Actual source code: mpicusp.cu
2: /*
3: This file contains routines for Parallel vector operations.
4: */
5: #include <petscconf.h>
7: #include <../src/vec/vec/impls/mpi/pvecimpl.h> /*I "petscvec.h" I*/
9: #include <../src/vec/vec/impls/seq/seqcusp/cuspvecimpl.h>
13: PetscErrorCode VecDestroy_MPICUSP(Vec v)
14: {
18: try{
19: if (v->spptr) {
20: delete ((Vec_CUSP*)v->spptr)->GPUarray;
21: delete (Vec_CUSP *)v->spptr;
22: }
23: } catch(char* ex){
24: SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"CUSP error: %s", ex);
25: }
26: VecDestroy_MPI(v);
27: return(0);
28: }
32: PetscErrorCode VecNorm_MPICUSP(Vec xin,NormType type,PetscReal *z)
33: {
34: PetscReal sum,work = 0.0;
38: if (type == NORM_2 || type == NORM_FROBENIUS) {
39: VecNorm_SeqCUSP(xin,NORM_2,&work);
40: work *= work;
41: MPI_Allreduce(&work,&sum,1,MPIU_REAL,MPIU_SUM,((PetscObject)xin)->comm);
42: *z = sqrt(sum);
43: PetscLogFlops(2.0*xin->map->n);
44: } else if (type == NORM_1) {
45: /* Find the local part */
46: VecNorm_SeqCUSP(xin,NORM_1,&work);
47: /* Find the global max */
48: MPI_Allreduce(&work,z,1,MPIU_REAL,MPIU_SUM,((PetscObject)xin)->comm);
49: } else if (type == NORM_INFINITY) {
50: /* Find the local max */
51: VecNorm_SeqCUSP(xin,NORM_INFINITY,&work);
52: /* Find the global max */
53: MPI_Allreduce(&work,z,1,MPIU_REAL,MPIU_MAX,((PetscObject)xin)->comm);
54: } else if (type == NORM_1_AND_2) {
55: PetscReal temp[2];
56: VecNorm_SeqCUSP(xin,NORM_1,temp);
57: VecNorm_SeqCUSP(xin,NORM_2,temp+1);
58: temp[1] = temp[1]*temp[1];
59: MPI_Allreduce(temp,z,2,MPIU_REAL,MPIU_SUM,((PetscObject)xin)->comm);
60: z[1] = sqrt(z[1]);
61: }
62: return(0);
63: }
67: PetscErrorCode VecDot_MPICUSP(Vec xin,Vec yin,PetscScalar *z)
68: {
69: PetscScalar sum,work;
73: VecDot_SeqCUSP(xin,yin,&work);
74: MPI_Allreduce(&work,&sum,1,MPIU_SCALAR,MPIU_SUM,((PetscObject)xin)->comm);
75: *z = sum;
76: return(0);
77: }
81: PetscErrorCode VecTDot_MPICUSP(Vec xin,Vec yin,PetscScalar *z)
82: {
83: PetscScalar sum,work;
87: VecTDot_SeqCUSP(xin,yin,&work);
88: MPI_Allreduce(&work,&sum,1,MPIU_SCALAR,MPIU_SUM,((PetscObject)xin)->comm);
89: *z = sum;
90: return(0);
91: }
95: PetscErrorCode VecMDot_MPICUSP(Vec xin,PetscInt nv,const Vec y[],PetscScalar *z)
96: {
97: PetscScalar awork[128],*work = awork;
101: if (nv > 128) {
102: PetscMalloc(nv*sizeof(PetscScalar),&work);
103: }
104: VecMDot_SeqCUSP(xin,nv,y,work);
105: MPI_Allreduce(work,z,nv,MPIU_SCALAR,MPIU_SUM,((PetscObject)xin)->comm);
106: if (nv > 128) {
107: PetscFree(work);
108: }
109: return(0);
110: }
112: /*MC
113: VECMPICUSP - VECMPICUSP = "mpicusp" - The basic parallel vector, modified to use CUSP
115: Options Database Keys:
116: . -vec_type mpicusp - sets the vector type to VECMPICUSP during a call to VecSetFromOptions()
118: Level: beginner
120: .seealso: VecCreate(), VecSetType(), VecSetFromOptions(), VecCreateMpiWithArray(), VECMPI, VecType, VecCreateMPI(), VecCreateMpi()
121: M*/
126: PetscErrorCode VecDuplicate_MPICUSP(Vec win,Vec *v)
127: {
129: Vec_MPI *vw,*w = (Vec_MPI *)win->data;
130: PetscScalar *array;
133: VecCreate(((PetscObject)win)->comm,v);
134: PetscLayoutReference(win->map,&(*v)->map);
136: VecCreate_MPI_Private(*v,PETSC_FALSE,w->nghost,0);
137: vw = (Vec_MPI *)(*v)->data;
138: PetscMemcpy((*v)->ops,win->ops,sizeof(struct _VecOps));
140: /* save local representation of the parallel vector (and scatter) if it exists */
141: if (w->localrep) {
142: VecGetArray(*v,&array);
143: VecCreateSeqWithArray(PETSC_COMM_SELF,win->map->n+w->nghost,array,&vw->localrep);
144: PetscMemcpy(vw->localrep->ops,w->localrep->ops,sizeof(struct _VecOps));
145: VecRestoreArray(*v,&array);
146: PetscLogObjectParent(*v,vw->localrep);
147: vw->localupdate = w->localupdate;
148: if (vw->localupdate) {
149: PetscObjectReference((PetscObject)vw->localupdate);
150: }
151: }
153: /* New vector should inherit stashing property of parent */
154: (*v)->stash.donotstash = win->stash.donotstash;
155: (*v)->stash.ignorenegidx = win->stash.ignorenegidx;
156:
157: PetscOListDuplicate(((PetscObject)win)->olist,&((PetscObject)(*v))->olist);
158: PetscFListDuplicate(((PetscObject)win)->qlist,&((PetscObject)(*v))->qlist);
159: (*v)->map->bs = win->map->bs;
160: (*v)->bstash.bs = win->bstash.bs;
162: return(0);
163: }
167: PetscErrorCode VecDotNorm2_MPICUSP(Vec s,Vec t,PetscScalar *dp,PetscScalar *nm)
168: {
169: PetscErrorCode ierr;
170: PetscScalar work[2],sum[2];
173: VecDotNorm2_SeqCUSP(s,t,work,work+1);
174: MPI_Allreduce(&work,&sum,2,MPIU_SCALAR,MPIU_SUM,((PetscObject)s)->comm);
175: *dp = sum[0];
176: *nm = sum[1];
177: return(0);
178: }
183: PetscErrorCode VecCreate_MPICUSP(Vec vv)
184: {
187: VecCreate_MPI_Private(vv,PETSC_FALSE,0,0);
188: PetscObjectChangeTypeName((PetscObject)vv,VECMPICUSP);
189: vv->valid_GPU_array = PETSC_CUSP_UNALLOCATED;
190: vv->ops->dotnorm2 = VecDotNorm2_MPICUSP;
191: vv->ops->waxpy = VecWAXPY_SeqCUSP;
192: vv->ops->duplicate = VecDuplicate_MPICUSP;
193: vv->ops->dot = VecDot_MPICUSP;
194: vv->ops->mdot = VecMDot_MPICUSP;
195: vv->ops->tdot = VecTDot_MPICUSP;
196: vv->ops->norm = VecNorm_MPICUSP;
197: vv->ops->scale = VecScale_SeqCUSP;
198: vv->ops->copy = VecCopy_SeqCUSP;
199: vv->ops->set = VecSet_SeqCUSP;
200: vv->ops->swap = VecSwap_SeqCUSP;
201: vv->ops->axpy = VecAXPY_SeqCUSP;
202: vv->ops->axpby = VecAXPBY_SeqCUSP;
203: vv->ops->maxpy = VecMAXPY_SeqCUSP;
204: vv->ops->aypx = VecAYPX_SeqCUSP;
205: vv->ops->axpbypcz = VecAXPBYPCZ_SeqCUSP;
206: vv->ops->pointwisemult = VecPointwiseMult_SeqCUSP;
207: vv->ops->setrandom = VecSetRandom_SeqCUSP;
208: vv->ops->replacearray = VecReplaceArray_SeqCUSP;
209: vv->ops->dot_local = VecDot_SeqCUSP;
210: vv->ops->tdot_local = VecTDot_SeqCUSP;
211: vv->ops->norm_local = VecNorm_SeqCUSP;
212: vv->ops->mdot_local = VecMDot_SeqCUSP;
213: vv->ops->destroy = VecDestroy_MPICUSP;
214: vv->ops->pointwisedivide = VecPointwiseDivide_SeqCUSP;
215: /* place array?
216: reset array?
217: get values?
218: */
219: return(0);
220: }
226: PetscErrorCode VecCreate_CUSP(Vec v)
227: {
229: PetscMPIInt size;
232: MPI_Comm_size(((PetscObject)v)->comm,&size);
233: if (size == 1) {
234: VecSetType(v,VECSEQCUSP);
235: } else {
236: VecSetType(v,VECMPICUSP);
237: }
238: return(0);
239: }