tt=r-ctx->e_radius) > 0) { 1351e0eea495SMark PetscInfo2(sol, "\t\t\t %D cell r=%g\n",c,tt); 1352a003a357SMark if (tt < eMinRad - PETSC_SQRT_MACHINE_EPSILON*100.) { 1353e0eea495SMark eMinRad = tt; 1354e0eea495SMark eMaxIdx = 0; 1355e0eea495SMark eCellIdx[eMaxIdx++] = c; 1356a003a357SMark } else if (eMaxIdx > 0 && (tt-eMinRad) <= PETSC_SQRT_MACHINE_EPSILON && c != eCellIdx[eMaxIdx-1]) { 1357e0eea495SMark eCellIdx[eMaxIdx++] = c; 1358e0eea495SMark } 1359e0eea495SMark } 13608a6f2e61SMark Adams if ((tt=r-ctx->i_radius[grid]) > 0) { 1361e0eea495SMark if (tt < iMinRad - 1.e-5) { 1362e0eea495SMark iMinRad = tt; 1363e0eea495SMark iMaxIdx = 0; 1364e0eea495SMark iCellIdx[iMaxIdx++] = c; 1365a003a357SMark } else if (iMaxIdx > 0 && (tt-iMinRad) <= PETSC_SQRT_MACHINE_EPSILON && c != iCellIdx[iMaxIdx-1]) { 1366e0eea495SMark iCellIdx[iMaxIdx++] = c; 1367e0eea495SMark } 1368e0eea495SMark } 1369e0eea495SMark } 1370e0eea495SMark } 1371e0eea495SMark } 1372e0eea495SMark for (k=0;k<nr;k++) { 1373e0eea495SMark ierr = DMLabelSetValue(adaptLabel, rCellIdx[k], DM_ADAPT_REFINE);CHKERRQ(ierr); 1374e0eea495SMark } 1375e0eea495SMark if (ctx->sphere) { 1376e0eea495SMark for (c = 0; c < eMaxIdx; c++) { 1377e0eea495SMark ierr = DMLabelSetValue(adaptLabel, eCellIdx[c], DM_ADAPT_REFINE);CHKERRQ(ierr); 13781e1ea65dSPierre Jolivet ierr = PetscInfo3(sol, "\t\tPhase:%s: refine sphere e cell %D r=%g\n","adaptToleranceFEM",eCellIdx[c],eMinRad);CHKERRQ(ierr); 1379e0eea495SMark } 1380e0eea495SMark for (c = 0; c < iMaxIdx; c++) { 1381e0eea495SMark ierr = DMLabelSetValue(adaptLabel, iCellIdx[c], DM_ADAPT_REFINE);CHKERRQ(ierr); 13821e1ea65dSPierre Jolivet ierr = PetscInfo3(sol, "\t\tPhase:%s: refine sphere i cell %D r=%g\n","adaptToleranceFEM",iCellIdx[c],iMinRad);CHKERRQ(ierr); 1383e0eea495SMark } 1384e0eea495SMark } 13851e1ea65dSPierre Jolivet ierr = PetscInfo4(sol, "Phase:%s: Adaptive refine origin cells %D,%D r=%g\n","adaptToleranceFEM",rCellIdx[0],rCellIdx[1],minRad);CHKERRQ(ierr); 1386e0eea495SMark } else if (type==0 || type==1 || type==3) { /* refine along r=0 axis */ 1387e0eea495SMark PetscScalar *coef = NULL; 1388e0eea495SMark Vec coords; 1389e0eea495SMark PetscInt csize,Nv,d,nz; 1390e0eea495SMark DM cdm; 1391e0eea495SMark PetscSection cs; 13928a6f2e61SMark Adams ierr = DMGetCoordinatesLocal(forest, &coords);CHKERRQ(ierr); 13938a6f2e61SMark Adams ierr = DMGetCoordinateDM(forest, &cdm);CHKERRQ(ierr); 1394e0eea495SMark ierr = DMGetLocalSection(cdm, &cs);CHKERRQ(ierr); 1395e0eea495SMark for (c = cStart; c < cEnd; c++) { 1396e0eea495SMark PetscInt doit = 0, outside = 0; 1397e0eea495SMark ierr = DMPlexVecGetClosure(cdm, cs, coords, c, &csize, &coef);CHKERRQ(ierr); 1398e0eea495SMark Nv = csize/dim; 1399e0eea495SMark for (nz = d = 0; d < Nv; d++) { 1400e0eea495SMark PetscReal z = PetscRealPart(coef[d*dim + (dim-1)]), x = PetscSqr(PetscRealPart(coef[d*dim + 0])) + ((dim==3) ? PetscSqr(PetscRealPart(coef[d*dim + 1])) : 0); 1401e0eea495SMark x = PetscSqrtReal(x); 1402930e68a5SMark Adams if (x < PETSC_MACHINE_EPSILON*10. && PetscAbs(z)<PETSC_MACHINE_EPSILON*10.) doit = 1; /* refine origin */ 1403a003a357SMark else if (type==0 && (z < -PETSC_MACHINE_EPSILON*10. || z > ctx->re_radius+PETSC_MACHINE_EPSILON*10.)) outside++; /* first pass don't refine bottom */ 1404e0eea495SMark else if (type==1 && (z > ctx->vperp0_radius1 || z < -ctx->vperp0_radius1)) outside++; /* don't refine outside electron refine radius */ 1405e0eea495SMark else if (type==3 && (z > ctx->vperp0_radius2 || z < -ctx->vperp0_radius2)) outside++; /* don't refine outside ion refine radius */ 1406a003a357SMark if (x < PETSC_MACHINE_EPSILON*10.) nz++; 1407e0eea495SMark } 1408e0eea495SMark ierr = DMPlexVecRestoreClosure(cdm, cs, coords, c, &csize, &coef);CHKERRQ(ierr); 1409e0eea495SMark if (doit || (outside<Nv && nz)) { 1410e0eea495SMark ierr = DMLabelSetValue(adaptLabel, c, DM_ADAPT_REFINE);CHKERRQ(ierr); 1411e0eea495SMark } 1412e0eea495SMark } 14131e1ea65dSPierre Jolivet ierr = PetscInfo1(sol, "Phase:%s: RE refinement\n","adaptToleranceFEM");CHKERRQ(ierr); 1414e0eea495SMark } 1415e0eea495SMark ierr = DMDestroy(&plex);CHKERRQ(ierr); 14168a6f2e61SMark Adams ierr = DMAdaptLabel(forest, adaptLabel, &adaptedDM);CHKERRQ(ierr); 1417e0eea495SMark ierr = DMLabelDestroy(&adaptLabel);CHKERRQ(ierr); 14188a6f2e61SMark Adams *newForest = adaptedDM; 1419e0eea495SMark if (adaptedDM) { 1420e0eea495SMark if (isForest) { 14218a6f2e61SMark Adams ierr = DMForestSetAdaptivityForest(adaptedDM,NULL);CHKERRQ(ierr); // ???? 14228a6f2e61SMark Adams } else exit(33); // ??????? 1423e0eea495SMark ierr = DMConvert(adaptedDM, DMPLEX, &plex);CHKERRQ(ierr); 1424e0eea495SMark ierr = DMPlexGetHeightStratum(plex,0,&cStart,&cEnd);CHKERRQ(ierr); 1425e0eea495SMark ierr = PetscInfo2(sol, "\tPhase: adaptToleranceFEM: %D cells, %d total quadrature points\n",cEnd-cStart,Nq*(cEnd-cStart));CHKERRQ(ierr); 1426e0eea495SMark ierr = DMDestroy(&plex);CHKERRQ(ierr); 14278a6f2e61SMark Adams } else *newForest = NULL; 1428e0eea495SMark PetscFunctionReturn(0); 1429e0eea495SMark } 1430e0eea495SMark 14318a6f2e61SMark Adams // forest goes in (ctx->plex[grid]), plex comes out 14328a6f2e61SMark Adams static PetscErrorCode adapt(PetscInt grid, LandauCtx *ctx, Vec *uu) 1433e0eea495SMark { 1434e0eea495SMark PetscErrorCode ierr; 1435e0eea495SMark PetscInt adaptIter; 1436e0eea495SMark 1437e0eea495SMark PetscFunctionBegin; 14388a6f2e61SMark Adams PetscInt type, limits[5] = {(grid==0) ? ctx->numRERefine : 0, (grid==0) ? ctx->nZRefine1 : 0, ctx->numAMRRefine[grid], (grid==0) ? ctx->nZRefine2 : 0,ctx->postAMRRefine[grid]}; 1439e0eea495SMark for (type=0;type<5;type++) { 1440e0eea495SMark for (adaptIter = 0; adaptIter<limits[type];adaptIter++) { 14418a6f2e61SMark Adams DM newForest = NULL; 14428a6f2e61SMark Adams ierr = adaptToleranceFEM(ctx->fe[0], *uu, type, grid, ctx, &newForest);CHKERRQ(ierr); 14438a6f2e61SMark Adams if (newForest) { 14448a6f2e61SMark Adams ierr = DMDestroy(&ctx->plex[grid]);CHKERRQ(ierr); 1445e0eea495SMark ierr = VecDestroy(uu);CHKERRQ(ierr); 14468a6f2e61SMark Adams ierr = DMCreateGlobalVector(newForest,uu);CHKERRQ(ierr); 14478a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject) *uu, "uAMR");CHKERRQ(ierr); 14488fdabdddSMark Adams ierr = LandauSetInitialCondition(newForest, *uu, grid, 0, ctx);CHKERRQ(ierr); 14498a6f2e61SMark Adams ctx->plex[grid] = newForest; 14508a6f2e61SMark Adams } else { 14518a6f2e61SMark Adams exit(4); // can happen with no AMR and post refinement 1452e0eea495SMark } 1453e0eea495SMark } 1454e0eea495SMark } 1455e0eea495SMark PetscFunctionReturn(0); 1456e0eea495SMark } 1457e0eea495SMark 1458e0eea495SMark static PetscErrorCode ProcessOptions(LandauCtx *ctx, const char prefix[]) 1459e0eea495SMark { 1460e0eea495SMark PetscErrorCode ierr; 1461e0eea495SMark PetscBool flg, sph_flg; 14628a6f2e61SMark Adams PetscInt ii,nt,nm,nc,num_species_grid[LANDAU_MAX_GRIDS]; 14638a6f2e61SMark Adams PetscReal v0_grid[LANDAU_MAX_GRIDS]; 1464e0eea495SMark DM dummy; 1465e0eea495SMark 1466e0eea495SMark PetscFunctionBegin; 1467930e68a5SMark Adams ierr = DMCreate(ctx->comm,&dummy);CHKERRQ(ierr); 1468e0eea495SMark /* get options - initialize context */ 1469e0eea495SMark ctx->verbose = 1; 14708fdabdddSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 14718fdabdddSMark Adams ctx->batch_sz = PetscNumOMPThreads; 14728fdabdddSMark Adams #else 14738fdabdddSMark Adams ctx->batch_sz = 1; 14748fdabdddSMark Adams #endif 14758fdabdddSMark Adams ctx->batch_view_idx = 0; 1476e0eea495SMark ctx->interpolate = PETSC_TRUE; 1477a587d139SMark ctx->gpu_assembly = PETSC_TRUE; 14788a6f2e61SMark Adams ctx->aux_bool = PETSC_FALSE; 14798a6f2e61SMark Adams ctx->electronShift = 0; 14808a6f2e61SMark Adams ctx->M = NULL; 14818a6f2e61SMark Adams ctx->J = NULL; 14828a6f2e61SMark Adams /* geometry and grids */ 1483e0eea495SMark ctx->sphere = PETSC_FALSE; 1484e0eea495SMark ctx->inflate = PETSC_FALSE; 14858a6f2e61SMark Adams ctx->aux_bool = PETSC_FALSE; 14868a6f2e61SMark Adams ctx->use_p4est = PETSC_FALSE; 14878a6f2e61SMark Adams ctx->num_sections = 3; /* 2, 3 or 4 */ 14888a6f2e61SMark Adams for (PetscInt grid=0;grid<LANDAU_MAX_GRIDS;grid++) { 14898a6f2e61SMark Adams ctx->radius[grid] = 5.; /* thermal radius (velocity) */ 14908a6f2e61SMark Adams ctx->numAMRRefine[grid] = 5; 14918a6f2e61SMark Adams ctx->postAMRRefine[grid] = 0; 14928a6f2e61SMark Adams ctx->species_offset[grid+1] = 1; // one species default 14938a6f2e61SMark Adams num_species_grid[grid] = 0; 14948a6f2e61SMark Adams ctx->plex[grid] = NULL; /* cache as expensive to Convert */ 14958a6f2e61SMark Adams } 14968a6f2e61SMark Adams ctx->species_offset[0] = 0; 1497e0eea495SMark ctx->re_radius = 0.; 1498e0eea495SMark ctx->vperp0_radius1 = 0; 1499e0eea495SMark ctx->vperp0_radius2 = 0; 1500e0eea495SMark ctx->nZRefine1 = 0; 1501e0eea495SMark ctx->nZRefine2 = 0; 1502e0eea495SMark ctx->numRERefine = 0; 15038a6f2e61SMark Adams num_species_grid[0] = 1; // one species default 1504e0eea495SMark /* species - [0] electrons, [1] one ion species eg, duetarium, [2] heavy impurity ion, ... */ 1505e0eea495SMark ctx->charges[0] = -1; /* electron charge (MKS) */ 15068a6f2e61SMark Adams ctx->masses[0] = 1/1835.469965278441013; /* temporary value in proton mass */ 1507e0eea495SMark ctx->n[0] = 1; 15088a6f2e61SMark Adams ctx->v_0 = 1; /* thermal velocity, we could start with a scale != 1 */ 1509e0eea495SMark ctx->thermal_temps[0] = 1; 1510e0eea495SMark /* constants, etc. */ 1511e0eea495SMark ctx->epsilon0 = 8.8542e-12; /* permittivity of free space (MKS) F/m */ 1512e0eea495SMark ctx->k = 1.38064852e-23; /* Boltzmann constant (MKS) J/K */ 1513e0eea495SMark ctx->lnLam = 10; /* cross section ratio large - small angle collisions */ 1514e0eea495SMark ctx->n_0 = 1.e20; /* typical plasma n, but could set it to 1 */ 1515e0eea495SMark ctx->Ez = 0; 1516e0eea495SMark ctx->subThreadBlockSize = 1; /* for device and maybe OMP */ 1517*f37ccb5fSMark Adams ctx->numConcurrency = 0; /* for device (matrix solver hint) */ 15188fdabdddSMark Adams for (PetscInt grid=0;grid<LANDAU_NUM_TIMERS;grid++) ctx->times[grid] = 0; 15198a6f2e61SMark Adams ctx->initialized = PETSC_FALSE; // doit first time 1520e8d2b73aSMark Adams ctx->use_matrix_mass = PETSC_FALSE; /* fast but slightly fragile */ 1521cefb98e8SMark Adams ctx->use_relativistic_corrections = PETSC_FALSE; 1522cefb98e8SMark Adams ctx->use_energy_tensor_trick = PETSC_FALSE; /* Use Eero's trick for energy conservation v --> grad(v^2/2) */ 15238a6f2e61SMark Adams ctx->SData_d.w = NULL; 15248a6f2e61SMark Adams ctx->SData_d.x = NULL; 15258a6f2e61SMark Adams ctx->SData_d.y = NULL; 15268a6f2e61SMark Adams ctx->SData_d.z = NULL; 15278a6f2e61SMark Adams ctx->SData_d.invJ = NULL; 1528930e68a5SMark Adams ierr = PetscOptionsBegin(ctx->comm, prefix, "Options for Fokker-Plank-Landau collision operator", "none");CHKERRQ(ierr); 1529e0eea495SMark { 1530e0eea495SMark char opstring[256]; 15318a6f2e61SMark Adams #if defined(PETSC_HAVE_KOKKOS_KERNELS) 1532e0eea495SMark ctx->deviceType = LANDAU_KOKKOS; 1533e0eea495SMark ierr = PetscStrcpy(opstring,"kokkos");CHKERRQ(ierr); 1534a587d139SMark #if defined(PETSC_HAVE_CUDA) 1535e8d2b73aSMark Adams ctx->subThreadBlockSize = 16; 1536e0eea495SMark #endif 1537e0eea495SMark #elif defined(PETSC_HAVE_CUDA) 1538e0eea495SMark ctx->deviceType = LANDAU_CUDA; 1539e0eea495SMark ierr = PetscStrcpy(opstring,"cuda");CHKERRQ(ierr); 1540e0eea495SMark #else 1541e0eea495SMark ctx->deviceType = LANDAU_CPU; 1542e0eea495SMark ierr = PetscStrcpy(opstring,"cpu");CHKERRQ(ierr); 1543e0eea495SMark ctx->subThreadBlockSize = 0; 1544e0eea495SMark #endif 1545e0eea495SMark ierr = PetscOptionsString("-dm_landau_device_type","Use kernels on 'cpu', 'cuda', or 'kokkos'","plexland.c",opstring,opstring,256,NULL);CHKERRQ(ierr); 1546e0eea495SMark ierr = PetscStrcmp("cpu",opstring,&flg);CHKERRQ(ierr); 1547e0eea495SMark if (flg) { 1548e0eea495SMark ctx->deviceType = LANDAU_CPU; 1549e0eea495SMark ctx->subThreadBlockSize = 0; 1550e0eea495SMark } else { 1551e0eea495SMark ierr = PetscStrcmp("cuda",opstring,&flg);CHKERRQ(ierr); 1552a587d139SMark if (flg) { 1553a587d139SMark ctx->deviceType = LANDAU_CUDA; 1554a587d139SMark ctx->subThreadBlockSize = 0; 1555a587d139SMark } else { 1556e0eea495SMark ierr = PetscStrcmp("kokkos",opstring,&flg);CHKERRQ(ierr); 1557e0eea495SMark if (flg) ctx->deviceType = LANDAU_KOKKOS; 1558930e68a5SMark Adams else SETERRQ1(ctx->comm,PETSC_ERR_ARG_WRONG,"-dm_landau_device_type %s",opstring); 1559e0eea495SMark } 1560e0eea495SMark } 1561e0eea495SMark } 1562e0eea495SMark ierr = PetscOptionsReal("-dm_landau_electron_shift","Shift in thermal velocity of electrons","none",ctx->electronShift,&ctx->electronShift, NULL);CHKERRQ(ierr); 15638a6f2e61SMark Adams ierr = PetscOptionsInt("-dm_landau_verbose", "Level of verbosity output", "plexland.c", ctx->verbose, &ctx->verbose, NULL);CHKERRQ(ierr); 15648fdabdddSMark Adams ierr = PetscOptionsInt("-dm_landau_batch_size", "Number of 'vertices' to batch", "ex2.c", ctx->batch_sz, &ctx->batch_sz, NULL);CHKERRQ(ierr); 1565*f37ccb5fSMark Adams if (LANDAU_MAX_BATCH_SZ < ctx->batch_sz) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"LANDAU_MAX_BATCH_SZ %D < ctx->batch_sz %D",LANDAU_MAX_BATCH_SZ,ctx->batch_sz); 15668fdabdddSMark Adams ierr = PetscOptionsInt("-dm_landau_batch_view_idx", "Index of batch for diagnostics like plotting", "ex2.c", ctx->batch_view_idx, &ctx->batch_view_idx, NULL);CHKERRQ(ierr); 15678fdabdddSMark Adams if (ctx->batch_view_idx >= ctx->batch_sz) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"-ctx->batch_view_idx %D > ctx->batch_sz %D",ctx->batch_view_idx,ctx->batch_sz); 15688fdabdddSMark Adams ierr = PetscOptionsReal("-dm_landau_Ez","Initial parallel electric field in unites of Conner-Hastie critical field","plexland.c",ctx->Ez,&ctx->Ez, NULL);CHKERRQ(ierr); 1569e0eea495SMark ierr = PetscOptionsReal("-dm_landau_n_0","Normalization constant for number density","plexland.c",ctx->n_0,&ctx->n_0, NULL);CHKERRQ(ierr); 1570e0eea495SMark ierr = PetscOptionsReal("-dm_landau_ln_lambda","Cross section parameter","plexland.c",ctx->lnLam,&ctx->lnLam, NULL);CHKERRQ(ierr); 1571e8d2b73aSMark Adams ierr = PetscOptionsBool("-dm_landau_use_mataxpy_mass", "Use fast but slightly fragile MATAXPY to add mass term", "plexland.c", ctx->use_matrix_mass, &ctx->use_matrix_mass, NULL);CHKERRQ(ierr); 1572cefb98e8SMark Adams ierr = PetscOptionsBool("-dm_landau_use_relativistic_corrections", "Use relativistic corrections", "plexland.c", ctx->use_relativistic_corrections, &ctx->use_relativistic_corrections, NULL);CHKERRQ(ierr); 1573cefb98e8SMark Adams ierr = PetscOptionsBool("-dm_landau_use_energy_tensor_trick", "Use Eero's trick of using grad(v^2/2) instead of v as args to Landau tensor to conserve energy with relativistic corrections and Q1 elements", "plexland.c", ctx->use_energy_tensor_trick, &ctx->use_energy_tensor_trick, NULL);CHKERRQ(ierr); 1574a587d139SMark 15758fdabdddSMark Adams /* get num species with temperature, set defaults */ 1576e0eea495SMark for (ii=1;ii<LANDAU_MAX_SPECIES;ii++) { 15778fdabdddSMark Adams ctx->thermal_temps[ii] = 1; 1578e0eea495SMark ctx->charges[ii] = 1; 1579e0eea495SMark ctx->masses[ii] = 1; 15808fdabdddSMark Adams ctx->n[ii] = 1; 1581e0eea495SMark } 15828fdabdddSMark Adams nt = LANDAU_MAX_SPECIES; 1583e0eea495SMark ierr = PetscOptionsRealArray("-dm_landau_thermal_temps", "Temperature of each species [e,i_0,i_1,...] in keV (must be set to set number of species)", "plexland.c", ctx->thermal_temps, &nt, &flg);CHKERRQ(ierr); 1584e0eea495SMark if (flg) { 1585e0eea495SMark PetscInfo1(dummy, "num_species set to number of thermal temps provided (%D)\n",nt); 1586e0eea495SMark ctx->num_species = nt; 1587930e68a5SMark Adams } else SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"-dm_landau_thermal_temps ,t1,t2,.. must be provided to set the number of species"); 1588e0eea495SMark for (ii=0;ii<ctx->num_species;ii++) ctx->thermal_temps[ii] *= 1.1604525e7; /* convert to Kelvin */ 1589e0eea495SMark nm = LANDAU_MAX_SPECIES-1; 1590e0eea495SMark ierr = PetscOptionsRealArray("-dm_landau_ion_masses", "Mass of each species in units of proton mass [i_0=2,i_1=40...]", "plexland.c", &ctx->masses[1], &nm, &flg);CHKERRQ(ierr); 1591e0eea495SMark if (flg && nm != ctx->num_species-1) { 1592930e68a5SMark Adams SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"num ion masses %D != num species %D",nm,ctx->num_species-1); 1593e0eea495SMark } 1594e0eea495SMark nm = LANDAU_MAX_SPECIES; 15958fdabdddSMark Adams ierr = PetscOptionsRealArray("-dm_landau_n", "Number density of each species = n_s * n_0", "plexland.c", ctx->n, &nm, &flg);CHKERRQ(ierr); 1596930e68a5SMark Adams if (flg && nm != ctx->num_species) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"wrong num n: %D != num species %D",nm,ctx->num_species); 1597e0eea495SMark for (ii=0;ii<LANDAU_MAX_SPECIES;ii++) ctx->masses[ii] *= 1.6720e-27; /* scale by proton mass kg */ 1598e0eea495SMark ctx->masses[0] = 9.10938356e-31; /* electron mass kg (should be about right already) */ 1599e0eea495SMark ctx->m_0 = ctx->masses[0]; /* arbitrary reference mass, electrons */ 1600e0eea495SMark nc = LANDAU_MAX_SPECIES-1; 1601e0eea495SMark ierr = PetscOptionsRealArray("-dm_landau_ion_charges", "Charge of each species in units of proton charge [i_0=2,i_1=18,...]", "plexland.c", &ctx->charges[1], &nc, &flg);CHKERRQ(ierr); 1602930e68a5SMark Adams if (flg && nc != ctx->num_species-1) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"num charges %D != num species %D",nc,ctx->num_species-1); 1603e0eea495SMark for (ii=0;ii<LANDAU_MAX_SPECIES;ii++) ctx->charges[ii] *= 1.6022e-19; /* electron/proton charge (MKS) */ 16048a6f2e61SMark Adams /* geometry and grids */ 16058a6f2e61SMark Adams nt = LANDAU_MAX_GRIDS; 16068a6f2e61SMark Adams ierr = PetscOptionsIntArray("-dm_landau_num_species_grid","Number of species on each grid: [ 1, ....] or [S, 0 ....] for single grid","plexland.c", num_species_grid, &nt, &flg);CHKERRQ(ierr); 16078a6f2e61SMark Adams if (flg) { 16088a6f2e61SMark Adams ctx->num_grids = nt; 16098a6f2e61SMark Adams for (ii=nt=0;ii<ctx->num_grids;ii++) nt += num_species_grid[ii]; 16108a6f2e61SMark Adams if (ctx->num_species != nt) SETERRQ4(ctx->comm,PETSC_ERR_ARG_WRONG,"-dm_landau_num_species_grid: sum %D != num_species = %D. %D grids (check that number of grids <= LANDAU_MAX_GRIDS = %D)",nt,ctx->num_species,ctx->num_grids,LANDAU_MAX_GRIDS); 16118a6f2e61SMark Adams } else { 16128a6f2e61SMark Adams ctx->num_grids = 1; // go back to a single grid run 16138a6f2e61SMark Adams num_species_grid[0] = ctx->num_species; 16148a6f2e61SMark Adams } 16158a6f2e61SMark Adams for (ctx->species_offset[0] = ii = 0; ii < ctx->num_grids ; ii++) ctx->species_offset[ii+1] = ctx->species_offset[ii] + num_species_grid[ii]; 16168a6f2e61SMark Adams if (ctx->species_offset[ctx->num_grids] != ctx->num_species) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"ctx->species_offset[ctx->num_grids] %D != ctx->num_species = %D ???????????",ctx->species_offset[ctx->num_grids],ctx->num_species); 16178a6f2e61SMark Adams for (PetscInt grid = 0; grid < ctx->num_grids ; grid++) { 16188a6f2e61SMark Adams int iii = ctx->species_offset[grid]; // normalize with first (arbitrary) species on grid 16198fdabdddSMark Adams v0_grid[grid] = PetscSqrtReal(ctx->k*ctx->thermal_temps[iii]/ctx->masses[iii]); /* arbitrary units for non-dimensionalization: mean velocity in 1D of first species on grid */ 16208a6f2e61SMark Adams } 16218a6f2e61SMark Adams ii = 0; 16228fdabdddSMark Adams ierr = PetscOptionsInt("-dm_landau_v0_grid", "Index of grid to use for setting v_0 (electrons are default). Not recommended to change", "plexland.c", ii, &ii, NULL);CHKERRQ(ierr); 16238fdabdddSMark Adams ctx->v_0 = v0_grid[ii]; /* arbitrary units for non dimensionalization: global mean velocity in 1D of electrons */ 1624e0eea495SMark ctx->t_0 = 8*PETSC_PI*PetscSqr(ctx->epsilon0*ctx->m_0/PetscSqr(ctx->charges[0]))/ctx->lnLam/ctx->n_0*PetscPowReal(ctx->v_0,3); /* note, this t_0 makes nu[0,0]=1 */ 16258a6f2e61SMark Adams /* domain */ 16268a6f2e61SMark Adams nt = LANDAU_MAX_GRIDS; 16278a6f2e61SMark Adams ierr = PetscOptionsRealArray("-dm_landau_domain_radius","Phase space size in units of thermal velocity of grid","plexland.c",ctx->radius,&nt, &flg);CHKERRQ(ierr); 16288a6f2e61SMark Adams if (flg && nt < ctx->num_grids) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"-dm_landau_domain_radius: given %D radius != number grids %D",nt,ctx->num_grids); 16298a6f2e61SMark Adams for (PetscInt grid = 0; grid < ctx->num_grids ; grid++) { 16308a6f2e61SMark Adams if (flg && ctx->radius[grid] <= 0) { /* negative is ratio of c */ 16318a6f2e61SMark Adams if (ctx->radius[grid] == 0) ctx->radius[grid] = 0.75; 16328a6f2e61SMark Adams else ctx->radius[grid] = -ctx->radius[grid]; 16338a6f2e61SMark Adams ctx->radius[grid] = ctx->radius[grid]*SPEED_OF_LIGHT/ctx->v_0; // use any species on grid to normalize (v_0 same for all on grid) 16348fdabdddSMark Adams ierr = PetscInfo2(dummy, "Change domain radius to %g for grid %D\n",ctx->radius[grid],grid);CHKERRQ(ierr); 1635e0eea495SMark } 16368a6f2e61SMark Adams ctx->radius[grid] *= v0_grid[grid]/ctx->v_0; // scale domain by thermal radius relative to v_0 1637e0eea495SMark } 16388a6f2e61SMark Adams /* amr parametres */ 16398a6f2e61SMark Adams nt = LANDAU_MAX_GRIDS; 16408a6f2e61SMark Adams ierr = PetscOptionsIntArray("-dm_landau_amr_levels_max", "Number of AMR levels of refinement around origin, after (RE) refinements along z", "plexland.c", ctx->numAMRRefine, &nt, &flg);CHKERRQ(ierr); 16418a6f2e61SMark Adams if (flg && nt < ctx->num_grids) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"-dm_landau_amr_levels_max: given %D != number grids %D",nt,ctx->num_grids); 16428a6f2e61SMark Adams nt = LANDAU_MAX_GRIDS; 16438a6f2e61SMark Adams ierr = PetscOptionsIntArray("-dm_landau_amr_post_refine", "Number of levels to uniformly refine after AMR", "plexland.c", ctx->postAMRRefine, &nt, &flg);CHKERRQ(ierr); 16448a6f2e61SMark Adams for (ii=1;ii<ctx->num_grids;ii++) ctx->postAMRRefine[ii] = ctx->postAMRRefine[0]; // all grids the same now 16458a6f2e61SMark Adams ierr = PetscOptionsInt("-dm_landau_amr_re_levels", "Number of levels to refine along v_perp=0, z>0", "plexland.c", ctx->numRERefine, &ctx->numRERefine, &flg);CHKERRQ(ierr); 16468a6f2e61SMark Adams ierr = PetscOptionsInt("-dm_landau_amr_z_refine1", "Number of levels to refine along v_perp=0", "plexland.c", ctx->nZRefine1, &ctx->nZRefine1, &flg);CHKERRQ(ierr); 16478a6f2e61SMark Adams ierr = PetscOptionsInt("-dm_landau_amr_z_refine2", "Number of levels to refine along v_perp=0", "plexland.c", ctx->nZRefine2, &ctx->nZRefine2, &flg);CHKERRQ(ierr); 16488a6f2e61SMark Adams ierr = PetscOptionsReal("-dm_landau_re_radius","velocity range to refine on positive (z>0) r=0 axis for runaways","plexland.c",ctx->re_radius,&ctx->re_radius, &flg);CHKERRQ(ierr); 16498a6f2e61SMark Adams ierr = PetscOptionsReal("-dm_landau_z_radius1","velocity range to refine r=0 axis (for electrons)","plexland.c",ctx->vperp0_radius1,&ctx->vperp0_radius1, &flg);CHKERRQ(ierr); 16508a6f2e61SMark Adams ierr = PetscOptionsReal("-dm_landau_z_radius2","velocity range to refine r=0 axis (for ions) after origin AMR","plexland.c",ctx->vperp0_radius2, &ctx->vperp0_radius2, &flg);CHKERRQ(ierr); 16518a6f2e61SMark Adams /* spherical domain (not used) */ 16528a6f2e61SMark Adams ierr = PetscOptionsInt("-dm_landau_num_sections", "Number of tangential section in (2D) grid, 2, 3, of 4", "plexland.c", ctx->num_sections, &ctx->num_sections, NULL);CHKERRQ(ierr); 16538a6f2e61SMark Adams ierr = PetscOptionsBool("-dm_landau_sphere", "use sphere/semi-circle domain instead of rectangle", "plexland.c", ctx->sphere, &ctx->sphere, &sph_flg);CHKERRQ(ierr); 16548a6f2e61SMark Adams ierr = PetscOptionsBool("-dm_landau_inflate", "With sphere, inflate for curved edges", "plexland.c", ctx->inflate, &ctx->inflate, &flg);CHKERRQ(ierr); 1655e0eea495SMark ierr = PetscOptionsReal("-dm_landau_e_radius","Electron thermal velocity, used for circular meshes","plexland.c",ctx->e_radius, &ctx->e_radius, &flg);CHKERRQ(ierr); 1656e0eea495SMark if (flg && !sph_flg) ctx->sphere = PETSC_TRUE; /* you gave me an e radius but did not set sphere, user error really */ 1657e0eea495SMark if (!flg) { 16588a6f2e61SMark Adams ctx->e_radius = 1.5*PetscSqrtReal(8*ctx->k*ctx->thermal_temps[0]/ctx->masses[0]/PETSC_PI)/ctx->v_0; 1659e0eea495SMark } 16608a6f2e61SMark Adams nt = LANDAU_MAX_GRIDS; 16618a6f2e61SMark Adams ierr = PetscOptionsRealArray("-dm_landau_i_radius","Ion thermal velocity, used for circular meshes","plexland.c",ctx->i_radius, &nt, &flg);CHKERRQ(ierr); 16628a6f2e61SMark Adams if (flg && !sph_flg) ctx->sphere = PETSC_TRUE; 16638a6f2e61SMark Adams if (!flg) { 16648a6f2e61SMark Adams ctx->i_radius[0] = 1.5*PetscSqrtReal(8*ctx->k*ctx->thermal_temps[1]/ctx->masses[1]/PETSC_PI)/ctx->v_0; // need to correct for ion grid domain 16658a6f2e61SMark Adams } 16668a6f2e61SMark Adams if (flg && ctx->num_grids != nt) SETERRQ2(ctx->comm,PETSC_ERR_ARG_WRONG,"-dm_landau_i_radius: %D != num_species = %D",nt,ctx->num_grids); 16678a6f2e61SMark Adams if (ctx->sphere && ctx->e_radius <= ctx->i_radius[0]) SETERRQ3(ctx->comm,PETSC_ERR_ARG_WRONG,"bad radii: %g < %g < %g",ctx->i_radius[0],ctx->e_radius,ctx->radius[0]); 16688a6f2e61SMark Adams /* processing options */ 166952cdd6eaSMark ierr = PetscOptionsInt("-dm_landau_sub_thread_block_size", "Number of threads in Kokkos integration point subblock", "plexland.c", ctx->subThreadBlockSize, &ctx->subThreadBlockSize, NULL);CHKERRQ(ierr); 16708a6f2e61SMark Adams ierr = PetscOptionsBool("-dm_landau_gpu_assembly", "Assemble Jacobian on GPU", "plexland.c", ctx->gpu_assembly, &ctx->gpu_assembly, NULL);CHKERRQ(ierr); 1671*f37ccb5fSMark Adams ierr = PetscOptionsInt("-dm_landau_mat_hint", "An integer hint attached to matrix for solvers", "plexland.c", ctx->numConcurrency, &ctx->numConcurrency, NULL);CHKERRQ(ierr); 16728a6f2e61SMark Adams 1673e0eea495SMark ierr = PetscOptionsEnd();CHKERRQ(ierr); 1674e0eea495SMark for (ii=ctx->num_species;ii<LANDAU_MAX_SPECIES;ii++) ctx->masses[ii] = ctx->thermal_temps[ii] = ctx->charges[ii] = 0; 1675e0eea495SMark if (ctx->verbose > 0) { 1676930e68a5SMark Adams ierr = PetscPrintf(ctx->comm, "masses: e=%10.3e; ions in proton mass units: %10.3e %10.3e ...\n",ctx->masses[0],ctx->masses[1]/1.6720e-27,ctx->num_species>2 ? ctx->masses[2]/1.6720e-27 : 0);CHKERRQ(ierr); 1677930e68a5SMark Adams ierr = PetscPrintf(ctx->comm, "charges: e=%10.3e; charges in elementary units: %10.3e %10.3e\n", ctx->charges[0],-ctx->charges[1]/ctx->charges[0],ctx->num_species>2 ? -ctx->charges[2]/ctx->charges[0] : 0);CHKERRQ(ierr); 16788fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "n: e: %10.3e i: %10.3e %10.3e\n", ctx->n[0],ctx->n[1],ctx->num_species>2 ? ctx->n[2] : 0);CHKERRQ(ierr); 16798fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "thermal T (K): e=%10.3e i=%10.3e %10.3e. v_0=%10.3e (%10.3ec) n_0=%10.3e t_0=%10.3e, %s, %s, %D batched\n", ctx->thermal_temps[0], ctx->thermal_temps[1], (ctx->num_species>2) ? ctx->thermal_temps[2] : 0, ctx->v_0, ctx->v_0/SPEED_OF_LIGHT, ctx->n_0, ctx->t_0, ctx->use_relativistic_corrections ? "relativistic" : "classical", ctx->use_energy_tensor_trick ? "Use trick" : "Intuitive",ctx->batch_sz);CHKERRQ(ierr); 16808fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "Domain radius (AMR levels) grid %D: %g (%D) ",0,ctx->radius[0],ctx->numAMRRefine[0]);CHKERRQ(ierr); 16818a6f2e61SMark Adams for (ii=1;ii<ctx->num_grids;ii++) PetscPrintf(ctx->comm, ", %D: %10.3e (%D) ",ii,ctx->radius[ii],ctx->numAMRRefine[ii]); 16828a6f2e61SMark Adams ierr = PetscPrintf(ctx->comm,"\n");CHKERRQ(ierr); 1683e0eea495SMark } 1684e0eea495SMark ierr = DMDestroy(&dummy);CHKERRQ(ierr); 1685e0eea495SMark { 1686e0eea495SMark PetscMPIInt rank; 1687930e68a5SMark Adams ierr = MPI_Comm_rank(ctx->comm, &rank);CHKERRMPI(ierr); 1688c751c0a2SMark Adams ctx->stage = 0; 1689e8d2b73aSMark Adams ierr = PetscLogEventRegister("Landau Operator", DM_CLASSID, &ctx->events[11]);CHKERRQ(ierr); /* 11 */ 1690930e68a5SMark Adams ierr = PetscLogEventRegister("Landau Jacobian", DM_CLASSID, &ctx->events[0]);CHKERRQ(ierr); /* 0 */ 1691e8d2b73aSMark Adams ierr = PetscLogEventRegister("Landau Mass", DM_CLASSID, &ctx->events[9]);CHKERRQ(ierr); /* 9 */ 1692e8d2b73aSMark Adams ierr = PetscLogEventRegister(" Preamble", DM_CLASSID, &ctx->events[10]);CHKERRQ(ierr); /* 10 */ 1693e8d2b73aSMark Adams ierr = PetscLogEventRegister(" static IP Data", DM_CLASSID, &ctx->events[7]);CHKERRQ(ierr); /* 7 */ 1694e8d2b73aSMark Adams ierr = PetscLogEventRegister(" dynamic IP-Jac", DM_CLASSID, &ctx->events[1]);CHKERRQ(ierr); /* 1 */ 1695e8d2b73aSMark Adams ierr = PetscLogEventRegister(" Kernel-init", DM_CLASSID, &ctx->events[3]);CHKERRQ(ierr); /* 3 */ 1696e8d2b73aSMark Adams ierr = PetscLogEventRegister(" Jac-f-df (GPU)", DM_CLASSID, &ctx->events[8]);CHKERRQ(ierr); /* 8 */ 1697e8d2b73aSMark Adams ierr = PetscLogEventRegister(" Kernel (GPU)", DM_CLASSID, &ctx->events[4]);CHKERRQ(ierr); /* 4 */ 1698930e68a5SMark Adams ierr = PetscLogEventRegister(" Copy to CPU", DM_CLASSID, &ctx->events[5]);CHKERRQ(ierr); /* 5 */ 1699e0eea495SMark ierr = PetscLogEventRegister(" Jac-assemble", DM_CLASSID, &ctx->events[6]);CHKERRQ(ierr); /* 6 */ 1700a587d139SMark ierr = PetscLogEventRegister(" Jac asmbl setup", DM_CLASSID, &ctx->events[2]);CHKERRQ(ierr); /* 2 */ 1701b8d122ceSMark Adams ierr = PetscLogEventRegister(" Other", DM_CLASSID, &ctx->events[13]);CHKERRQ(ierr); /* 13 */ 1702930e68a5SMark Adams 1703e0eea495SMark if (rank) { /* turn off output stuff for duplicate runs - do we need to add the prefix to all this? */ 1704e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-snes_converged_reason");CHKERRQ(ierr); 1705e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-ksp_converged_reason");CHKERRQ(ierr); 1706e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-snes_monitor");CHKERRQ(ierr); 1707e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-ksp_monitor");CHKERRQ(ierr); 1708e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-ts_monitor");CHKERRQ(ierr); 1709e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-ts_adapt_monitor");CHKERRQ(ierr); 1710e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-dm_landau_amr_dm_view");CHKERRQ(ierr); 1711e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-dm_landau_amr_vec_view");CHKERRQ(ierr); 17128a6f2e61SMark Adams ierr = PetscOptionsClearValue(NULL,"-dm_landau_mass_dm_view");CHKERRQ(ierr); 17138a6f2e61SMark Adams ierr = PetscOptionsClearValue(NULL,"-dm_landau_mass_view");CHKERRQ(ierr); 17148a6f2e61SMark Adams ierr = PetscOptionsClearValue(NULL,"-dm_landau_jacobian_view");CHKERRQ(ierr); 17158a6f2e61SMark Adams ierr = PetscOptionsClearValue(NULL,"-dm_landau_mat_view");CHKERRQ(ierr); 17168a6f2e61SMark Adams ierr = PetscOptionsClearValue(NULL,"-");CHKERRQ(ierr); 1717e0eea495SMark ierr = PetscOptionsClearValue(NULL,"-info");CHKERRQ(ierr); 1718e0eea495SMark } 1719e0eea495SMark } 1720e0eea495SMark PetscFunctionReturn(0); 1721e0eea495SMark } 1722e0eea495SMark 1723e0eea495SMark /*@C 1724e0eea495SMark LandauCreateVelocitySpace - Create a DMPlex velocity space mesh 1725e0eea495SMark 1726e0eea495SMark Collective on comm 1727e0eea495SMark 1728e0eea495SMark Input Parameters: 1729e0eea495SMark + comm - The MPI communicator 1730e0eea495SMark . dim - velocity space dimension (2 for axisymmetric, 3 for full 3X + 3V solver) 17318a6f2e61SMark Adams - prefix - prefix for options (not tested) 1732e0eea495SMark 1733e0eea495SMark Output Parameter: 17348a6f2e61SMark Adams . pack - The DM object representing the mesh 1735e0eea495SMark + X - A vector (user destroys) 1736e0eea495SMark - J - Optional matrix (object destroys) 1737e0eea495SMark 1738e0eea495SMark Level: beginner 1739e0eea495SMark 1740e0eea495SMark .keywords: mesh 1741e0eea495SMark .seealso: DMPlexCreate(), LandauDestroyVelocitySpace() 1742e0eea495SMark @*/ 17438a6f2e61SMark Adams PetscErrorCode LandauCreateVelocitySpace(MPI_Comm comm, PetscInt dim, const char prefix[], Vec *X, Mat *J, DM *pack) 1744e0eea495SMark { 1745e0eea495SMark PetscErrorCode ierr; 1746e0eea495SMark LandauCtx *ctx; 1747a587d139SMark PetscBool prealloc_only,flg; 17488a6f2e61SMark Adams Vec Xsub[LANDAU_MAX_GRIDS]; 1749e0eea495SMark 1750e0eea495SMark PetscFunctionBegin; 1751e0eea495SMark if (dim!=2 && dim!=3) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_PLIB, "Only 2D and 3D supported"); 1752e8d2b73aSMark Adams ierr = PetscNew(&ctx);CHKERRQ(ierr); 1753930e68a5SMark Adams ctx->comm = comm; /* used for diagnostics and global errors */ 1754e0eea495SMark /* process options */ 1755e0eea495SMark ierr = ProcessOptions(ctx,prefix);CHKERRQ(ierr); 1756cefb98e8SMark Adams if (dim==2) ctx->use_relativistic_corrections = PETSC_FALSE; 1757e0eea495SMark /* Create Mesh */ 17588a6f2e61SMark Adams ierr = LandauDMCreateVMeshes(PETSC_COMM_SELF, dim, prefix, ctx, pack);CHKERRQ(ierr); // creates grids (Forest of AMR) 17598a6f2e61SMark Adams prealloc_only = (*pack)->prealloc_only; 17608a6f2e61SMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 1761e0eea495SMark /* create FEM */ 17628a6f2e61SMark Adams ierr = SetupDS(ctx->plex[grid],dim,grid,ctx);CHKERRQ(ierr); 1763e0eea495SMark /* set initial state */ 17648a6f2e61SMark Adams ierr = DMCreateGlobalVector(ctx->plex[grid],&Xsub[grid]);CHKERRQ(ierr); 17658a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject) Xsub[grid], "u_orig");CHKERRQ(ierr); 1766e0eea495SMark /* initial static refinement, no solve */ 17678fdabdddSMark Adams ierr = LandauSetInitialCondition(ctx->plex[grid], Xsub[grid], grid, 0, ctx);CHKERRQ(ierr); 17688a6f2e61SMark Adams /* forest refinement - forest goes in (if forest), plex comes out */ 17698a6f2e61SMark Adams if (ctx->use_p4est) { 17708a6f2e61SMark Adams DM plex; 17718a6f2e61SMark Adams ierr = adapt(grid,ctx,&Xsub[grid]);CHKERRQ(ierr); // forest goes in, plex comes out 17728a6f2e61SMark Adams if (ctx->plex[grid]->prealloc_only != prealloc_only) SETERRQ(PetscObjectComm((PetscObject)pack),PETSC_ERR_PLIB,"ctx->plex[grid]->prealloc_only != prealloc_only"); 17738a6f2e61SMark Adams ierr = DMViewFromOptions(ctx->plex[grid],NULL,"-dm_landau_amr_dm_view");CHKERRQ(ierr); // need to differentiate - todo 17748a6f2e61SMark Adams ierr = VecViewFromOptions(Xsub[grid], NULL, "-dm_landau_amr_vec_view");CHKERRQ(ierr); 17758a6f2e61SMark Adams // convert to plex, all done with this level 17768a6f2e61SMark Adams ierr = DMConvert(ctx->plex[grid], DMPLEX, &plex);CHKERRQ(ierr); 17778a6f2e61SMark Adams ierr = DMDestroy(&ctx->plex[grid]);CHKERRQ(ierr); 17788a6f2e61SMark Adams ctx->plex[grid] = plex; 1779e0eea495SMark } 17808fdabdddSMark Adams #if !defined(LANDAU_SPECIES_MAJOR) 17818a6f2e61SMark Adams ierr = DMCompositeAddDM(*pack,ctx->plex[grid]);CHKERRQ(ierr); 17828fdabdddSMark Adams #else 17838fdabdddSMark Adams for (PetscInt b_id=0;b_id<ctx->batch_sz;b_id++) { // add batch size DMs for this species grid 17848fdabdddSMark Adams ierr = DMCompositeAddDM(*pack,ctx->plex[grid]);CHKERRQ(ierr); 17858fdabdddSMark Adams } 17868fdabdddSMark Adams #endif 17878a6f2e61SMark Adams ierr = DMSetApplicationContext(ctx->plex[grid], ctx);CHKERRQ(ierr); 17888a6f2e61SMark Adams } 17898fdabdddSMark Adams #if !defined(LANDAU_SPECIES_MAJOR) 17908fdabdddSMark Adams // stack the batched DMs, could do it all here!!! b_id=0 17918fdabdddSMark Adams for (PetscInt b_id=1;b_id<ctx->batch_sz;b_id++) { 17928fdabdddSMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 17938fdabdddSMark Adams ierr = DMCompositeAddDM(*pack,ctx->plex[grid]);CHKERRQ(ierr); 17948fdabdddSMark Adams } 17958fdabdddSMark Adams } 17968fdabdddSMark Adams #endif 17978fdabdddSMark Adams // create ctx->mat_offset 17988fdabdddSMark Adams ctx->mat_offset[0] = 0; 17998fdabdddSMark Adams for (PetscInt grid=0 ; grid < ctx->num_grids ; grid++) { 18008fdabdddSMark Adams PetscInt n; 18018fdabdddSMark Adams ierr = VecGetLocalSize(Xsub[grid],&n);CHKERRQ(ierr); 18028fdabdddSMark Adams ctx->mat_offset[grid+1] = ctx->mat_offset[grid] + n; 18038fdabdddSMark Adams } 18048fdabdddSMark Adams // creat Jac 18058a6f2e61SMark Adams ierr = DMSetApplicationContext(*pack, ctx);CHKERRQ(ierr); 18068a6f2e61SMark Adams ierr = DMSetFromOptions(*pack);CHKERRQ(ierr); 18078a6f2e61SMark Adams ierr = DMCreateMatrix(*pack, &ctx->J);CHKERRQ(ierr); 1808c8a6034eSMark ierr = MatSetOption(ctx->J, MAT_IGNORE_ZERO_ENTRIES, PETSC_TRUE);CHKERRQ(ierr); 18098f7e8f9dSMark Adams ierr = MatSetOption(ctx->J, MAT_STRUCTURALLY_SYMMETRIC, PETSC_TRUE);CHKERRQ(ierr); 18108a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject)ctx->J, "Jac");CHKERRQ(ierr); 1811e0eea495SMark if (J) *J = ctx->J; 18128a6f2e61SMark Adams // construct X, copy data in 18138a6f2e61SMark Adams ierr = DMCreateGlobalVector(*pack,X);CHKERRQ(ierr); 18148fdabdddSMark Adams for (PetscInt grid=0 ; grid < ctx->num_grids ; grid++) { 18158a6f2e61SMark Adams PetscInt n; 18168a6f2e61SMark Adams ierr = VecGetLocalSize(Xsub[grid],&n);CHKERRQ(ierr); 18178fdabdddSMark Adams for (PetscInt b_id = 0 ; b_id < ctx->batch_sz ; b_id++) { 18188fdabdddSMark Adams PetscScalar const *values; 18198fdabdddSMark Adams const PetscInt moffset = LAND_MOFFSET(b_id,grid,ctx->batch_sz,ctx->num_grids,ctx->mat_offset); 18208fdabdddSMark Adams ierr = LandauSetInitialCondition(ctx->plex[grid], Xsub[grid], grid, b_id, ctx);CHKERRQ(ierr); 18218a6f2e61SMark Adams ierr = VecGetArrayRead(Xsub[grid],&values);CHKERRQ(ierr); 18228fdabdddSMark Adams for (int i=0, idx = moffset; i<n; i++, idx++) { 18238a6f2e61SMark Adams ierr = VecSetValue(*X,idx,values[i],INSERT_VALUES);CHKERRQ(ierr); 18248a6f2e61SMark Adams } 18258a6f2e61SMark Adams ierr = VecRestoreArrayRead(Xsub[grid],&values);CHKERRQ(ierr); 18268fdabdddSMark Adams } 18278fdabdddSMark Adams } 18288fdabdddSMark Adams // cleanup 18298fdabdddSMark Adams for (PetscInt grid=0 ; grid < ctx->num_grids ; grid++) { 18308a6f2e61SMark Adams ierr = VecDestroy(&Xsub[grid]);CHKERRQ(ierr); 18318a6f2e61SMark Adams } 1832a587d139SMark /* check for types that we need */ 1833a587d139SMark if (ctx->gpu_assembly) { /* we need GPU object with GPU assembly */ 1834a587d139SMark if (ctx->deviceType == LANDAU_CUDA) { 1835a587d139SMark ierr = PetscObjectTypeCompareAny((PetscObject)ctx->J,&flg,MATSEQAIJCUSPARSE,MATMPIAIJCUSPARSE,MATAIJCUSPARSE,"");CHKERRQ(ierr); 18368fdabdddSMark Adams if (!flg) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"must use '-dm_mat_type aijcusparse -dm_vec_type cuda' for GPU assembly and Cuda or use '-dm_landau_device_type cpu'"); 1837a587d139SMark } else if (ctx->deviceType == LANDAU_KOKKOS) { 1838a587d139SMark ierr = PetscObjectTypeCompareAny((PetscObject)ctx->J,&flg,MATSEQAIJKOKKOS,MATMPIAIJKOKKOS,MATAIJKOKKOS,"");CHKERRQ(ierr); 1839a587d139SMark #if defined(PETSC_HAVE_KOKKOS_KERNELS) 18408fdabdddSMark Adams if (!flg) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"must use '-dm_mat_type aijkokkos -dm_vec_type kokkos' for GPU assembly and Kokkos or use '-dm_landau_device_type cpu'"); 1841a587d139SMark #else 18428fdabdddSMark Adams if (!flg) SETERRQ(ctx->comm,PETSC_ERR_ARG_WRONG,"must configure with '--download-kokkos-kernels' for GPU assembly and Kokkos or use '-dm_landau_device_type cpu'"); 1843a587d139SMark #endif 1844a587d139SMark } 1845a587d139SMark } 1846e0eea495SMark PetscFunctionReturn(0); 1847e0eea495SMark } 1848e0eea495SMark 1849e0eea495SMark /*@ 1850e0eea495SMark LandauDestroyVelocitySpace - Destroy a DMPlex velocity space mesh 1851e0eea495SMark 1852e0eea495SMark Collective on dm 1853e0eea495SMark 1854e0eea495SMark Input/Output Parameters: 1855e0eea495SMark . dm - the dm to destroy 1856e0eea495SMark 1857e0eea495SMark Level: beginner 1858e0eea495SMark 1859e0eea495SMark .keywords: mesh 1860e0eea495SMark .seealso: LandauCreateVelocitySpace() 1861e0eea495SMark @*/ 1862e0eea495SMark PetscErrorCode LandauDestroyVelocitySpace(DM *dm) 1863e0eea495SMark { 1864e0eea495SMark PetscErrorCode ierr,ii; 1865e0eea495SMark LandauCtx *ctx; 1866e0eea495SMark PetscContainer container = NULL; 1867e0eea495SMark PetscFunctionBegin; 1868e0eea495SMark ierr = DMGetApplicationContext(*dm, &ctx);CHKERRQ(ierr); 1869e0eea495SMark ierr = PetscObjectQuery((PetscObject)ctx->J,"coloring", (PetscObject*)&container);CHKERRQ(ierr); 1870e0eea495SMark if (container) { 1871e0eea495SMark ierr = PetscContainerDestroy(&container);CHKERRQ(ierr); 1872e0eea495SMark } 1873e0eea495SMark ierr = MatDestroy(&ctx->M);CHKERRQ(ierr); 1874e0eea495SMark ierr = MatDestroy(&ctx->J);CHKERRQ(ierr); 1875e0eea495SMark for (ii=0;ii<ctx->num_species;ii++) { 1876e0eea495SMark ierr = PetscFEDestroy(&ctx->fe[ii]);CHKERRQ(ierr); 1877e0eea495SMark } 1878e8d2b73aSMark Adams if (ctx->deviceType == LANDAU_CUDA) { 1879e8d2b73aSMark Adams #if defined(PETSC_HAVE_CUDA) 18808a6f2e61SMark Adams ierr = LandauCUDAStaticDataClear(&ctx->SData_d);CHKERRQ(ierr); 1881e8d2b73aSMark Adams #else 1882e8d2b73aSMark Adams SETERRQ1(ctx->comm,PETSC_ERR_ARG_WRONG,"-landau_device_type %s not built","cuda"); 1883e8d2b73aSMark Adams #endif 1884e8d2b73aSMark Adams } else if (ctx->deviceType == LANDAU_KOKKOS) { 18858a6f2e61SMark Adams #if defined(PETSC_HAVE_KOKKOS_KERNELS) 18868a6f2e61SMark Adams ierr = LandauKokkosStaticDataClear(&ctx->SData_d);CHKERRQ(ierr); 1887e8d2b73aSMark Adams #else 1888e8d2b73aSMark Adams SETERRQ1(ctx->comm,PETSC_ERR_ARG_WRONG,"-landau_device_type %s not built","kokkos"); 1889e8d2b73aSMark Adams #endif 1890e8d2b73aSMark Adams } else { 18918a6f2e61SMark Adams if (ctx->SData_d.x) { /* in a CPU run */ 18928a6f2e61SMark Adams PetscReal *invJ = (PetscReal*)ctx->SData_d.invJ, *xx = (PetscReal*)ctx->SData_d.x, *yy = (PetscReal*)ctx->SData_d.y, *zz = (PetscReal*)ctx->SData_d.z, *ww = (PetscReal*)ctx->SData_d.w; 18938a6f2e61SMark Adams ierr = PetscFree4(ww,xx,yy,invJ);CHKERRQ(ierr); 1894e8d2b73aSMark Adams if (zz) { 1895e8d2b73aSMark Adams ierr = PetscFree(zz);CHKERRQ(ierr); 1896e8d2b73aSMark Adams } 1897e8d2b73aSMark Adams } 1898e8d2b73aSMark Adams } 18998fdabdddSMark Adams 19008fdabdddSMark Adams if (ctx->times[LANDAU_MATRIX_TOTAL] > 0) { // OMP timings 19018fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "TSStep N 1.0 %10.3e\n",ctx->times[LANDAU_EX2_TSSOLVE]);CHKERRQ(ierr); 19028fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "2: Solve: %10.3e with %D threads\n",ctx->times[LANDAU_EX2_TSSOLVE] - ctx->times[LANDAU_MATRIX_TOTAL],ctx->batch_sz);CHKERRQ(ierr); 19038fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "3: Landau: %10.3e\n",ctx->times[LANDAU_MATRIX_TOTAL]);CHKERRQ(ierr); 19048fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "Landau Jacobian %D 1.0 %10.3e\n",(PetscInt)ctx->times[LANDAU_JACOBIAN_COUNT],ctx->times[LANDAU_JACOBIAN]);CHKERRQ(ierr); 19058fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "Landau Operator N 1.0 %10.3e\n",ctx->times[LANDAU_OPERATOR]);CHKERRQ(ierr); 19068fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "Landau Mass N 1.0 %10.3e\n",ctx->times[LANDAU_MASS]);CHKERRQ(ierr); 19078fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, " Jac-f-df (GPU) N 1.0 %10.3e\n",ctx->times[LANDAU_F_DF]);CHKERRQ(ierr); 19088fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, " Kernel (GPU) N 1.0 %10.3e\n",ctx->times[LANDAU_KERNEL]);CHKERRQ(ierr); 19098fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "MatLUFactorNum X 1.0 %10.3e\n",ctx->times[KSP_FACTOR]);CHKERRQ(ierr); 19108fdabdddSMark Adams ierr = PetscPrintf(ctx->comm, "MatSolve X 1.0 %10.3e\n",ctx->times[KSP_SOLVE]);CHKERRQ(ierr); 1911e8d2b73aSMark Adams } 19128a6f2e61SMark Adams for (PetscInt grid=0 ; grid < ctx->num_grids ; grid++) { 19138a6f2e61SMark Adams ierr = DMDestroy(&ctx->plex[grid]);CHKERRQ(ierr); 191454545eeeSMark Adams } 1915e8d2b73aSMark Adams PetscFree(ctx); 1916e0eea495SMark ierr = DMDestroy(dm);CHKERRQ(ierr); 1917e0eea495SMark PetscFunctionReturn(0); 1918e0eea495SMark } 1919e0eea495SMark 1920e0eea495SMark /* < v, ru > */ 1921e0eea495SMark static void f0_s_den(PetscInt dim, PetscInt Nf, PetscInt NfAux, 1922e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 1923e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 1924e0eea495SMark PetscReal t, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar *f0) 1925e0eea495SMark { 1926e0eea495SMark PetscInt ii = (PetscInt)PetscRealPart(constants[0]); 1927e0eea495SMark f0[0] = u[ii]; 1928e0eea495SMark } 1929e0eea495SMark 1930e0eea495SMark /* < v, ru > */ 1931e0eea495SMark static void f0_s_mom(PetscInt dim, PetscInt Nf, PetscInt NfAux, 1932e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 1933e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 1934e0eea495SMark PetscReal t, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar *f0) 1935e0eea495SMark { 1936e0eea495SMark PetscInt ii = (PetscInt)PetscRealPart(constants[0]), jj = (PetscInt)PetscRealPart(constants[1]); 1937e0eea495SMark f0[0] = x[jj]*u[ii]; /* x momentum */ 1938e0eea495SMark } 1939e0eea495SMark 1940e0eea495SMark static void f0_s_v2(PetscInt dim, PetscInt Nf, PetscInt NfAux, 1941e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 1942e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 1943e0eea495SMark PetscReal t, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar *f0) 1944e0eea495SMark { 1945e0eea495SMark PetscInt i, ii = (PetscInt)PetscRealPart(constants[0]); 1946e0eea495SMark double tmp1 = 0.; 1947e0eea495SMark for (i = 0; i < dim; ++i) tmp1 += x[i]*x[i]; 1948e0eea495SMark f0[0] = tmp1*u[ii]; 1949e0eea495SMark } 1950e0eea495SMark 1951cefb98e8SMark Adams static PetscErrorCode gamma_n_f(PetscInt dim, PetscReal time, const PetscReal x[], PetscInt Nf, PetscScalar *u, void *actx) 1952cefb98e8SMark Adams { 1953cefb98e8SMark Adams const PetscReal *c2_0_arr = ((PetscReal*)actx); 1954cefb98e8SMark Adams const PetscReal c02 = c2_0_arr[0]; 1955cefb98e8SMark Adams 1956cefb98e8SMark Adams PetscFunctionBegin; 1957cefb98e8SMark Adams for (int s = 0 ; s < Nf ; s++) { 1958cefb98e8SMark Adams PetscReal tmp1 = 0.; 1959cefb98e8SMark Adams for (int i = 0; i < dim; ++i) tmp1 += x[i]*x[i]; 1960cefb98e8SMark Adams #if defined(PETSC_USE_DEBUG) 1961cefb98e8SMark Adams u[s] = PetscSqrtReal(1. + tmp1/c02);// u[0] = PetscSqrtReal(1. + xx); 1962cefb98e8SMark Adams #else 1963cefb98e8SMark Adams { 1964cefb98e8SMark Adams PetscReal xx = tmp1/c02; 1965cefb98e8SMark Adams u[s] = xx/(PetscSqrtReal(1. + xx) + 1.); // better conditioned = xx/(PetscSqrtReal(1. + xx) + 1.) 1966cefb98e8SMark Adams } 1967cefb98e8SMark Adams #endif 1968cefb98e8SMark Adams } 1969cefb98e8SMark Adams PetscFunctionReturn(0); 1970cefb98e8SMark Adams } 1971cefb98e8SMark Adams 1972e0eea495SMark /* < v, ru > */ 1973e0eea495SMark static void f0_s_rden(PetscInt dim, PetscInt Nf, PetscInt NfAux, 1974e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 1975e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 1976e0eea495SMark PetscReal t, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar *f0) 1977e0eea495SMark { 1978e0eea495SMark PetscInt ii = (PetscInt)PetscRealPart(constants[0]); 1979e0eea495SMark f0[0] = 2.*PETSC_PI*x[0]*u[ii]; 1980e0eea495SMark } 1981e0eea495SMark 1982e0eea495SMark /* < v, ru > */ 1983e0eea495SMark static void f0_s_rmom(PetscInt dim, PetscInt Nf, PetscInt NfAux, 1984e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 1985e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 1986e0eea495SMark PetscReal t, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar *f0) 1987e0eea495SMark { 1988e0eea495SMark PetscInt ii = (PetscInt)PetscRealPart(constants[0]); 1989e0eea495SMark f0[0] = 2.*PETSC_PI*x[0]*x[1]*u[ii]; 1990e0eea495SMark } 1991e0eea495SMark 1992e0eea495SMark static void f0_s_rv2(PetscInt dim, PetscInt Nf, PetscInt NfAux, 1993e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 1994e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 1995e0eea495SMark PetscReal t, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar *f0) 1996e0eea495SMark { 1997e0eea495SMark PetscInt ii = (PetscInt)PetscRealPart(constants[0]); 1998e0eea495SMark f0[0] = 2.*PETSC_PI*x[0]*(x[0]*x[0] + x[1]*x[1])*u[ii]; 1999e0eea495SMark } 2000e0eea495SMark 2001e0eea495SMark /*@ 2002e0eea495SMark LandauPrintNorms - collects moments and prints them 2003e0eea495SMark 2004e0eea495SMark Collective on dm 2005e0eea495SMark 2006e0eea495SMark Input Parameters: 2007e0eea495SMark + X - the state 20080045b13dSSatish Balay - stepi - current step to print 2009e0eea495SMark 2010e0eea495SMark Level: beginner 2011e0eea495SMark 2012e0eea495SMark .keywords: mesh 2013e0eea495SMark .seealso: LandauCreateVelocitySpace() 2014e0eea495SMark @*/ 2015e0eea495SMark PetscErrorCode LandauPrintNorms(Vec X, PetscInt stepi) 2016e0eea495SMark { 2017e0eea495SMark PetscErrorCode ierr; 2018e0eea495SMark LandauCtx *ctx; 2019e0eea495SMark PetscDS prob; 20208a6f2e61SMark Adams DM pack; 2021*f37ccb5fSMark Adams PetscInt cStart, cEnd, dim, ii, i0, nDMs; 2022e0eea495SMark PetscScalar xmomentumtot=0, ymomentumtot=0, zmomentumtot=0, energytot=0, densitytot=0, tt[LANDAU_MAX_SPECIES]; 2023e0eea495SMark PetscScalar xmomentum[LANDAU_MAX_SPECIES], ymomentum[LANDAU_MAX_SPECIES], zmomentum[LANDAU_MAX_SPECIES], energy[LANDAU_MAX_SPECIES], density[LANDAU_MAX_SPECIES]; 2024*f37ccb5fSMark Adams Vec *globXArray; 2025e0eea495SMark 2026e0eea495SMark PetscFunctionBegin; 20278a6f2e61SMark Adams ierr = VecGetDM(X, &pack);CHKERRQ(ierr); 20288a6f2e61SMark Adams if (!pack) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_PLIB, "Vector has no DM"); 20298a6f2e61SMark Adams ierr = DMGetDimension(pack, &dim);CHKERRQ(ierr); 20308a6f2e61SMark Adams if (dim!=2 && dim!=3) SETERRQ1(PETSC_COMM_SELF, PETSC_ERR_PLIB, "dim= %D",dim); 20318a6f2e61SMark Adams ierr = DMGetApplicationContext(pack, &ctx);CHKERRQ(ierr); 2032e0eea495SMark if (!ctx) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_PLIB, "no context"); 2033e0eea495SMark /* print momentum and energy */ 2034*f37ccb5fSMark Adams ierr = DMCompositeGetNumberDM(pack,&nDMs);CHKERRQ(ierr); 2035*f37ccb5fSMark Adams if (nDMs != ctx->num_grids*ctx->batch_sz) SETERRQ2(PETSC_COMM_WORLD, PETSC_ERR_PLIB, "#DM wrong %D %D",nDMs,ctx->num_grids*ctx->batch_sz); 2036*f37ccb5fSMark Adams ierr = PetscMalloc(sizeof(*globXArray)*nDMs, &globXArray);CHKERRQ(ierr); 2037*f37ccb5fSMark Adams ierr = DMCompositeGetAccessArray(pack, X, nDMs, NULL, globXArray);CHKERRQ(ierr); 20388a6f2e61SMark Adams for (PetscInt grid = 0; grid < ctx->num_grids ; grid++) { 20398fdabdddSMark Adams Vec Xloc = globXArray[ LAND_PACK_IDX(ctx->batch_view_idx,grid) ]; 20408a6f2e61SMark Adams ierr = DMGetDS(ctx->plex[grid], &prob);CHKERRQ(ierr); 20418a6f2e61SMark Adams for (ii=ctx->species_offset[grid],i0=0;ii<ctx->species_offset[grid+1];ii++,i0++) { 20428a6f2e61SMark Adams PetscScalar user[2] = { (PetscScalar)i0, (PetscScalar)ctx->charges[ii]}; 2043e0eea495SMark ierr = PetscDSSetConstants(prob, 2, user);CHKERRQ(ierr); 2044e0eea495SMark if (dim==2) { /* 2/3X + 3V (cylindrical coordinates) */ 2045e0eea495SMark ierr = PetscDSSetObjective(prob, 0, &f0_s_rden);CHKERRQ(ierr); 20468a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2047e0eea495SMark density[ii] = tt[0]*ctx->n_0*ctx->charges[ii]; 2048e0eea495SMark ierr = PetscDSSetObjective(prob, 0, &f0_s_rmom);CHKERRQ(ierr); 20498a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2050e0eea495SMark zmomentum[ii] = tt[0]*ctx->n_0*ctx->v_0*ctx->masses[ii]; 2051e0eea495SMark ierr = PetscDSSetObjective(prob, 0, &f0_s_rv2);CHKERRQ(ierr); 20528a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2053e0eea495SMark energy[ii] = tt[0]*0.5*ctx->n_0*ctx->v_0*ctx->v_0*ctx->masses[ii]; 2054e0eea495SMark zmomentumtot += zmomentum[ii]; 2055e0eea495SMark energytot += energy[ii]; 2056e0eea495SMark densitytot += density[ii]; 2057930e68a5SMark Adams ierr = PetscPrintf(ctx->comm, "%3D) species-%D: charge density= %20.13e z-momentum= %20.13e energy= %20.13e",stepi,ii,PetscRealPart(density[ii]),PetscRealPart(zmomentum[ii]),PetscRealPart(energy[ii]));CHKERRQ(ierr); 20588a6f2e61SMark Adams } else { /* 2/3Xloc + 3V */ 2059e0eea495SMark ierr = PetscDSSetObjective(prob, 0, &f0_s_den);CHKERRQ(ierr); 20608a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2061e0eea495SMark density[ii] = tt[0]*ctx->n_0*ctx->charges[ii]; 2062e0eea495SMark ierr = PetscDSSetObjective(prob, 0, &f0_s_mom);CHKERRQ(ierr); 2063e0eea495SMark user[1] = 0; 2064cefb98e8SMark Adams ierr = PetscDSSetConstants(prob, 2, user);CHKERRQ(ierr); 20658a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2066e0eea495SMark xmomentum[ii] = tt[0]*ctx->n_0*ctx->v_0*ctx->masses[ii]; 2067e0eea495SMark user[1] = 1; 2068cefb98e8SMark Adams ierr = PetscDSSetConstants(prob, 2, user);CHKERRQ(ierr); 20698a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2070e0eea495SMark ymomentum[ii] = tt[0]*ctx->n_0*ctx->v_0*ctx->masses[ii]; 2071e0eea495SMark user[1] = 2; 2072cefb98e8SMark Adams ierr = PetscDSSetConstants(prob, 2, user);CHKERRQ(ierr); 20738a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2074e0eea495SMark zmomentum[ii] = tt[0]*ctx->n_0*ctx->v_0*ctx->masses[ii]; 2075cefb98e8SMark Adams if (ctx->use_relativistic_corrections) { 20768a6f2e61SMark Adams /* gamma * M * f */ 20778a6f2e61SMark Adams if (ii==0 && grid==0) { // do all at once 2078*f37ccb5fSMark Adams Vec Mf, globGamma, *globMfArray, *globGammaArray; 2079cefb98e8SMark Adams PetscErrorCode (*gammaf[1])(PetscInt, PetscReal, const PetscReal [], PetscInt, PetscScalar [], void *) = {gamma_n_f}; 2080cefb98e8SMark Adams PetscReal *c2_0[1], data[1]; 2081cefb98e8SMark Adams 20828a6f2e61SMark Adams ierr = VecDuplicate(X,&globGamma);CHKERRQ(ierr); 20838a6f2e61SMark Adams ierr = VecDuplicate(X,&Mf);CHKERRQ(ierr); 2084*f37ccb5fSMark Adams ierr = PetscMalloc(sizeof(*globMfArray)*nDMs, &globMfArray);CHKERRQ(ierr); 2085*f37ccb5fSMark Adams ierr = PetscMalloc(sizeof(*globMfArray)*nDMs, &globGammaArray);CHKERRQ(ierr); 20868a6f2e61SMark Adams /* M * f */ 2087cefb98e8SMark Adams ierr = MatMult(ctx->M,X,Mf);CHKERRQ(ierr); 20888a6f2e61SMark Adams /* gamma */ 2089*f37ccb5fSMark Adams ierr = DMCompositeGetAccessArray(pack, globGamma, nDMs, NULL, globGammaArray);CHKERRQ(ierr); 20908fdabdddSMark Adams for (PetscInt grid = 0; grid < ctx->num_grids ; grid++) { // yes a grid loop in a grid loop to print nice, need to fix for batching 20918fdabdddSMark Adams Vec v1 = globGammaArray[ LAND_PACK_IDX(ctx->batch_view_idx,grid) ]; 20928a6f2e61SMark Adams data[0] = PetscSqr(C_0(ctx->v_0)); 20938a6f2e61SMark Adams c2_0[0] = &data[0]; 20948a6f2e61SMark Adams ierr = DMProjectFunction(ctx->plex[grid], 0., gammaf, (void**)c2_0, INSERT_ALL_VALUES, v1);CHKERRQ(ierr); 2095cefb98e8SMark Adams } 2096*f37ccb5fSMark Adams ierr = DMCompositeRestoreAccessArray(pack, globGamma, nDMs, NULL, globGammaArray);CHKERRQ(ierr); 20978a6f2e61SMark Adams /* gamma * Mf */ 2098*f37ccb5fSMark Adams ierr = DMCompositeGetAccessArray(pack, globGamma, nDMs, NULL, globGammaArray);CHKERRQ(ierr); 2099*f37ccb5fSMark Adams ierr = DMCompositeGetAccessArray(pack, Mf, nDMs, NULL, globMfArray);CHKERRQ(ierr); 21008a6f2e61SMark Adams for (PetscInt grid = 0; grid < ctx->num_grids ; grid++) { // yes a grid loop in a grid loop to print nice 21018a6f2e61SMark Adams PetscInt Nf = ctx->species_offset[grid+1] - ctx->species_offset[grid], N, bs; 21028fdabdddSMark Adams Vec Mfsub = globMfArray[ LAND_PACK_IDX(ctx->batch_view_idx,grid) ], Gsub = globGammaArray[ LAND_PACK_IDX(ctx->batch_view_idx,grid) ], v1, v2; 21038a6f2e61SMark Adams // get each component 21048a6f2e61SMark Adams ierr = VecGetSize(Mfsub,&N);CHKERRQ(ierr); 21058a6f2e61SMark Adams ierr = VecCreate(ctx->comm,&v1);CHKERRQ(ierr); 21068a6f2e61SMark Adams ierr = VecSetSizes(v1,PETSC_DECIDE,N/Nf);CHKERRQ(ierr); 21078a6f2e61SMark Adams ierr = VecCreate(ctx->comm,&v2);CHKERRQ(ierr); 21088a6f2e61SMark Adams ierr = VecSetSizes(v2,PETSC_DECIDE,N/Nf);CHKERRQ(ierr); 21098a6f2e61SMark Adams ierr = VecSetFromOptions(v1);CHKERRQ(ierr); // ??? 21108a6f2e61SMark Adams ierr = VecSetFromOptions(v2);CHKERRQ(ierr); 21118a6f2e61SMark Adams // get each component 21128a6f2e61SMark Adams ierr = VecGetBlockSize(Gsub,&bs);CHKERRQ(ierr); 21138a6f2e61SMark Adams if (bs != Nf) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_PLIB, "bs %D != num_species %D in Gsub",bs,Nf); 21148a6f2e61SMark Adams ierr = VecGetBlockSize(Mfsub,&bs);CHKERRQ(ierr); 21158a6f2e61SMark Adams if (bs != Nf) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_PLIB, "bs %D != num_species %D",bs,Nf); 21168a6f2e61SMark Adams for (int i=0, ix=ctx->species_offset[grid] ; i<Nf ; i++, ix++) { 21178a6f2e61SMark Adams PetscScalar val; 21188a6f2e61SMark Adams ierr = VecStrideGather(Gsub,i,v1,INSERT_VALUES);CHKERRQ(ierr); 21198a6f2e61SMark Adams ierr = VecStrideGather(Mfsub,i,v2,INSERT_VALUES);CHKERRQ(ierr); 21208a6f2e61SMark Adams ierr = VecDot(v1,v2,&val);CHKERRQ(ierr); 21218a6f2e61SMark Adams energy[ix] = PetscRealPart(val)*ctx->n_0*ctx->v_0*ctx->v_0*ctx->masses[ix]; 21228a6f2e61SMark Adams } 2123cefb98e8SMark Adams ierr = VecDestroy(&v1);CHKERRQ(ierr); 2124cefb98e8SMark Adams ierr = VecDestroy(&v2);CHKERRQ(ierr); 21258a6f2e61SMark Adams } /* grids */ 2126*f37ccb5fSMark Adams ierr = DMCompositeRestoreAccessArray(pack, globGamma, nDMs, NULL, globGammaArray);CHKERRQ(ierr); 2127*f37ccb5fSMark Adams ierr = DMCompositeRestoreAccessArray(pack, Mf, nDMs, NULL, globMfArray);CHKERRQ(ierr); 2128*f37ccb5fSMark Adams ierr = PetscFree(globGammaArray);CHKERRQ(ierr); 2129*f37ccb5fSMark Adams ierr = PetscFree(globMfArray);CHKERRQ(ierr); 21308a6f2e61SMark Adams ierr = VecDestroy(&globGamma);CHKERRQ(ierr); 21318a6f2e61SMark Adams ierr = VecDestroy(&Mf);CHKERRQ(ierr); 2132cefb98e8SMark Adams } 2133cefb98e8SMark Adams } else { 2134e0eea495SMark ierr = PetscDSSetObjective(prob, 0, &f0_s_v2);CHKERRQ(ierr); 21358a6f2e61SMark Adams ierr = DMPlexComputeIntegralFEM(ctx->plex[grid],Xloc,tt,ctx);CHKERRQ(ierr); 2136e0eea495SMark energy[ii] = 0.5*tt[0]*ctx->n_0*ctx->v_0*ctx->v_0*ctx->masses[ii]; 2137cefb98e8SMark Adams } 2138930e68a5SMark Adams ierr = PetscPrintf( ctx->comm, "%3D) species %D: density=%20.13e, x-momentum=%20.13e, y-momentum=%20.13e, z-momentum=%20.13e, energy=%21.13e", 2139c8913f0eSSatish Balay stepi,ii,PetscRealPart(density[ii]),PetscRealPart(xmomentum[ii]),PetscRealPart(ymomentum[ii]),PetscRealPart(zmomentum[ii]),PetscRealPart(energy[ii]));CHKERRQ(ierr); 2140e0eea495SMark xmomentumtot += xmomentum[ii]; 2141e0eea495SMark ymomentumtot += ymomentum[ii]; 2142e0eea495SMark zmomentumtot += zmomentum[ii]; 2143e0eea495SMark energytot += energy[ii]; 2144e0eea495SMark densitytot += density[ii]; 2145e0eea495SMark } 2146930e68a5SMark Adams if (ctx->num_species>1) PetscPrintf(ctx->comm, "\n"); 2147e0eea495SMark } 21488a6f2e61SMark Adams } 2149*f37ccb5fSMark Adams ierr = DMCompositeRestoreAccessArray(pack, X, nDMs, NULL, globXArray);CHKERRQ(ierr); 2150*f37ccb5fSMark Adams ierr = PetscFree(globXArray);CHKERRQ(ierr); 2151e0eea495SMark /* totals */ 21528a6f2e61SMark Adams ierr = DMPlexGetHeightStratum(ctx->plex[0],0,&cStart,&cEnd);CHKERRQ(ierr); 2153e0eea495SMark if (ctx->num_species>1) { 2154e0eea495SMark if (dim==2) { 21558a6f2e61SMark Adams ierr = PetscPrintf(ctx->comm, "\t%3D) Total: charge density=%21.13e, momentum=%21.13e, energy=%21.13e (m_i[0]/m_e = %g, %D cells on electron grid)", 2156930e68a5SMark Adams stepi,(double)PetscRealPart(densitytot),(double)PetscRealPart(zmomentumtot),(double)PetscRealPart(energytot),(double)(ctx->masses[1]/ctx->masses[0]),cEnd-cStart);CHKERRQ(ierr); 2157e0eea495SMark } else { 2158930e68a5SMark Adams ierr = PetscPrintf(ctx->comm, "\t%3D) Total: charge density=%21.13e, x-momentum=%21.13e, y-momentum=%21.13e, z-momentum=%21.13e, energy=%21.13e (m_i[0]/m_e = %g, %D cells)", 2159930e68a5SMark Adams stepi,(double)PetscRealPart(densitytot),(double)PetscRealPart(xmomentumtot),(double)PetscRealPart(ymomentumtot),(double)PetscRealPart(zmomentumtot),(double)PetscRealPart(energytot),(double)(ctx->masses[1]/ctx->masses[0]),cEnd-cStart);CHKERRQ(ierr); 2160e0eea495SMark } 2161e0eea495SMark } else { 2162930e68a5SMark Adams ierr = PetscPrintf(ctx->comm, " -- %D cells",cEnd-cStart);CHKERRQ(ierr); 2163e0eea495SMark } 2164930e68a5SMark Adams if (ctx->verbose > 1) {ierr = PetscPrintf(ctx->comm,", %D sub (vector) threads\n",ctx->subThreadBlockSize);CHKERRQ(ierr);} 2165930e68a5SMark Adams else {ierr = PetscPrintf(ctx->comm,"\n");CHKERRQ(ierr);} 2166e0eea495SMark PetscFunctionReturn(0); 2167e0eea495SMark } 2168e0eea495SMark 21698fdabdddSMark Adams // remove these 3 methods!!!!!!!!!!! 2170e0eea495SMark static PetscErrorCode destroy_coloring (void *is) 2171e0eea495SMark { 2172e0eea495SMark ISColoring tmp = (ISColoring)is; 2173e0eea495SMark return ISColoringDestroy(&tmp); 2174e0eea495SMark } 2175e0eea495SMark 2176e0eea495SMark /*@ 2177e0eea495SMark LandauCreateColoring - create a coloring and add to matrix (Landau context used just for 'print' flag, should be in DMPlex) 2178e0eea495SMark 2179e0eea495SMark Collective on JacP 2180e0eea495SMark 2181e0eea495SMark Input Parameters: 2182e0eea495SMark + JacP - matrix to add coloring to 21830045b13dSSatish Balay - plex - The DM 2184e0eea495SMark 2185e0eea495SMark Output Parameter: 2186e0eea495SMark . container - Container with coloring 2187e0eea495SMark 2188e0eea495SMark Level: beginner 2189e0eea495SMark 2190e0eea495SMark .keywords: mesh 2191e0eea495SMark .seealso: LandauCreateVelocitySpace() 2192e0eea495SMark @*/ 2193e0eea495SMark PetscErrorCode LandauCreateColoring(Mat JacP, DM plex, PetscContainer *container) 2194e0eea495SMark { 2195e0eea495SMark PetscErrorCode ierr; 2196e0eea495SMark PetscInt dim,cell,i,ej,nc,Nv,totDim,numGCells,cStart,cEnd; 2197e0eea495SMark ISColoring iscoloring = NULL; 2198e0eea495SMark Mat G,Q; 2199e0eea495SMark PetscScalar ones[128]; 2200e0eea495SMark MatColoring mc; 2201e0eea495SMark IS *is; 2202e0eea495SMark PetscInt csize,colour,j,k; 2203e0eea495SMark const PetscInt *indices; 2204e0eea495SMark PetscInt numComp[1]; 2205e0eea495SMark PetscInt numDof[4]; 2206e0eea495SMark PetscFE fe; 2207e0eea495SMark DM colordm; 2208e0eea495SMark PetscSection csection, section, globalSection; 2209e0eea495SMark PetscDS prob; 2210e0eea495SMark LandauCtx *ctx; 2211e0eea495SMark 2212e0eea495SMark PetscFunctionBegin; 2213e0eea495SMark ierr = DMGetApplicationContext(plex, &ctx);CHKERRQ(ierr); 2214e0eea495SMark ierr = DMGetLocalSection(plex, §ion);CHKERRQ(ierr); 2215e0eea495SMark ierr = DMGetGlobalSection(plex, &globalSection);CHKERRQ(ierr); 2216e0eea495SMark ierr = DMGetDimension(plex, &dim);CHKERRQ(ierr); 2217e0eea495SMark ierr = DMGetDS(plex, &prob);CHKERRQ(ierr); 2218e0eea495SMark ierr = PetscDSGetTotalDimension(prob, &totDim);CHKERRQ(ierr); 2219e0eea495SMark ierr = DMPlexGetHeightStratum(plex,0,&cStart,&cEnd);CHKERRQ(ierr); 2220e0eea495SMark numGCells = cEnd - cStart; 2221e0eea495SMark /* create cell centered DM */ 2222e0eea495SMark ierr = DMClone(plex, &colordm);CHKERRQ(ierr); 2223cefb98e8SMark Adams ierr = PetscFECreateDefault(PETSC_COMM_SELF, dim, 1, PETSC_FALSE, "color_", PETSC_DECIDE, &fe);CHKERRQ(ierr); 2224e0eea495SMark ierr = PetscObjectSetName((PetscObject) fe, "color");CHKERRQ(ierr); 2225e0eea495SMark ierr = DMSetField(colordm, 0, NULL, (PetscObject)fe);CHKERRQ(ierr); 2226e0eea495SMark ierr = PetscFEDestroy(&fe);CHKERRQ(ierr); 2227e0eea495SMark for (i = 0; i < (dim+1); ++i) numDof[i] = 0; 2228e0eea495SMark numDof[dim] = 1; 2229e0eea495SMark numComp[0] = 1; 2230e0eea495SMark ierr = DMPlexCreateSection(colordm, NULL, numComp, numDof, 0, NULL, NULL, NULL, NULL, &csection);CHKERRQ(ierr); 2231e0eea495SMark ierr = PetscSectionSetFieldName(csection, 0, "color");CHKERRQ(ierr); 2232e0eea495SMark ierr = DMSetLocalSection(colordm, csection);CHKERRQ(ierr); 2233e0eea495SMark ierr = DMViewFromOptions(colordm,NULL,"-color_dm_view");CHKERRQ(ierr); 2234e0eea495SMark /* get vertex to element map Q and colroing graph G */ 2235e0eea495SMark ierr = MatGetSize(JacP,NULL,&Nv);CHKERRQ(ierr); 2236e0eea495SMark ierr = MatCreateAIJ(PETSC_COMM_SELF,PETSC_DECIDE,PETSC_DECIDE,numGCells,Nv,totDim,NULL,0,NULL,&Q);CHKERRQ(ierr); 2237e0eea495SMark for (i=0;i<128;i++) ones[i] = 1.0; 2238e0eea495SMark for (cell = cStart, ej = 0 ; cell < cEnd; ++cell, ++ej) { 2239e0eea495SMark PetscInt numindices,*indices; 2240e0eea495SMark ierr = DMPlexGetClosureIndices(plex, section, globalSection, cell, PETSC_TRUE, &numindices, &indices, NULL, NULL);CHKERRQ(ierr); 2241e0eea495SMark if (numindices>128) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_PLIB, "too many indices. %D > %D",numindices,128); 2242e0eea495SMark ierr = MatSetValues(Q,1,&ej,numindices,indices,ones,ADD_VALUES);CHKERRQ(ierr); 2243e0eea495SMark ierr = DMPlexRestoreClosureIndices(plex, section, globalSection, cell, PETSC_TRUE, &numindices, &indices, NULL, NULL);CHKERRQ(ierr); 2244e0eea495SMark } 2245e0eea495SMark ierr = MatAssemblyBegin(Q, MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 2246e0eea495SMark ierr = MatAssemblyEnd(Q, MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 2247e0eea495SMark ierr = MatMatTransposeMult(Q,Q,MAT_INITIAL_MATRIX,4.0,&G);CHKERRQ(ierr); 2248e0eea495SMark ierr = PetscObjectSetName((PetscObject) Q, "Q");CHKERRQ(ierr); 2249e0eea495SMark ierr = PetscObjectSetName((PetscObject) G, "coloring graph");CHKERRQ(ierr); 2250e0eea495SMark ierr = MatViewFromOptions(G,NULL,"-coloring_mat_view");CHKERRQ(ierr); 2251e0eea495SMark ierr = MatViewFromOptions(Q,NULL,"-coloring_mat_view");CHKERRQ(ierr); 2252e0eea495SMark ierr = MatDestroy(&Q);CHKERRQ(ierr); 2253e0eea495SMark /* coloring */ 2254e0eea495SMark ierr = MatColoringCreate(G,&mc);CHKERRQ(ierr); 2255e0eea495SMark ierr = MatColoringSetDistance(mc,1);CHKERRQ(ierr); 2256e0eea495SMark ierr = MatColoringSetType(mc,MATCOLORINGJP);CHKERRQ(ierr); 2257e0eea495SMark ierr = MatColoringSetFromOptions(mc);CHKERRQ(ierr); 2258e0eea495SMark ierr = MatColoringApply(mc,&iscoloring);CHKERRQ(ierr); 2259e0eea495SMark ierr = MatColoringDestroy(&mc);CHKERRQ(ierr); 2260e0eea495SMark /* view */ 2261e0eea495SMark ierr = ISColoringViewFromOptions(iscoloring,NULL,"-coloring_is_view");CHKERRQ(ierr); 2262e0eea495SMark ierr = ISColoringGetIS(iscoloring,PETSC_USE_POINTER,&nc,&is);CHKERRQ(ierr); 2263930e68a5SMark Adams if (ctx && ctx->verbose > 2) { 2264e0eea495SMark PetscViewer viewer; 2265e0eea495SMark Vec color_vec, eidx_vec; 2266e0eea495SMark ierr = DMGetGlobalVector(colordm, &color_vec);CHKERRQ(ierr); 2267e0eea495SMark ierr = DMGetGlobalVector(colordm, &eidx_vec);CHKERRQ(ierr); 2268e0eea495SMark for (colour=0; colour<nc; colour++) { 2269e0eea495SMark ierr = ISGetLocalSize(is[colour],&csize);CHKERRQ(ierr); 2270e0eea495SMark ierr = ISGetIndices(is[colour],&indices);CHKERRQ(ierr); 2271e0eea495SMark for (j=0; j<csize; j++) { 2272e0eea495SMark PetscScalar v = (PetscScalar)colour; 2273e0eea495SMark k = indices[j]; 22741e1ea65dSPierre Jolivet ierr = VecSetValues(color_vec,1,&k,&v,INSERT_VALUES);CHKERRQ(ierr); 2275e0eea495SMark v = (PetscScalar)k; 22761e1ea65dSPierre Jolivet ierr = VecSetValues(eidx_vec,1,&k,&v,INSERT_VALUES);CHKERRQ(ierr); 2277e0eea495SMark } 2278e0eea495SMark ierr = ISRestoreIndices(is[colour],&indices);CHKERRQ(ierr); 2279e0eea495SMark } 2280e0eea495SMark /* view */ 2281930e68a5SMark Adams ierr = PetscViewerVTKOpen(ctx->comm, "color.vtu", FILE_MODE_WRITE, &viewer);CHKERRQ(ierr); 2282e0eea495SMark ierr = PetscObjectSetName((PetscObject) color_vec, "color");CHKERRQ(ierr); 2283e0eea495SMark ierr = VecView(color_vec, viewer);CHKERRQ(ierr); 2284e0eea495SMark ierr = PetscViewerDestroy(&viewer);CHKERRQ(ierr); 2285930e68a5SMark Adams ierr = PetscViewerVTKOpen(ctx->comm, "eidx.vtu", FILE_MODE_WRITE, &viewer);CHKERRQ(ierr); 2286e0eea495SMark ierr = PetscObjectSetName((PetscObject) eidx_vec, "element-idx");CHKERRQ(ierr); 2287e0eea495SMark ierr = VecView(eidx_vec, viewer);CHKERRQ(ierr); 2288e0eea495SMark ierr = PetscViewerDestroy(&viewer);CHKERRQ(ierr); 2289e0eea495SMark ierr = DMRestoreGlobalVector(colordm, &color_vec);CHKERRQ(ierr); 2290e0eea495SMark ierr = DMRestoreGlobalVector(colordm, &eidx_vec);CHKERRQ(ierr); 2291e0eea495SMark } 2292e0eea495SMark ierr = PetscSectionDestroy(&csection);CHKERRQ(ierr); 2293e0eea495SMark ierr = DMDestroy(&colordm);CHKERRQ(ierr); 2294e0eea495SMark ierr = ISColoringRestoreIS(iscoloring,PETSC_USE_POINTER,&is);CHKERRQ(ierr); 2295e0eea495SMark ierr = MatDestroy(&G);CHKERRQ(ierr); 2296e0eea495SMark /* stash coloring */ 2297e0eea495SMark ierr = PetscContainerCreate(PETSC_COMM_SELF, container);CHKERRQ(ierr); 2298e0eea495SMark ierr = PetscContainerSetPointer(*container,(void*)iscoloring);CHKERRQ(ierr); 2299e0eea495SMark ierr = PetscContainerSetUserDestroy(*container, destroy_coloring);CHKERRQ(ierr); 2300e0eea495SMark ierr = PetscObjectCompose((PetscObject)JacP,"coloring",(PetscObject)*container);CHKERRQ(ierr); 2301e0eea495SMark if (ctx && ctx->verbose > 0) { 2302930e68a5SMark Adams ierr = PetscPrintf(ctx->comm, "Made coloring with %D colors\n", nc);CHKERRQ(ierr); 2303e0eea495SMark } 2304e0eea495SMark PetscFunctionReturn(0); 2305e0eea495SMark } 2306e0eea495SMark 2307e0eea495SMark PetscErrorCode LandauAssembleOpenMP(PetscInt cStart, PetscInt cEnd, PetscInt totDim, DM plex, PetscSection section, PetscSection globalSection, Mat JacP, PetscScalar elemMats[], PetscContainer container) 2308e0eea495SMark { 2309e0eea495SMark PetscErrorCode ierr; 2310e0eea495SMark IS *is; 2311e0eea495SMark PetscInt nc,colour,j; 2312e0eea495SMark const PetscInt *clr_idxs; 2313e0eea495SMark ISColoring iscoloring; 2314e0eea495SMark PetscFunctionBegin; 2315e0eea495SMark ierr = PetscContainerGetPointer(container,(void**)&iscoloring);CHKERRQ(ierr); 2316e0eea495SMark ierr = ISColoringGetIS(iscoloring,PETSC_USE_POINTER,&nc,&is);CHKERRQ(ierr); 2317e0eea495SMark for (colour=0; colour<nc; colour++) { 2318e0eea495SMark PetscInt *idx_arr[1024]; /* need to make dynamic for general use */ 2319e0eea495SMark PetscScalar *new_el_mats[1024]; 2320e0eea495SMark PetscInt idx_size[1024],csize; 2321e0eea495SMark ierr = ISGetLocalSize(is[colour],&csize);CHKERRQ(ierr); 2322e0eea495SMark if (csize>1024) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_PLIB, "too many elements in color. %D > %D",csize,1024); 2323e0eea495SMark ierr = ISGetIndices(is[colour],&clr_idxs);CHKERRQ(ierr); 2324e0eea495SMark /* get indices and mats */ 2325e0eea495SMark for (j=0; j<csize; j++) { 2326e0eea495SMark PetscInt cell = cStart + clr_idxs[j]; 2327e0eea495SMark PetscInt numindices,*indices; 2328e0eea495SMark PetscScalar *elMat = &elemMats[clr_idxs[j]*totDim*totDim]; 2329e0eea495SMark PetscScalar *valuesOrig = elMat; 2330e0eea495SMark ierr = DMPlexGetClosureIndices(plex, section, globalSection, cell, PETSC_TRUE, &numindices, &indices, NULL, (PetscScalar **) &elMat);CHKERRQ(ierr); 2331e0eea495SMark idx_size[j] = numindices; 2332e0eea495SMark ierr = PetscMalloc2(numindices,&idx_arr[j],numindices*numindices,&new_el_mats[j]);CHKERRQ(ierr); 23338a6f2e61SMark Adams ierr = PetscMemcpy(idx_arr[j],indices,numindices*sizeof(*idx_arr[j]));CHKERRQ(ierr); 23348a6f2e61SMark Adams ierr = PetscMemcpy(new_el_mats[j],elMat,numindices*numindices*sizeof(*new_el_mats[j]));CHKERRQ(ierr); 2335e0eea495SMark ierr = DMPlexRestoreClosureIndices(plex, section, globalSection, cell, PETSC_TRUE, &numindices, &indices, NULL, (PetscScalar **) &elMat);CHKERRQ(ierr); 23361e1ea65dSPierre Jolivet if (elMat != valuesOrig) {ierr = DMRestoreWorkArray(plex, numindices*numindices, MPIU_SCALAR, &elMat);CHKERRQ(ierr);} 2337e0eea495SMark } 2338e8d2b73aSMark Adams /* assemble matrix */ 2339e0eea495SMark for (j=0; j<csize; j++) { 2340e0eea495SMark PetscInt numindices = idx_size[j], *indices = idx_arr[j]; 2341e0eea495SMark PetscScalar *elMat = new_el_mats[j]; 2342e0eea495SMark MatSetValues(JacP,numindices,indices,numindices,indices,elMat,ADD_VALUES); 2343e0eea495SMark } 2344e0eea495SMark /* free */ 2345e0eea495SMark ierr = ISRestoreIndices(is[colour],&clr_idxs);CHKERRQ(ierr); 2346e0eea495SMark for (j=0; j<csize; j++) { 2347e0eea495SMark ierr = PetscFree2(idx_arr[j],new_el_mats[j]);CHKERRQ(ierr); 2348e0eea495SMark } 2349e0eea495SMark } 2350e0eea495SMark ierr = ISColoringRestoreIS(iscoloring,PETSC_USE_POINTER,&is);CHKERRQ(ierr); 2351e0eea495SMark PetscFunctionReturn(0); 2352e0eea495SMark } 2353e0eea495SMark 2354e0eea495SMark /* < v, u > */ 2355e0eea495SMark static void g0_1(PetscInt dim, PetscInt Nf, PetscInt NfAux, 2356e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 2357e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 2358e0eea495SMark PetscReal t, PetscReal u_tShift, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar g0[]) 2359e0eea495SMark { 2360e0eea495SMark g0[0] = 1.; 2361e0eea495SMark } 2362e0eea495SMark 2363e0eea495SMark /* < v, u > */ 2364e0eea495SMark static void g0_r(PetscInt dim, PetscInt Nf, PetscInt NfAux, 2365e0eea495SMark const PetscInt uOff[], const PetscInt uOff_x[], const PetscScalar u[], const PetscScalar u_t[], const PetscScalar u_x[], 2366e0eea495SMark const PetscInt aOff[], const PetscInt aOff_x[], const PetscScalar a[], const PetscScalar a_t[], const PetscScalar a_x[], 2367e0eea495SMark PetscReal t, PetscReal u_tShift, const PetscReal x[], PetscInt numConstants, const PetscScalar constants[], PetscScalar g0[]) 2368e0eea495SMark { 2369930e68a5SMark Adams g0[0] = 2.*PETSC_PI*x[0]; 2370e0eea495SMark } 2371e0eea495SMark 2372e0eea495SMark /*@ 2373e0eea495SMark LandauCreateMassMatrix - Create mass matrix for Landau 2374e0eea495SMark 23758a6f2e61SMark Adams Collective on pack 2376e0eea495SMark 2377e0eea495SMark Input Parameters: 23788a6f2e61SMark Adams . pack - the DM object 2379e0eea495SMark 2380e0eea495SMark Output Parameters: 23810045b13dSSatish Balay . Amat - The mass matrix (optional), mass matrix is added to the DM context 2382e0eea495SMark 2383e0eea495SMark Level: beginner 2384e0eea495SMark 2385e0eea495SMark .keywords: mesh 2386e0eea495SMark .seealso: LandauCreateVelocitySpace() 2387e0eea495SMark @*/ 23888a6f2e61SMark Adams PetscErrorCode LandauCreateMassMatrix(DM pack, Mat *Amat) 2389e0eea495SMark { 23908a6f2e61SMark Adams DM mass_pack,massDM[LANDAU_MAX_GRIDS]; 2391e0eea495SMark PetscDS prob; 2392e0eea495SMark PetscInt ii,dim,N1=1,N2; 2393e0eea495SMark PetscErrorCode ierr; 2394e0eea495SMark LandauCtx *ctx; 23958a6f2e61SMark Adams Mat packM,subM[LANDAU_MAX_GRIDS]; 2396e0eea495SMark 2397e0eea495SMark PetscFunctionBegin; 23988a6f2e61SMark Adams PetscValidHeaderSpecific(pack,DM_CLASSID,1); 2399064a246eSJacob Faibussowitsch if (Amat) PetscValidPointer(Amat,2); 24008a6f2e61SMark Adams ierr = DMGetApplicationContext(pack, &ctx);CHKERRQ(ierr); 2401e0eea495SMark if (!ctx) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_PLIB, "no context"); 24028a6f2e61SMark Adams ierr = DMGetDimension(pack, &dim);CHKERRQ(ierr); 24038a6f2e61SMark Adams ierr = DMCompositeCreate(PetscObjectComm((PetscObject) pack),&mass_pack);CHKERRQ(ierr); 24048a6f2e61SMark Adams /* create pack mass matrix */ 24058a6f2e61SMark Adams for (PetscInt grid=0, ix=0 ; grid<ctx->num_grids ; grid++) { 24068a6f2e61SMark Adams ierr = DMClone(ctx->plex[grid], &massDM[grid]);CHKERRQ(ierr); 24078a6f2e61SMark Adams ierr = DMCopyFields(ctx->plex[grid], massDM[grid]);CHKERRQ(ierr); 24088a6f2e61SMark Adams ierr = DMCreateDS(massDM[grid]);CHKERRQ(ierr); 24098a6f2e61SMark Adams ierr = DMGetDS(massDM[grid], &prob);CHKERRQ(ierr); 24108a6f2e61SMark Adams for (ix=0, ii=ctx->species_offset[grid];ii<ctx->species_offset[grid+1];ii++,ix++) { 24118a6f2e61SMark Adams if (dim==3) {ierr = PetscDSSetJacobian(prob, ix, ix, g0_1, NULL, NULL, NULL);CHKERRQ(ierr);} 24128a6f2e61SMark Adams else {ierr = PetscDSSetJacobian(prob, ix, ix, g0_r, NULL, NULL, NULL);CHKERRQ(ierr);} 2413e0eea495SMark } 24148fdabdddSMark Adams #if !defined(LANDAU_SPECIES_MAJOR) 24158a6f2e61SMark Adams ierr = DMCompositeAddDM(mass_pack,massDM[grid]);CHKERRQ(ierr); 24168fdabdddSMark Adams #else 24178fdabdddSMark Adams for (PetscInt b_id=0;b_id<ctx->batch_sz;b_id++) { // add batch size DMs for this species grid 24188fdabdddSMark Adams ierr = DMCompositeAddDM(mass_pack,massDM[grid]);CHKERRQ(ierr); 24198fdabdddSMark Adams } 24208fdabdddSMark Adams #endif 24218a6f2e61SMark Adams ierr = DMCreateMatrix(massDM[grid], &subM[grid]);CHKERRQ(ierr); 24228a6f2e61SMark Adams } 24238fdabdddSMark Adams #if !defined(LANDAU_SPECIES_MAJOR) 24248fdabdddSMark Adams // stack the batched DMs 24258fdabdddSMark Adams for (PetscInt b_id=1;b_id<ctx->batch_sz;b_id++) { 24268fdabdddSMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 24278fdabdddSMark Adams ierr = DMCompositeAddDM(mass_pack, massDM[grid]);CHKERRQ(ierr); 24288fdabdddSMark Adams } 24298fdabdddSMark Adams } 24308fdabdddSMark Adams #endif 24318a6f2e61SMark Adams ierr = PetscOptionsInsertString(NULL,"-dm_preallocate_only"); 24328a6f2e61SMark Adams ierr = DMSetFromOptions(mass_pack);CHKERRQ(ierr); 24338a6f2e61SMark Adams ierr = DMCreateMatrix(mass_pack, &packM);CHKERRQ(ierr); 24348a6f2e61SMark Adams ierr = PetscOptionsInsertString(NULL,"-dm_preallocate_only false"); 24358a6f2e61SMark Adams ierr = MatSetOption(packM, MAT_IGNORE_ZERO_ENTRIES, PETSC_TRUE);CHKERRQ(ierr); 24368a6f2e61SMark Adams ierr = MatSetOption(packM, MAT_STRUCTURALLY_SYMMETRIC, PETSC_TRUE);CHKERRQ(ierr); 24378a6f2e61SMark Adams ierr = DMViewFromOptions(mass_pack,NULL,"-dm_landau_mass_dm_view");CHKERRQ(ierr); 24388a6f2e61SMark Adams ierr = DMDestroy(&mass_pack);CHKERRQ(ierr); 24398a6f2e61SMark Adams /* make mass matrix for each block */ 24408a6f2e61SMark Adams for (PetscInt grid=0;grid<ctx->num_grids;grid++) { 2441e0eea495SMark Vec locX; 24428a6f2e61SMark Adams DM plex = massDM[grid]; 24438a6f2e61SMark Adams ierr = DMGetLocalVector(plex, &locX);CHKERRQ(ierr); 2444e0eea495SMark /* Mass matrix is independent of the input, so no need to fill locX */ 24458a6f2e61SMark Adams ierr = DMPlexSNESComputeJacobianFEM(plex, locX, subM[grid], subM[grid], ctx);CHKERRQ(ierr); 24468a6f2e61SMark Adams ierr = DMRestoreLocalVector(plex, &locX);CHKERRQ(ierr); 24478a6f2e61SMark Adams ierr = DMDestroy(&massDM[grid]);CHKERRQ(ierr); 2448e0eea495SMark } 2449e0eea495SMark ierr = MatGetSize(ctx->J, &N1, NULL);CHKERRQ(ierr); 24508a6f2e61SMark Adams ierr = MatGetSize(packM, &N2, NULL);CHKERRQ(ierr); 24518a6f2e61SMark Adams if (N1 != N2) SETERRQ2(PetscObjectComm((PetscObject) pack), PETSC_ERR_PLIB, "Incorrect matrix sizes: |Jacobian| = %D, |Mass|=%D",N1,N2); 24528a6f2e61SMark Adams /* assemble block diagonals */ 24538a6f2e61SMark Adams for (PetscInt grid=0 ; grid<ctx->num_grids ; grid++) { 24548fdabdddSMark Adams Mat B = subM[grid]; 24558a6f2e61SMark Adams PetscInt nloc, nzl, colbuf[1024], row; 24568fdabdddSMark Adams ierr = MatGetSize(B, &nloc, NULL);CHKERRQ(ierr); 24578fdabdddSMark Adams for (PetscInt b_id = 0 ; b_id < ctx->batch_sz ; b_id++) { 24588fdabdddSMark Adams const PetscInt moffset = LAND_MOFFSET(b_id,grid,ctx->batch_sz,ctx->num_grids,ctx->mat_offset); 24598a6f2e61SMark Adams const PetscInt *cols; 24608a6f2e61SMark Adams const PetscScalar *vals; 24618a6f2e61SMark Adams for (int i=0 ; i<nloc ; i++) { 24628a6f2e61SMark Adams ierr = MatGetRow(B,i,&nzl,&cols,&vals);CHKERRQ(ierr); 24638a6f2e61SMark Adams if (nzl>1024) SETERRQ1(PetscObjectComm((PetscObject) pack), PETSC_ERR_PLIB, "Row too big: %D",nzl); 24648fdabdddSMark Adams for (int j=0; j<nzl; j++) colbuf[j] = cols[j] + moffset; 24658fdabdddSMark Adams row = i + moffset; 24668a6f2e61SMark Adams ierr = MatSetValues(packM,1,&row,nzl,colbuf,vals,INSERT_VALUES);CHKERRQ(ierr); 24678a6f2e61SMark Adams ierr = MatRestoreRow(B,i,&nzl,&cols,&vals);CHKERRQ(ierr); 24688a6f2e61SMark Adams } 24698fdabdddSMark Adams } 24708fdabdddSMark Adams } 24718fdabdddSMark Adams // cleanup 24728fdabdddSMark Adams for (PetscInt grid=0 ; grid<ctx->num_grids ; grid++) { 24738a6f2e61SMark Adams ierr = MatDestroy(&subM[grid]);CHKERRQ(ierr); 24748a6f2e61SMark Adams } 24758a6f2e61SMark Adams ierr = MatAssemblyBegin(packM,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 24768a6f2e61SMark Adams ierr = MatAssemblyEnd(packM,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 24778a6f2e61SMark Adams ierr = PetscObjectSetName((PetscObject)packM, "mass");CHKERRQ(ierr); 24788a6f2e61SMark Adams ierr = MatViewFromOptions(packM,NULL,"-dm_landau_mass_view");CHKERRQ(ierr); 24798a6f2e61SMark Adams ctx->M = packM; /* this could be a noop, a = a */ 24808a6f2e61SMark Adams if (Amat) *Amat = packM; 2481e0eea495SMark PetscFunctionReturn(0); 2482e0eea495SMark } 2483e0eea495SMark 2484e0eea495SMark /*@ 2485e0eea495SMark LandauIFunction - TS residual calculation 2486e0eea495SMark 2487e0eea495SMark Collective on ts 2488e0eea495SMark 2489e0eea495SMark Input Parameters: 2490e0eea495SMark + TS - The time stepping context 2491e0eea495SMark . time_dummy - current time (not used) 2492e0eea495SMark - X - Current state 2493e0eea495SMark + X_t - Time derivative of current state 2494e0eea495SMark . actx - Landau context 2495e0eea495SMark 2496e0eea495SMark Output Parameter: 2497e0eea495SMark . F - The residual 2498e0eea495SMark 2499e0eea495SMark Level: beginner 2500e0eea495SMark 2501e0eea495SMark .keywords: mesh 2502e0eea495SMark .seealso: LandauCreateVelocitySpace(), LandauIJacobian() 2503e0eea495SMark @*/ 2504e0eea495SMark PetscErrorCode LandauIFunction(TS ts, PetscReal time_dummy, Vec X, Vec X_t, Vec F, void *actx) 2505e0eea495SMark { 2506e0eea495SMark PetscErrorCode ierr; 2507e0eea495SMark LandauCtx *ctx=(LandauCtx*)actx; 2508e0eea495SMark PetscInt dim; 25098a6f2e61SMark Adams DM pack; 2510e8d2b73aSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 2511e8d2b73aSMark Adams double starttime, endtime; 2512e8d2b73aSMark Adams #endif 2513e0eea495SMark 2514e0eea495SMark PetscFunctionBegin; 25158a6f2e61SMark Adams ierr = TSGetDM(ts,&pack);CHKERRQ(ierr); 25168a6f2e61SMark Adams ierr = DMGetApplicationContext(pack, &ctx);CHKERRQ(ierr); 2517e0eea495SMark if (!ctx) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_PLIB, "no context"); 2518c751c0a2SMark Adams if (ctx->stage) { 2519c751c0a2SMark Adams ierr = PetscLogStagePush(ctx->stage);CHKERRQ(ierr); 2520c751c0a2SMark Adams } 2521e8d2b73aSMark Adams ierr = PetscLogEventBegin(ctx->events[11],0,0,0,0);CHKERRQ(ierr); 2522e0eea495SMark ierr = PetscLogEventBegin(ctx->events[0],0,0,0,0);CHKERRQ(ierr); 2523e8d2b73aSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 2524e8d2b73aSMark Adams starttime = MPI_Wtime(); 2525e8d2b73aSMark Adams #endif 25268a6f2e61SMark Adams ierr = DMGetDimension(pack, &dim);CHKERRQ(ierr); 2527e8d2b73aSMark Adams if (!ctx->aux_bool) { 2528e8d2b73aSMark Adams ierr = PetscInfo3(ts, "Create Landau Jacobian t=%g X=%p %s\n",time_dummy,X_t,ctx->aux_bool ? " -- seems to be in line search" : "");CHKERRQ(ierr); 2529930e68a5SMark Adams ierr = LandauFormJacobian_Internal(X,ctx->J,dim,0.0,(void*)ctx);CHKERRQ(ierr); 25308a6f2e61SMark Adams ierr = MatViewFromOptions(ctx->J, NULL, "-dm_landau_jacobian_view");CHKERRQ(ierr); 2531930e68a5SMark Adams ctx->aux_bool = PETSC_TRUE; 2532e8d2b73aSMark Adams } else { 2533e8d2b73aSMark Adams ierr = PetscInfo(ts, "Skip forming Jacobian, has not changed (should check norm)\n");CHKERRQ(ierr); 2534e8d2b73aSMark Adams } 2535e0eea495SMark /* mat vec for op */ 2536e0eea495SMark ierr = MatMult(ctx->J,X,F);CHKERRQ(ierr);CHKERRQ(ierr); /* C*f */ 2537e0eea495SMark /* add time term */ 2538e0eea495SMark if (X_t) { 2539e0eea495SMark ierr = MatMultAdd(ctx->M,X_t,F,F);CHKERRQ(ierr); 2540e0eea495SMark } 2541e8d2b73aSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 25428fdabdddSMark Adams if (ctx->stage) { 2543e8d2b73aSMark Adams endtime = MPI_Wtime(); 25448fdabdddSMark Adams ctx->times[LANDAU_OPERATOR] += (endtime - starttime); 25458fdabdddSMark Adams ctx->times[LANDAU_JACOBIAN] += (endtime - starttime); 25468fdabdddSMark Adams ctx->times[LANDAU_JACOBIAN_COUNT] += 1; 25478fdabdddSMark Adams } 2548e8d2b73aSMark Adams #endif 2549e0eea495SMark ierr = PetscLogEventEnd(ctx->events[0],0,0,0,0);CHKERRQ(ierr); 2550e8d2b73aSMark Adams ierr = PetscLogEventEnd(ctx->events[11],0,0,0,0);CHKERRQ(ierr); 2551c751c0a2SMark Adams if (ctx->stage) { 2552c751c0a2SMark Adams ierr = PetscLogStagePop();CHKERRQ(ierr); 25538fdabdddSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 25548fdabdddSMark Adams ctx->times[LANDAU_MATRIX_TOTAL] += (endtime - starttime); 25558fdabdddSMark Adams #endif 2556c751c0a2SMark Adams } 2557e0eea495SMark PetscFunctionReturn(0); 2558e0eea495SMark } 2559c751c0a2SMark Adams 25608f7e8f9dSMark Adams static PetscErrorCode MatrixNfDestroy(void *ptr) 25618f7e8f9dSMark Adams { 25628f7e8f9dSMark Adams PetscInt *nf = (PetscInt *)ptr; 25638f7e8f9dSMark Adams PetscErrorCode ierr; 25648f7e8f9dSMark Adams PetscFunctionBegin; 25658f7e8f9dSMark Adams ierr = PetscFree(nf);CHKERRQ(ierr); 25668f7e8f9dSMark Adams PetscFunctionReturn(0); 25678f7e8f9dSMark Adams } 2568e0eea495SMark /*@ 2569e0eea495SMark LandauIJacobian - TS Jacobian construction 2570e0eea495SMark 2571e0eea495SMark Collective on ts 2572e0eea495SMark 2573e0eea495SMark Input Parameters: 2574e0eea495SMark + TS - The time stepping context 2575e0eea495SMark . time_dummy - current time (not used) 2576e0eea495SMark - X - Current state 2577e0eea495SMark + U_tdummy - Time derivative of current state (not used) 2578e0eea495SMark . shift - shift for du/dt term 2579e0eea495SMark - actx - Landau context 2580e0eea495SMark 2581e0eea495SMark Output Parameter: 2582e0eea495SMark . Amat - Jacobian 2583e0eea495SMark + Pmat - same as Amat 2584e0eea495SMark 2585e0eea495SMark Level: beginner 2586e0eea495SMark 2587e0eea495SMark .keywords: mesh 2588e0eea495SMark .seealso: LandauCreateVelocitySpace(), LandauIFunction() 2589e0eea495SMark @*/ 2590e0eea495SMark PetscErrorCode LandauIJacobian(TS ts, PetscReal time_dummy, Vec X, Vec U_tdummy, PetscReal shift, Mat Amat, Mat Pmat, void *actx) 2591e0eea495SMark { 2592e0eea495SMark PetscErrorCode ierr; 25938fdabdddSMark Adams LandauCtx *ctx=NULL; 2594e0eea495SMark PetscInt dim; 25958a6f2e61SMark Adams DM pack; 25968f7e8f9dSMark Adams PetscContainer container; 2597e8d2b73aSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 2598e8d2b73aSMark Adams double starttime, endtime; 2599e8d2b73aSMark Adams #endif 2600e0eea495SMark PetscFunctionBegin; 26018a6f2e61SMark Adams ierr = TSGetDM(ts,&pack);CHKERRQ(ierr); 26028a6f2e61SMark Adams ierr = DMGetApplicationContext(pack, &ctx);CHKERRQ(ierr); 2603e0eea495SMark if (!ctx) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_PLIB, "no context"); 2604930e68a5SMark Adams if (Amat!=Pmat || Amat!=ctx->J) SETERRQ(ctx->comm, PETSC_ERR_PLIB, "Amat!=Pmat || Amat!=ctx->J"); 26058a6f2e61SMark Adams ierr = DMGetDimension(pack, &dim);CHKERRQ(ierr); 2606e0eea495SMark /* get collision Jacobian into A */ 2607c751c0a2SMark Adams if (ctx->stage) { 2608c751c0a2SMark Adams ierr = PetscLogStagePush(ctx->stage);CHKERRQ(ierr); 2609c751c0a2SMark Adams } 2610e8d2b73aSMark Adams ierr = PetscLogEventBegin(ctx->events[11],0,0,0,0);CHKERRQ(ierr); 2611e0eea495SMark ierr = PetscLogEventBegin(ctx->events[9],0,0,0,0);CHKERRQ(ierr); 2612e8d2b73aSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 2613e8d2b73aSMark Adams starttime = MPI_Wtime(); 2614e8d2b73aSMark Adams #endif 2615e8d2b73aSMark Adams ierr = PetscInfo2(ts, "Adding just mass to Jacobian t=%g, shift=%g\n",(double)time_dummy,(double)shift);CHKERRQ(ierr); 2616930e68a5SMark Adams if (shift==0.0) SETERRQ(ctx->comm, PETSC_ERR_PLIB, "zero shift"); 2617930e68a5SMark Adams if (!ctx->aux_bool) SETERRQ(ctx->comm, PETSC_ERR_PLIB, "wrong state"); 2618e8d2b73aSMark Adams if (!ctx->use_matrix_mass) { 2619930e68a5SMark Adams ierr = LandauFormJacobian_Internal(X,ctx->J,dim,shift,(void*)ctx);CHKERRQ(ierr); 26208a6f2e61SMark Adams ierr = MatViewFromOptions(ctx->J, NULL, "-dm_landau_mat_view");CHKERRQ(ierr); 2621e8d2b73aSMark Adams } else { /* add mass */ 2622e8d2b73aSMark Adams ierr = MatAXPY(Pmat,shift,ctx->M,SAME_NONZERO_PATTERN);CHKERRQ(ierr); 2623e8d2b73aSMark Adams } 262474c602b1SMark ctx->aux_bool = PETSC_FALSE; 26258f7e8f9dSMark Adams /* set number species in Jacobian */ 26268f7e8f9dSMark Adams ierr = PetscObjectQuery((PetscObject) ctx->J, "Nf", (PetscObject *) &container);CHKERRQ(ierr); 26278f7e8f9dSMark Adams if (!container) { 26288f7e8f9dSMark Adams PetscInt *pNf; 26298f7e8f9dSMark Adams ierr = PetscContainerCreate(PETSC_COMM_SELF, &container);CHKERRQ(ierr); 26308a6f2e61SMark Adams ierr = PetscMalloc(sizeof(*pNf), &pNf);CHKERRQ(ierr); 2631*f37ccb5fSMark Adams *pNf = ctx->num_species + 100000*ctx->numConcurrency; 26328f7e8f9dSMark Adams ierr = PetscContainerSetPointer(container, (void *)pNf);CHKERRQ(ierr); 26338f7e8f9dSMark Adams ierr = PetscContainerSetUserDestroy(container, MatrixNfDestroy);CHKERRQ(ierr); 26348f7e8f9dSMark Adams ierr = PetscObjectCompose((PetscObject)ctx->J, "Nf", (PetscObject) container);CHKERRQ(ierr); 26358f7e8f9dSMark Adams ierr = PetscContainerDestroy(&container);CHKERRQ(ierr); 26368f7e8f9dSMark Adams } 2637e8d2b73aSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 26388fdabdddSMark Adams if (ctx->stage) { 2639e8d2b73aSMark Adams endtime = MPI_Wtime(); 26408fdabdddSMark Adams ctx->times[LANDAU_OPERATOR] += (endtime - starttime); 26418fdabdddSMark Adams ctx->times[LANDAU_MASS] += (endtime - starttime); 26428fdabdddSMark Adams } 2643e8d2b73aSMark Adams #endif 2644e8d2b73aSMark Adams ierr = PetscLogEventEnd(ctx->events[9],0,0,0,0);CHKERRQ(ierr); 2645e8d2b73aSMark Adams ierr = PetscLogEventEnd(ctx->events[11],0,0,0,0);CHKERRQ(ierr); 2646c751c0a2SMark Adams if (ctx->stage) { 2647c751c0a2SMark Adams ierr = PetscLogStagePop();CHKERRQ(ierr); 26488fdabdddSMark Adams #if defined(PETSC_HAVE_THREADSAFETY) 26498fdabdddSMark Adams ctx->times[LANDAU_MATRIX_TOTAL] += (endtime - starttime); 26508fdabdddSMark Adams #endif 2651c751c0a2SMark Adams } 2652e0eea495SMark PetscFunctionReturn(0); 2653e0eea495SMark } 2654