Init cblas_?gemm_batch implementation.

2020-12-12 17:05:14 +08:00 · 2020-12-12 17:05:14 +08:00 · 88e6806e3f
parent 4130d1732e
commit 88e6806e3f
8 changed files with 567 additions and 8 deletions
--- a/cblas.h
+++ b/cblas.h
@ -382,6 +382,17 @@ void cblas_cgeadd(OPENBLAS_CONST enum CBLAS_ORDER CORDER,OPENBLAS_CONST blasint
 void cblas_zgeadd(OPENBLAS_CONST enum CBLAS_ORDER CORDER,OPENBLAS_CONST blasint crows, OPENBLAS_CONST blasint ccols, OPENBLAS_CONST double *calpha, double *a, OPENBLAS_CONST blasint clda, OPENBLAS_CONST double *cbeta, 
 		  double *c, OPENBLAS_CONST blasint cldc); 
 void cblas_sgemm_batch(OPENBLAS_CONST enum CBLAS_ORDER Order, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransA_array, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransB_array, OPENBLAS_CONST blasint * M_array, OPENBLAS_CONST blasint * N_array, OPENBLAS_CONST blasint * K_array,
 		       OPENBLAS_CONST float * alpha_array, OPENBLAS_CONST float ** A_array, OPENBLAS_CONST blasint * lda_array, OPENBLAS_CONST float ** B_array, OPENBLAS_CONST blasint * ldb_array, OPENBLAS_CONST float * beta_array, float ** C_array, OPENBLAS_CONST blasint * ldc_array, OPENBLAS_CONST blasint group_count, OPENBLAS_CONST blasint * group_size);
 void cblas_dgemm_batch(OPENBLAS_CONST enum CBLAS_ORDER Order, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransA_array, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransB_array, OPENBLAS_CONST blasint * M_array, OPENBLAS_CONST blasint * N_array, OPENBLAS_CONST blasint * K_array,
 		       OPENBLAS_CONST double * alpha_array, OPENBLAS_CONST double ** A_array, OPENBLAS_CONST blasint * lda_array, OPENBLAS_CONST double ** B_array, OPENBLAS_CONST blasint * ldb_array, OPENBLAS_CONST double * beta_array, double ** C_array, OPENBLAS_CONST blasint * ldc_array, OPENBLAS_CONST blasint group_count, OPENBLAS_CONST blasint * group_size);
 void cblas_cgemm_batch(OPENBLAS_CONST enum CBLAS_ORDER Order, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransA_array, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransB_array, OPENBLAS_CONST blasint * M_array, OPENBLAS_CONST blasint * N_array, OPENBLAS_CONST blasint * K_array,
 		       OPENBLAS_CONST void * alpha_array, OPENBLAS_CONST void ** A_array, OPENBLAS_CONST blasint * lda_array, OPENBLAS_CONST void ** B_array, OPENBLAS_CONST blasint * ldb_array, OPENBLAS_CONST void * beta_array, void ** C_array, OPENBLAS_CONST blasint * ldc_array, OPENBLAS_CONST blasint group_count, OPENBLAS_CONST blasint * group_size);
 void cblas_zgemm_batch(OPENBLAS_CONST enum CBLAS_ORDER Order, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransA_array, OPENBLAS_CONST enum CBLAS_TRANSPOSE * TransB_array, OPENBLAS_CONST blasint * M_array, OPENBLAS_CONST blasint * N_array, OPENBLAS_CONST blasint * K_array,
 		       OPENBLAS_CONST void * alpha_array, OPENBLAS_CONST void ** A_array, OPENBLAS_CONST blasint * lda_array, OPENBLAS_CONST void ** B_array, OPENBLAS_CONST blasint * ldb_array, OPENBLAS_CONST void * beta_array, void ** C_array, OPENBLAS_CONST blasint * ldc_array, OPENBLAS_CONST blasint group_count, OPENBLAS_CONST blasint * group_size);
 #ifdef __cplusplus
 }
--- a/common_level3.h
+++ b/common_level3.h
@ -1919,6 +1919,10 @@ int dgeadd_k(BLASLONG, BLASLONG, double, double*, BLASLONG, double, double *, BL
 int cgeadd_k(BLASLONG, BLASLONG, float, float, float*, BLASLONG, float, float, float *, BLASLONG); 
 int zgeadd_k(BLASLONG, BLASLONG, double,double, double*, BLASLONG, double, double, double *, BLASLONG); 
 int sgemm_batch_thread(blas_arg_t * queue, BLASLONG nums);
 int dgemm_batch_thread(blas_arg_t * queue, BLASLONG nums);
 int cgemm_batch_thread(blas_arg_t * queue, BLASLONG nums);
 int zgemm_batch_thread(blas_arg_t * queue, BLASLONG nums);
 #ifdef __CUDACC__
 }
--- a/common_macro.h
+++ b/common_macro.h
@ -2636,7 +2636,17 @@ typedef struct {
  BLASLONG prea, preb, prec, pred;
 #endif
  //for gemm_batch
  void * routine;
  int routine_mode;
 } blas_arg_t;
 #ifdef SMALL_MATRIX_OPT
 #define BLAS_SMALL_OPT  0x10000U
 #define BLAS_SMALL_B0_OPT  0x30000U
 #endif
 #endif
 #ifdef XDOUBLE
--- a/driver/level3/Makefile
+++ b/driver/level3/Makefile
@ -37,7 +37,7 @@ SBLASOBJS	+= \
 	ssyrk_UN.$(SUFFIX) ssyrk_UT.$(SUFFIX) ssyrk_LN.$(SUFFIX) ssyrk_LT.$(SUFFIX) \
 	ssyr2k_UN.$(SUFFIX) ssyr2k_UT.$(SUFFIX) ssyr2k_LN.$(SUFFIX) ssyr2k_LT.$(SUFFIX) \
 	ssyrk_kernel_U.$(SUFFIX)  ssyrk_kernel_L.$(SUFFIX) \
-	ssyr2k_kernel_U.$(SUFFIX) ssyr2k_kernel_L.$(SUFFIX)
+	ssyr2k_kernel_U.$(SUFFIX) ssyr2k_kernel_L.$(SUFFIX) sgemm_batch_thread.$(SUFFIX)
 DBLASOBJS	+= \
 	dgemm_nn.$(SUFFIX) dgemm_nt.$(SUFFIX) dgemm_tn.$(SUFFIX) dgemm_tt.$(SUFFIX) \
@ -53,7 +53,7 @@ DBLASOBJS	+= \
 	dsyrk_UN.$(SUFFIX) dsyrk_UT.$(SUFFIX) dsyrk_LN.$(SUFFIX) dsyrk_LT.$(SUFFIX) \
 	dsyr2k_UN.$(SUFFIX) dsyr2k_UT.$(SUFFIX) dsyr2k_LN.$(SUFFIX) dsyr2k_LT.$(SUFFIX) \
 	dsyrk_kernel_U.$(SUFFIX)  dsyrk_kernel_L.$(SUFFIX) \
-	dsyr2k_kernel_U.$(SUFFIX) dsyr2k_kernel_L.$(SUFFIX)
+	dsyr2k_kernel_U.$(SUFFIX) dsyr2k_kernel_L.$(SUFFIX) dgemm_batch_thread.$(SUFFIX)
 QBLASOBJS	+= \
 	qgemm_nn.$(SUFFIX) qgemm_nt.$(SUFFIX) qgemm_tn.$(SUFFIX) qgemm_tt.$(SUFFIX) \
@ -103,7 +103,7 @@ CBLASOBJS	+= \
 	cherk_kernel_LN.$(SUFFIX)  cherk_kernel_LC.$(SUFFIX) \
 	csyr2k_kernel_U.$(SUFFIX)  csyr2k_kernel_L.$(SUFFIX) \
 	cher2k_kernel_UN.$(SUFFIX) cher2k_kernel_UC.$(SUFFIX) \
-	cher2k_kernel_LN.$(SUFFIX) cher2k_kernel_LC.$(SUFFIX)
+	cher2k_kernel_LN.$(SUFFIX) cher2k_kernel_LC.$(SUFFIX) cgemm_batch_thread.$(SUFFIX)
 ZBLASOBJS	+= \
 	zgemm_nn.$(SUFFIX) zgemm_cn.$(SUFFIX) zgemm_tn.$(SUFFIX) zgemm_nc.$(SUFFIX) \
@ -137,7 +137,7 @@ ZBLASOBJS	+= \
 	zherk_kernel_LN.$(SUFFIX)  zherk_kernel_LC.$(SUFFIX) \
 	zsyr2k_kernel_U.$(SUFFIX)  zsyr2k_kernel_L.$(SUFFIX) \
 	zher2k_kernel_UN.$(SUFFIX) zher2k_kernel_UC.$(SUFFIX) \
-	zher2k_kernel_LN.$(SUFFIX) zher2k_kernel_LC.$(SUFFIX)
+	zher2k_kernel_LN.$(SUFFIX) zher2k_kernel_LC.$(SUFFIX) zgemm_batch_thread.$(SUFFIX)
 XBLASOBJS	+= \
@ -2888,6 +2888,18 @@ gemm_thread_variable.$(PSUFFIX) : gemm_thread_variable.c ../../common.h
 beta_thread.$(PSUFFIX) : beta_thread.c ../../common.h
 	$(CC) -c $(PFLAGS) $< -o $(@F)
 sgemm_batch_thread.$(SUFFIX) : gemm_batch_thread.c ../../common.h
 	$(CC) -c $(CFLAGS) $< -o $(@F)
 dgemm_batch_thread.$(SUFFIX) : gemm_batch_thread.c ../../common.h
 	$(CC) -c $(CFLAGS) $< -o $(@F)
 cgemm_batch_thread.$(SUFFIX) : gemm_batch_thread.c ../../common.h
 	$(CC) -c $(CFLAGS) $< -o $(@F)
 zgemm_batch_thread.$(SUFFIX) : gemm_batch_thread.c ../../common.h
 	$(CC) -c $(CFLAGS) $< -o $(@F)
 shgemm_thread_nn.$(PSUFFIX) : gemm.c level3_thread.c ../../param.h
 	$(CC) $(PFLAGS) $(BLOCKS) -c -DTHREADED_LEVEL3 -DHALF -UDOUBLE -UCOMPLEX -DNN $< -o $(@F)
--- a/driver/level3/gemm_batch_thread.c
+++ b/driver/level3/gemm_batch_thread.c
@ -0,0 +1,151 @@
 /*****************************************************************************
 Copyright (c) 2020, The OpenBLAS Project
 All rights reserved.
 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. Neither the name of the OpenBLAS project nor the names of 
      its contributors may be used to endorse or promote products 
      derived from this software without specific prior 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 COPYRIGHT OWNER OR 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 "common.h"
 void openblas_warning(int verbose, const char * msg);
 #ifdef SMALL_MATRIX_OPT
 static int inner_small_matrix_thread(blas_arg_t *args, BLASLONG *range_m, BLASLONG *range_n, IFLOAT *sa, IFLOAT *sb, BLASLONG mypos){
  int routine_mode;
 #ifndef COMPLEX
  int (*gemm_small_kernel)(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT ,FLOAT *, BLASLONG, FLOAT, FLOAT *, BLASLONG);
  int (*gemm_small_kernel_b0)(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT, FLOAT *, BLASLONG, FLOAT *, BLASLONG);
 #else
  int (*zgemm_small_kernel)(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT , FLOAT, FLOAT *, BLASLONG, FLOAT , FLOAT, FLOAT *, BLASLONG);
  int (*zgemm_small_kernel_b0)(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT , FLOAT, FLOAT *, BLASLONG, FLOAT *, BLASLONG);
  FLOAT alpha[2], beta[2];
 #endif
  routine_mode=args.routine_mode;
  if(routine_mode & BLAS_SMALL_B0_OPT){
 #ifndef COMPLEX
    gemm_small_kernel_b0=args.routine;
    gemm_small_kernel_b0(args.m, args.n, args.k, args.a, args.lda, *(FLOAT *)(args.alpha), args.b, args.ldb, args.c, args.ldc);
 #else
    zgemm_small_kernel_b0=args.routine;
    alpha[0]=(FLOAT *)(args.alpha)[0];
    alpha[1]=(FLOAT *)(args.alpha)[1];
    zgemm_small_kernel_b0(args.m, args.n, args.k, args.a, args.lda, alpha[0], alpha[1], args.b, args.ldb, args.c, args.ldc);
 #endif
  }else if(routine_mode & BLAS_SMALL_OPT){
 #ifndef COMPLEX
    gemm_small_kernel=args.routine;
    gemm_small_kernel(args.m, args.n, args.k, args.a, args.lda, *(FLOAT *)(args.alpha), args.b, args.ldb, *(FLOAT *)(args.beta), args.c, args.ldc);
 #else
    zgemm_small_kernel=args.routine;
    alpha[0]=(FLOAT *)(args.alpha)[0];
    alpha[1]=(FLOAT *)(args.alpha)[1];
    beta[0]=(FLOAT *)(args.beta)[0];
    beta[1]=(FLOAT *)(args.beta)[1];    
    zgemm_small_kernel(args.m, args.n, args.k, args.a, args.lda, alpha[0], alpha[1], args.b, args.ldb, beta[0], beta[1], args.c, args.ldc);
 #endif    
  }
 }
 #endif
 int CNAME(blas_arg_t * args_array, BLASLONG nums){
  XFLOAT *buffer;
  XFLOAT *sa, *sb;
  int nthreads=1;
  int (*routine)(blas_arg_t *, void *, void *, double *, double *, BLASLONG);
  int i=0, j, current_nums;
 #ifdef SMP
  blas_queue_t * queue=NULL;
 #endif
  if(nums <=0 ) return 0;
  buffer = (XFLOAT *)blas_memory_alloc(0);
  sa = (XFLOAT *)((BLASLONG)buffer +GEMM_OFFSET_A);
  sb = (XFLOAT *)(((BLASLONG)sa + ((GEMM_P * GEMM_Q * COMPSIZE * SIZE + GEMM_ALIGN) & ~GEMM_ALIGN)) + GEMM_OFFSET_B);
 #ifdef SMP
  nthreads=num_cpu_avail(3);
  if(nthreads==1){
 #endif
    //single thread
    for(i=0; i<nums; i++){
      routine=args_array[i].routine;
 #ifdef SMALL_MATRIX_OPT
      if(args_array[i].routine_mode & BLAS_SMALL_OPT){
 	inner_small_matrix_thread(&args_array[i], NULL, NULL, NULL, NULL, 0);
      }else{
 #endif      
 	routine(&args_array[i], NULL, NULL, sa, sb, 0);
 #ifdef SMALL_MATRIX_OPT
      }
 #endif
    }
 #ifdef SMP
  } else {
    //multi thread
    queue=(blas_queue_t *)malloc((nums+1) * sizeof(blas_queue_t));
    if(queue == NULL){
      openblas_warning(0, "memory alloc failed!\n");
      exit(1);
    }
    for(i=0; i<nums; i++){
      queue[i].args=&args_array[i];
      queue[i].range_m=NULL;
      queue[i].range_n=NULL;
      queue[i].sa=NULL;
      queue[i].sb=NULL;
      queue[i].next=&queue[i+1];
      queue[i].mode=args_array[i].routine_mode;
      queue[i].routine=args_array[i].routine;
 #ifdef SMALL_MATRIX_OPT
      if(args_array[i].routine_mode & BLAS_SMALL_OPT){
 	queue[i].routine=inner_small_matrix_thread;
      }
 #endif
    }
    for(i=0; i<nums; i+=nthreads){
      current_nums=((nums-i)>nthreads)? nthreads: (nums-i);
      queue[i].sa=sa;
      queue[i].sb=sb;
      queue[i+current_nums-1].next=NULL;
      exec_blas(current_nums, &queue[i]);
    }
    free(queue);
  }
 #endif
  blas_memory_free(buffer);
  return 0;
 }
--- a/exports/gensymbol
+++ b/exports/gensymbol
@ -81,6 +81,7 @@
    cblas_ismin, cblas_idmin, cblas_icmin, cblas_izmin,
    cblas_ismax, cblas_idmax, cblas_icmax, cblas_izmax,
    cblas_ssum, cblas_dsum, cblas_scsum, cblas_dzsum,
    cblas_sgemm_batch, cblas_dgemm_batch, cblas_cgemm_batch, cblas_zgemm_batch,
    cblas_xerbla
 );
--- a/interface/Makefile
+++ b/interface/Makefile
@ -278,7 +278,7 @@ CSBLAS2OBJS   = \
 CSBLAS3OBJS   = \
 	cblas_sgemm.$(SUFFIX) cblas_ssymm.$(SUFFIX) cblas_strmm.$(SUFFIX) cblas_strsm.$(SUFFIX) \
 	cblas_ssyrk.$(SUFFIX) cblas_ssyr2k.$(SUFFIX) cblas_somatcopy.$(SUFFIX)  cblas_simatcopy.$(SUFFIX)\
-	cblas_sgeadd.$(SUFFIX)
+	cblas_sgeadd.$(SUFFIX) cblas_sgemm_batch.$(SUFFIX)
 ifeq ($(BUILD_HALF),1)
 CSHBLAS3OBJS = cblas_shgemm.$(SUFFIX)
@ -300,7 +300,7 @@ CDBLAS2OBJS   = \
 CDBLAS3OBJS   += \
 	cblas_dgemm.$(SUFFIX) cblas_dsymm.$(SUFFIX) cblas_dtrmm.$(SUFFIX) cblas_dtrsm.$(SUFFIX) \
 	cblas_dsyrk.$(SUFFIX) cblas_dsyr2k.$(SUFFIX) cblas_domatcopy.$(SUFFIX)  cblas_dimatcopy.$(SUFFIX) \
-        cblas_dgeadd.$(SUFFIX) 
+        cblas_dgeadd.$(SUFFIX) cblas_dgemm_batch.$(SUFFIX)
 CCBLAS1OBJS   = \
 	cblas_icamax.$(SUFFIX) cblas_icamin.$(SUFFIX) cblas_scasum.$(SUFFIX)  cblas_caxpy.$(SUFFIX) \
@ -325,7 +325,7 @@ CCBLAS3OBJS   = \
 	cblas_csyrk.$(SUFFIX) cblas_csyr2k.$(SUFFIX) \
 	cblas_chemm.$(SUFFIX) cblas_cherk.$(SUFFIX) cblas_cher2k.$(SUFFIX) \
 	cblas_comatcopy.$(SUFFIX) cblas_cimatcopy.$(SUFFIX)\
-	cblas_cgeadd.$(SUFFIX) cblas_xerbla.$(SUFFIX)
+	cblas_cgeadd.$(SUFFIX) cblas_xerbla.$(SUFFIX) cblas_cgemm_batch.$(SUFFIX)
@ -353,7 +353,7 @@ CZBLAS3OBJS   = \
 	cblas_zsyrk.$(SUFFIX) cblas_zsyr2k.$(SUFFIX) \
 	cblas_zhemm.$(SUFFIX) cblas_zherk.$(SUFFIX) cblas_zher2k.$(SUFFIX)\
 	cblas_zomatcopy.$(SUFFIX) cblas_zimatcopy.$(SUFFIX) \
-	cblas_zgeadd.$(SUFFIX)
+	cblas_zgeadd.$(SUFFIX) cblas_zgemm_batch.$(SUFFIX)
 ifeq ($(SUPPORT_GEMM3M), 1)
@ -2236,3 +2236,15 @@ cblas_zgeadd.$(SUFFIX) cblas_zgeadd.$(PSUFFIX) : zgeadd.c
 cblas_xerbla.$(SUFFIX) cblas_xerbla.$(PSUFFIX) : xerbla.c
 	$(CC) -c $(CFLAGS) -DCBLAS $< -o $(@F)
 cblas_sgemm_batch.$(SUFFIX) cblas_sgemm_batch.$(PSUFFIX) : gemm_batch.c ../param.h
 	$(CC) -c $(CFLAGS) -DCBLAS $< -o $(@F)
 cblas_dgemm_batch.$(SUFFIX) cblas_dgemm_batch.$(PSUFFIX) : gemm_batch.c ../param.h
 	$(CC) -c $(CFLAGS) -DCBLAS $< -o $(@F)
 cblas_cgemm_batch.$(SUFFIX) cblas_cgemm_batch.$(PSUFFIX) : gemm_batch.c ../param.h
 	$(CC) -c $(CFLAGS) -DCBLAS $< -o $(@F)
 cblas_zgemm_batch.$(SUFFIX) cblas_zgemm_batch.$(PSUFFIX) : gemm_batch.c ../param.h
 	$(CC) -c $(CFLAGS) -DCBLAS $< -o $(@F)
--- a/interface/gemm_batch.c
+++ b/interface/gemm_batch.c
@ -0,0 +1,358 @@
 /*****************************************************************************
 Copyright (c) 2020, The OpenBLAS Project
 All rights reserved.
 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. Neither the name of the OpenBLAS project nor the names of 
      its contributors may be used to endorse or promote products 
      derived from this software without specific prior 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 COPYRIGHT OWNER OR 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 <stdio.h>
 #include <stdlib.h>
 #include "common.h"
 void openblas_warning(int verbose, const char * msg);
 #ifndef COMPLEX
 #ifdef XDOUBLE
 #define ERROR_NAME "QGEMM_BATCH "
 #elif defined(DOUBLE)
 #define ERROR_NAME "DGEMM_BATCH "
 #define GEMM_BATCH_THREAD dgemm_batch_thread
 #else
 #define ERROR_NAME "SGEMM_BATCH "
 #define GEMM_BATCH_THREAD sgemm_batch_thread
 #endif
 #else
 #ifdef XDOUBLE
 #define ERROR_NAME "XGEMM_BATCH "
 #elif defined(DOUBLE)
 #define ERROR_NAME "ZGEMM_BATCH "
 #define GEMM_BATCH_THREAD zgemm_batch_thread
 #else
 #define ERROR_NAME "CGEMM_BATCH "
 #define GEMM_BATCH_THREAD cgemm_batch_thread
 #endif
 #endif
 static int (*gemm[])(blas_arg_t *, BLASLONG *, BLASLONG *, IFLOAT *, IFLOAT *, BLASLONG) = {
  GEMM_NN, GEMM_TN, GEMM_RN, GEMM_CN,
  GEMM_NT, GEMM_TT, GEMM_RT, GEMM_CT,
  GEMM_NR, GEMM_TR, GEMM_RR, GEMM_CR,
  GEMM_NC, GEMM_TC, GEMM_RC, GEMM_CC,
 };
 #ifdef SMALL_MATRIX_OPT
 #ifndef COMPLEX
 static int (*gemm_small_kernel[])(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT ,FLOAT *, BLASLONG, FLOAT, FLOAT *, BLASLONG) = {
 #ifndef GEMM3M
 	GEMM_SMALL_KERNEL_NN, GEMM_SMALL_KERNEL_TN, NULL, NULL,
 	GEMM_SMALL_KERNEL_NT, GEMM_SMALL_KERNEL_TT, NULL, NULL,
 #endif
 };
 static int (*gemm_small_kernel_b0[])(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT, FLOAT *, BLASLONG, FLOAT *, BLASLONG) = {
 #ifndef GEMM3M
 	GEMM_SMALL_KERNEL_B0_NN, GEMM_SMALL_KERNEL_B0_TN, NULL, NULL,
 	GEMM_SMALL_KERNEL_B0_NT, GEMM_SMALL_KERNEL_B0_TT, NULL, NULL,
 #endif
 };
 #else
 static int (*zgemm_small_kernel[])(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT , FLOAT, FLOAT *, BLASLONG, FLOAT , FLOAT, FLOAT *, BLASLONG) = {
 #ifndef GEMM3M
 	GEMM_SMALL_KERNEL_NN, GEMM_SMALL_KERNEL_TN, GEMM_SMALL_KERNEL_RN, GEMM_SMALL_KERNEL_CN,
 	GEMM_SMALL_KERNEL_NT, GEMM_SMALL_KERNEL_TT, GEMM_SMALL_KERNEL_RT, GEMM_SMALL_KERNEL_CT,
 	GEMM_SMALL_KERNEL_NR, GEMM_SMALL_KERNEL_TR, GEMM_SMALL_KERNEL_RR, GEMM_SMALL_KERNEL_CR,
 	GEMM_SMALL_KERNEL_NC, GEMM_SMALL_KERNEL_TC, GEMM_SMALL_KERNEL_RC, GEMM_SMALL_KERNEL_CC,
 #endif
 };
 static int (*zgemm_small_kernel_b0[])(BLASLONG, BLASLONG, BLASLONG, FLOAT *, BLASLONG, FLOAT , FLOAT, FLOAT *, BLASLONG, FLOAT *, BLASLONG) = {
 #ifndef GEMM3M
 	GEMM_SMALL_KERNEL_B0_NN, GEMM_SMALL_KERNEL_B0_TN, GEMM_SMALL_KERNEL_B0_RN, GEMM_SMALL_KERNEL_B0_CN,
 	GEMM_SMALL_KERNEL_B0_NT, GEMM_SMALL_KERNEL_B0_TT, GEMM_SMALL_KERNEL_B0_RT, GEMM_SMALL_KERNEL_B0_CT,
 	GEMM_SMALL_KERNEL_B0_NR, GEMM_SMALL_KERNEL_B0_TR, GEMM_SMALL_KERNEL_B0_RR, GEMM_SMALL_KERNEL_B0_CR,
 	GEMM_SMALL_KERNEL_B0_NC, GEMM_SMALL_KERNEL_B0_TC, GEMM_SMALL_KERNEL_B0_RC, GEMM_SMALL_KERNEL_B0_CC,
 #endif
 };
 #endif
 #endif
 void CNAME(enum CBLAS_ORDER order, enum CBLAS_TRANSPOSE *  transa_array, enum CBLAS_TRANSPOSE * transb_array,
 	   blasint * m_array, blasint * n_array, blasint * k_array,
 #ifndef COMPLEX
 	   FLOAT * alpha_array,
 	   FLOAT ** a_array, blasint * lda_array,
 	   FLOAT ** b_array, blasint * ldb_array,
 	   FLOAT * beta_array,
 	   FLOAT ** c_array, blasint * ldc_array, blasint group_count, blasint * group_size) {
 #else
 	   void * valpha_array,
 	   void ** va_array, blasint * lda_array,
 	   void ** vb_array, blasint * ldb_array,
 	   void * vbeta_array,
 	   void ** vc_array, blasint * ldc_array, blasint group_count, blasint * group_size) {
  FLOAT * alpha_array=(FLOAT *)valpha_array;
  FLOAT * beta_array=(FLOAT *)vbeta_array;
  FLOAT ** a_array=(FLOAT**)va_array;
  FLOAT ** b_array=(FLOAT**)vb_array;
  FLOAT ** c_array=(FLOAT**)vc_array;
 #endif
  blas_arg_t * args_array=NULL;
  int mode=0, group_mode=0;
  blasint total_num=0;
  blasint i=0, j=0, matrix_idx=0, count=0;
  int group_transa, group_transb;
  BLASLONG group_nrowa, group_nrowb;
  blasint info;
  void * group_alpha, * group_beta;
  BLASLONG group_m, group_n, group_k;
  BLASLONG group_lda, group_ldb, group_ldc;
  void * group_routine=NULL;
 #ifdef SMALL_MATRIX_OPT
  void * group_small_matrix_opt_routine=NULL;
 #endif
 #if defined (SMP) || defined(SMALL_MATRIX_OPT)
  double MNK;
 #endif
  PRINT_DEBUG_CNAME;
  for(i=0; i<group_count; i++){
    total_num+=group_size[i];
  }
  args_array=(blas_arg_t *)malloc(total_num * sizeof(blas_arg_t));
  if(args_array == NULL){
    openblas_warning(0, "memory alloc failed!\n");
    exit(1);
  }
 #ifdef SMP
 #ifndef COMPLEX
 #ifdef XDOUBLE
  mode  =  BLAS_XDOUBLE | BLAS_REAL;
 #elif defined(DOUBLE)
  mode  =  BLAS_DOUBLE  | BLAS_REAL;
 #else
  mode  =  BLAS_SINGLE  | BLAS_REAL;
 #endif
 #else
 #ifdef XDOUBLE
  mode  =  BLAS_XDOUBLE | BLAS_COMPLEX;
 #elif defined(DOUBLE)
  mode  =  BLAS_DOUBLE  | BLAS_COMPLEX;
 #else
  mode  =  BLAS_SINGLE  | BLAS_COMPLEX;
 #endif
 #endif
 #endif
  for(i=0; i<group_count; matrix_idx+=group_size[i], i++){
    group_alpha = (void *)&alpha_array[i * COMPSIZE];
    group_beta = (void *)&beta_array[i * COMPSIZE];
    group_transa = -1;
    group_transb = -1;
    info   = 0;
    if (order == CblasColMajor) {
      group_m = m_array[i];
      group_n = n_array[i];
      group_k = k_array[i];
      group_lda = lda_array[i];
      group_ldb = ldb_array[i];
      group_ldc = ldc_array[i];
      if (transa_array[i] == CblasNoTrans)     group_transa = 0;
      if (transa_array[i] == CblasTrans)       group_transa = 1;
 #ifndef COMPLEX
      if (transa_array[i] == CblasConjNoTrans) group_transa = 0;
      if (transa_array[i] == CblasConjTrans)   group_transa = 1;
 #else
      if (transa_array[i] == CblasConjNoTrans) group_transa = 2;
      if (transa_array[i] == CblasConjTrans)   group_transa = 3;
 #endif
      if (transb_array[i] == CblasNoTrans)     group_transb = 0;
      if (transb_array[i] == CblasTrans)       group_transb = 1;
 #ifndef COMPLEX
      if (transb_array[i] == CblasConjNoTrans) group_transb = 0;
      if (transb_array[i] == CblasConjTrans)   group_transb = 1;
 #else
      if (transb_array[i] == CblasConjNoTrans) group_transb = 2;
      if (transb_array[i] == CblasConjTrans)   group_transb = 3;
 #endif
      group_nrowa = group_m;
      if (group_transa & 1) group_nrowa = group_k;
      group_nrowb = group_k;
      if (group_transb & 1) group_nrowb = group_n;
      info=-1;
      if (group_ldc < group_m) info = 13;
      if (group_ldb < group_nrowb)  info = 10;
      if (group_lda < group_nrowa)  info =  8;
      if (group_k < 0)        info =  5;
      if (group_n < 0)        info =  4;
      if (group_m < 0)        info =  3;
      if (group_transb < 0)        info =  2;
      if (group_transa < 0)        info =  1;
    }else if (order == CblasRowMajor) {
      group_m = n_array[i];
      group_n = m_array[i];
      group_k = k_array[i];
      group_lda = ldb_array[i];
      group_ldb = lda_array[i];
      group_ldc = ldc_array[i];
      if (transb_array[i] == CblasNoTrans)     group_transa = 0;
      if (transb_array[i] == CblasTrans)       group_transa = 1;
 #ifndef COMPLEX
      if (transb_array[i] == CblasConjNoTrans) group_transa = 0;
      if (transb_array[i] == CblasConjTrans)   group_transa = 1;
 #else
      if (transb_array[i] == CblasConjNoTrans) group_transa = 2;
      if (transb_array[i] == CblasConjTrans)   group_transa = 3;
 #endif
      if (transa_array[i] == CblasNoTrans)     group_transb = 0;
      if (transa_array[i] == CblasTrans)       group_transb = 1;
 #ifndef COMPLEX
      if (transa_array[i] == CblasConjNoTrans) group_transb = 0;
      if (transa_array[i] == CblasConjTrans)   group_transb = 1;
 #else
      if (transa_array[i] == CblasConjNoTrans) group_transb = 2;
      if (transa_array[i] == CblasConjTrans)   group_transb = 3;
 #endif
      group_nrowa = group_m;
      if (group_transa & 1) group_nrowa = group_k;
      group_nrowb = group_k;
      if (group_transb & 1) group_nrowb = group_n;
      info=-1;
      if (group_ldc < group_m) info = 13;
      if (group_ldb < group_nrowb)  info = 10;
      if (group_lda < group_nrowa)  info =  8;
      if (group_k < 0)        info =  5;
      if (group_n < 0)        info =  4;
      if (group_m < 0)        info =  3;
      if (group_transb < 0)        info =  2;
      if (group_transa < 0)        info =  1;      
    }
    if (info >= 0) {
      BLASFUNC(xerbla)(ERROR_NAME, &info, sizeof(ERROR_NAME));
      free(args_array);
      return;
    }
    if (group_m == 0 || group_n == 0) continue;
    group_mode=mode;
 #if defined(SMP) || defined(SMALL_MATRIX_OPT)
    MNK = (double) group_m * (double) group_n * (double) group_k;
 #endif
 #ifdef SMALL_MATRIX_OPT
    if(MNK <= 100.0*100.0*100.0){
      group_routine=NULL;
 #if !defined(COMPLEX)
      if(*(FLOAT *)(group_beta) == 0.0){
 	group_mode=mode | BLAS_SMALL_B0_OPT;
 	group_small_matrix_opt_routine=(void *)(gemm_small_kernel_b0[(group_transb<<2)|group_transa]);
      }else{
 	group_mode=mode | BLAS_SMALL_OPT;
 	group_small_matrix_opt_routine=(void *)(gemm_small_kernel[(group_transb<<2)|group_transa]);
      }
 #else
      if(((FLOAT *)(group_beta))[0] == 0.0 && ((FLOAT *)(group_beta))[1] == 0.0){
 	group_mode=mode | BLAS_SMALL_B0_OPT;
 	group_small_matrix_opt_routine=(void *)(zgemm_small_kernel_b0[(group_transb<<2)|group_transa]);
      }else{
 	group_mode=mode | BLAS_SMALL_OPT;
 	group_small_matrix_opt_routine=(void *)(zgemm_small_kernel[(group_transb<<2)|group_transa]);
      }
 #endif
    }else{
 #endif
      group_routine=(void*)(gemm[(group_transb<<2)|group_transa]);
 #ifdef SMALL_MATRIX_OPT
    }
 #endif    
    for(j=0; j<group_size[i]; j++){
      args_array[count].m=group_m;
      args_array[count].n=group_n;
      args_array[count].k=group_k;
      args_array[count].lda=group_lda;
      args_array[count].ldb=group_ldb;
      args_array[count].ldc=group_ldc;
      args_array[count].alpha=group_alpha;
      args_array[count].beta=group_beta;
      if (order == CblasColMajor) {      
 	args_array[count].a=(a_array[matrix_idx+j]);
 	args_array[count].b=(b_array[matrix_idx+j]);
      }else if(order == CblasRowMajor){
 	args_array[count].a=(b_array[matrix_idx+j]);
 	args_array[count].b=(a_array[matrix_idx+j]);
      }
      args_array[count].c=(c_array[matrix_idx+j]);
      args_array[count].routine_mode=group_mode;
      args_array[count].routine=group_routine;
 #ifdef SMALL_MATRIX_OPT
      args_array[count].routine=group_small_matrix_opt_routine;
 #endif      
      count++;
    }
  }
  if(count>0){
    GEMM_BATCH_THREAD(args_array,count);
  }
  free(args_array);
 }