/* Parallel Sparse BLAS GPU plugin */ /* (C) Copyright 2013 */ /* Salvatore Filippone */ /* Alessandro Fanfarillo */ /* Redistribution and use in source and binary forms, with or without */ /* modification, are permitted provided that the following conditions */ /* are met: */ /* 1. Redistributions of source code must retain the above copyright */ /* notice, this list of conditions and the following disclaimer. */ /* 2. Redistributions in binary form must reproduce the above copyright */ /* notice, this list of conditions, and the following disclaimer in the */ /* documentation and/or other materials provided with the distribution. */ /* 3. The name of the PSBLAS group or the names of its contributors may */ /* not be used to endorse or promote products derived from this */ /* software without specific written permission. */ /* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS */ /* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED */ /* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR */ /* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS */ /* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR */ /* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF */ /* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS */ /* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN */ /* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) */ /* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE */ /* POSSIBILITY OF SUCH DAMAGE. */ #include #include #if defined(HAVE_SPGPU) //#include "utils.h" //#include "common.h" #include "cvectordev.h" int registerMappedFloatComplex(void *buff, void **d_p, int n, cuFloatComplex dummy) { return registerMappedMemory(buff,d_p,n*sizeof(cuFloatComplex)); } int writeMultiVecDeviceFloatComplex(void* deviceVec, cuFloatComplex* hostVec) { int i; struct MultiVectDevice *devVec = (struct MultiVectDevice *) deviceVec; // Ex updateFromHost vector function i = writeRemoteBuffer((void*) hostVec, (void *)devVec->v_, devVec->pitch_*devVec->count_*sizeof(cuFloatComplex)); if (i != 0) { fprintf(stderr,"From routine : %s : %d \n","FallocMultiVecDevice",i); } return(i); } int writeMultiVecDeviceFloatComplexR2(void* deviceVec, cuFloatComplex* hostVec, int ld) { int i; i = writeMultiVecDeviceFloatComplex(deviceVec, (void *) hostVec); if (i != 0) { fprintf(stderr,"From routine : %s : %d \n","writeMultiVecDeviceFloatComplexR2",i); } return(i); } int readMultiVecDeviceFloatComplex(void* deviceVec, cuFloatComplex* hostVec) { int i,j; struct MultiVectDevice *devVec = (struct MultiVectDevice *) deviceVec; i = readRemoteBuffer((void *) hostVec, (void *)devVec->v_, devVec->pitch_*devVec->count_*sizeof(cuFloatComplex)); if (i != 0) { fprintf(stderr,"From routine : %s : %d \n","readMultiVecDeviceFloat",i); } return(i); } int readMultiVecDeviceFloatComplexR2(void* deviceVec, cuFloatComplex* hostVec, int ld) { int i; i = readMultiVecDeviceFloatComplex(deviceVec, hostVec); if (i != 0) { fprintf(stderr,"From routine : %s : %d \n","readMultiVecDeviceFloatComplexR2",i); } return(i); } int setscalMultiVecDeviceFloatComplex(cuFloatComplex val, int first, int last, int indexBase, void* devMultiVecX) { int i=0; int pitch = 0; struct MultiVectDevice *devVecX = (struct MultiVectDevice *) devMultiVecX; spgpuHandle_t handle=psb_gpuGetHandle(); spgpuCsetscal(handle, first, last, indexBase, val, (cuFloatComplex *) devVecX->v_); return(i); } int geinsMultiVecDeviceFloatComplex(int n, void* devMultiVecIrl, void* devMultiVecVal, int dupl, int indexBase, void* devMultiVecX) { int j=0, i=0,nmin=0,nmax=0; int pitch = 0; cuFloatComplex beta; struct MultiVectDevice *devVecX = (struct MultiVectDevice *) devMultiVecX; struct MultiVectDevice *devVecIrl = (struct MultiVectDevice *) devMultiVecIrl; struct MultiVectDevice *devVecVal = (struct MultiVectDevice *) devMultiVecVal; spgpuHandle_t handle=psb_gpuGetHandle(); pitch = devVecIrl->pitch_; if ((n > devVecIrl->size_) || (n>devVecVal->size_ )) return SPGPU_UNSUPPORTED; //fprintf(stderr,"geins: %d %d %p %p %p\n",dupl,n,devVecIrl->v_,devVecVal->v_,devVecX->v_); if (dupl == INS_OVERWRITE) beta = make_cuFloatComplex(0.0, 0.0); else if (dupl == INS_ADD) beta = make_cuFloatComplex(1.0, 0.0); else beta = make_cuFloatComplex(0.0, 0.0); spgpuCscat(handle, (cuFloatComplex *) devVecX->v_, n, (cuFloatComplex*)devVecVal->v_, (int*)devVecIrl->v_, indexBase, beta); return(i); } int igathMultiVecDeviceFloatComplexVecIdx(void* deviceVec, int vectorId, int n, int first, void* deviceIdx, int hfirst, void* host_values, int indexBase) { int i, *idx; struct MultiVectDevice *devIdx = (struct MultiVectDevice *) deviceIdx; i= igathMultiVecDeviceFloatComplex(deviceVec, vectorId, n, first, (void*) devIdx->v_, hfirst, host_values, indexBase); return(i); } int igathMultiVecDeviceFloatComplex(void* deviceVec, int vectorId, int n, int first, void* indexes, int hfirst, void* host_values, int indexBase) { int i, *idx =(int *) indexes;; cuFloatComplex *hv = (cuFloatComplex *) host_values;; struct MultiVectDevice *devVec = (struct MultiVectDevice *) deviceVec; spgpuHandle_t handle=psb_gpuGetHandle(); i=0; hv = &(hv[hfirst-indexBase]); idx = &(idx[first-indexBase]); spgpuCgath(handle,hv, n, idx,indexBase, (cuFloatComplex *) devVec->v_+vectorId*devVec->pitch_); return(i); } int iscatMultiVecDeviceFloatComplexVecIdx(void* deviceVec, int vectorId, int n, int first, void *deviceIdx, int hfirst, void* host_values, int indexBase, cuFloatComplex beta) { int i, *idx; struct MultiVectDevice *devIdx = (struct MultiVectDevice *) deviceIdx; i= iscatMultiVecDeviceFloatComplex(deviceVec, vectorId, n, first, (void*) devIdx->v_, hfirst,host_values, indexBase, beta); return(i); } int iscatMultiVecDeviceFloatComplex(void* deviceVec, int vectorId, int n, int first, void *indexes, int hfirst, void* host_values, int indexBase, cuFloatComplex beta) { int i=0; cuFloatComplex *hv = (cuFloatComplex *) host_values; int *idx=(int *) indexes; struct MultiVectDevice *devVec = (struct MultiVectDevice *) deviceVec; spgpuHandle_t handle=psb_gpuGetHandle(); idx = &(idx[first-indexBase]); hv = &(hv[hfirst-indexBase]); spgpuCscat(handle, (cuFloatComplex *) devVec->v_, n, hv, idx, indexBase, beta); return SPGPU_SUCCESS; } int nrm2MultiVecDeviceFloatComplex(cuFloatComplex* y_res, int n, void* devMultiVecA) { int i=0; spgpuHandle_t handle=psb_gpuGetHandle(); struct MultiVectDevice *devVecA = (struct MultiVectDevice *) devMultiVecA; spgpuCmnrm2(handle, y_res, n,(cuFloatComplex *)devVecA->v_, devVecA->count_, devVecA->pitch_); return(i); } int amaxMultiVecDeviceFloatComplex(cuFloatComplex* y_res, int n, void* devMultiVecA) { int i=0; spgpuHandle_t handle=psb_gpuGetHandle(); struct MultiVectDevice *devVecA = (struct MultiVectDevice *) devMultiVecA; spgpuCmamax(handle, y_res, n,(cuFloatComplex *)devVecA->v_, devVecA->count_, devVecA->pitch_); return(i); } int asumMultiVecDeviceFloatComplex(cuFloatComplex* y_res, int n, void* devMultiVecA) { int i=0; spgpuHandle_t handle=psb_gpuGetHandle(); struct MultiVectDevice *devVecA = (struct MultiVectDevice *) devMultiVecA; spgpuCmasum(handle, y_res, n,(cuFloatComplex *)devVecA->v_, devVecA->count_, devVecA->pitch_); return(i); } int scalMultiVecDeviceFloatComplex(cuFloatComplex alpha, void* devMultiVecA) { int i=0; spgpuHandle_t handle=psb_gpuGetHandle(); struct MultiVectDevice *devVecA = (struct MultiVectDevice *) devMultiVecA; // Note: inner kernel can handle aliased input/output spgpuCscal(handle, (cuFloatComplex *)devVecA->v_, devVecA->pitch_, alpha, (cuFloatComplex *)devVecA->v_); return(i); } int dotMultiVecDeviceFloatComplex(cuFloatComplex* y_res, int n, void* devMultiVecA, void* devMultiVecB) {int i=0; struct MultiVectDevice *devVecA = (struct MultiVectDevice *) devMultiVecA; struct MultiVectDevice *devVecB = (struct MultiVectDevice *) devMultiVecB; spgpuHandle_t handle=psb_gpuGetHandle(); spgpuCmdot(handle, y_res, n, (cuFloatComplex*)devVecA->v_, (cuFloatComplex*)devVecB->v_,devVecA->count_,devVecB->pitch_); return(i); } int axpbyMultiVecDeviceFloatComplex(int n,cuFloatComplex alpha, void* devMultiVecX, cuFloatComplex beta, void* devMultiVecY) { int j=0, i=0; int pitch = 0; struct MultiVectDevice *devVecX = (struct MultiVectDevice *) devMultiVecX; struct MultiVectDevice *devVecY = (struct MultiVectDevice *) devMultiVecY; spgpuHandle_t handle=psb_gpuGetHandle(); pitch = devVecY->pitch_; if ((n > devVecY->size_) || (n>devVecX->size_ )) return SPGPU_UNSUPPORTED; for(j=0;jcount_;j++) spgpuCaxpby(handle,(cuFloatComplex*)devVecY->v_+pitch*j, n, beta, (cuFloatComplex*)devVecY->v_+pitch*j, alpha, (cuFloatComplex*) devVecX->v_+pitch*j); return(i); } int axyMultiVecDeviceFloatComplex(int n, cuFloatComplex alpha, void *deviceVecA, void *deviceVecB) { int i = 0; struct MultiVectDevice *devVecA = (struct MultiVectDevice *) deviceVecA; struct MultiVectDevice *devVecB = (struct MultiVectDevice *) deviceVecB; spgpuHandle_t handle=psb_gpuGetHandle(); if ((n > devVecA->size_) || (n>devVecB->size_ )) return SPGPU_UNSUPPORTED; spgpuCmaxy(handle, (cuFloatComplex*)devVecB->v_, n, alpha, (cuFloatComplex*)devVecA->v_, (cuFloatComplex*)devVecB->v_, devVecA->count_, devVecA->pitch_); return(i); } int axybzMultiVecDeviceFloatComplex(int n, cuFloatComplex alpha, void *deviceVecA, void *deviceVecB, cuFloatComplex beta, void *deviceVecZ) { int i=0; struct MultiVectDevice *devVecA = (struct MultiVectDevice *) deviceVecA; struct MultiVectDevice *devVecB = (struct MultiVectDevice *) deviceVecB; struct MultiVectDevice *devVecZ = (struct MultiVectDevice *) deviceVecZ; spgpuHandle_t handle=psb_gpuGetHandle(); if ((n > devVecA->size_) || (n>devVecB->size_ ) || (n>devVecZ->size_ )) return SPGPU_UNSUPPORTED; spgpuCmaxypbz(handle, (cuFloatComplex*)devVecZ->v_, n, beta, (cuFloatComplex*)devVecZ->v_, alpha, (cuFloatComplex*) devVecA->v_, (cuFloatComplex*) devVecB->v_, devVecB->count_, devVecB->pitch_); return(i); } int absMultiVecDeviceFloatComplex2(int n, cuFloatComplex alpha, void *deviceVecA, void *deviceVecB) { int i=0; struct MultiVectDevice *devVecA = (struct MultiVectDevice *) deviceVecA; struct MultiVectDevice *devVecB = (struct MultiVectDevice *) deviceVecB; spgpuHandle_t handle=psb_gpuGetHandle(); if ((n > devVecA->size_) || (n>devVecB->size_ )) return SPGPU_UNSUPPORTED; spgpuCabs(handle, (cuFloatComplex*)devVecB->v_, n, alpha, (cuFloatComplex*)devVecA->v_); return(i); } int absMultiVecDeviceFloatComplex(int n, cuFloatComplex alpha, void *deviceVecA) { int i = 0; struct MultiVectDevice *devVecA = (struct MultiVectDevice *) deviceVecA; spgpuHandle_t handle=psb_gpuGetHandle(); if (n > devVecA->size_) return SPGPU_UNSUPPORTED; spgpuCabs(handle, (cuFloatComplex*)devVecA->v_, n, alpha, (cuFloatComplex*)devVecA->v_); return(i); } #endif