1b8a1809bSJed Brown static const char help[] = "STREAM benchmark specialized for SSE2\n\\n"; 2b8a1809bSJed Brown 3b8a1809bSJed Brown /* Note: this file has been modified significantly from its original version */ 4b8a1809bSJed Brown #include <emmintrin.h> 5b8a1809bSJed Brown #include <petsctime.h> 6b8a1809bSJed Brown #include <petscsys.h> 7fa8572e2SBarry Smith #if defined(HAVE_NUMA) 8b8a1809bSJed Brown #include <numa.h> 9fa8572e2SBarry Smith #endif 10b8a1809bSJed Brown #include <float.h> 11b8a1809bSJed Brown 12519f805aSKarl Rupp #if !defined(SSE2) 13b8a1809bSJed Brown # define SSE2 1 14b8a1809bSJed Brown #endif 15519f805aSKarl Rupp #if !defined(__SSE2__) 16b8a1809bSJed Brown # error SSE2 instruction set is not enabled, try adding -march=native to CFLAGS or disable by adding -DSSE2=0 17b8a1809bSJed Brown #endif 18519f805aSKarl Rupp #if !defined(PREFETCH_NTA) /* Use software prefetch and set non-temporal policy so that lines evicted from L1D will not subsequently reside in L2 or L3. */ 19b8a1809bSJed Brown # define PREFETCH_NTA 1 20b8a1809bSJed Brown #endif 21519f805aSKarl Rupp #if !defined(STATIC_ALLOC) /* Statically allocate the vectors. Most platforms do not find physical pages when memory is allocated, therefore the faulting strategy still affects performance. */ 22b8a1809bSJed Brown # define STATIC_ALLOC 0 23b8a1809bSJed Brown #endif 24519f805aSKarl Rupp #if !defined(FAULT_TOGETHER) /* Faults all three vectors together which usually interleaves DRAM pages in physical memory. */ 25b8a1809bSJed Brown # define FAULT_TOGETHER 0 26b8a1809bSJed Brown #endif 27519f805aSKarl Rupp #if !defined(USE_MEMCPY) /* Literally call memcpy(3) for the COPY benchmark. Some compilers detect the unoptimized loop as memcpy and call this anyway. */ 28b8a1809bSJed Brown # define USE_MEMCPY 0 29b8a1809bSJed Brown #endif 30b8a1809bSJed Brown 31b8a1809bSJed Brown /* 32b8a1809bSJed Brown * Program: Stream 33b8a1809bSJed Brown * Programmer: Joe R. Zagar 34b8a1809bSJed Brown * Revision: 4.0-BETA, October 24, 1995 35b8a1809bSJed Brown * Original code developed by John D. McCalpin 36b8a1809bSJed Brown * 37b8a1809bSJed Brown * This program measures memory transfer rates in MB/s for simple 38b8a1809bSJed Brown * computational kernels coded in C. These numbers reveal the quality 39b8a1809bSJed Brown * of code generation for simple uncacheable kernels as well as showing 40b8a1809bSJed Brown * the cost of floating-point operations relative to memory accesses. 41b8a1809bSJed Brown * 42b8a1809bSJed Brown * INSTRUCTIONS: 43b8a1809bSJed Brown * 44b8a1809bSJed Brown * 1) Stream requires a good bit of memory to run. Adjust the 45b8a1809bSJed Brown * value of 'N' (below) to give a 'timing calibration' of 46b8a1809bSJed Brown * at least 20 clock-ticks. This will provide rate estimates 47b8a1809bSJed Brown * that should be good to about 5% precision. 48b8a1809bSJed Brown */ 49b8a1809bSJed Brown 50b8a1809bSJed Brown # define N 4000000 51b8a1809bSJed Brown # define NTIMES 100 52b8a1809bSJed Brown # define OFFSET 0 53b8a1809bSJed Brown 54b8a1809bSJed Brown # define HLINE "-------------------------------------------------------------\n" 55b8a1809bSJed Brown 56519f805aSKarl Rupp # if !defined(MIN) 57b8a1809bSJed Brown # define MIN(x,y) ((x)<(y) ? (x) : (y)) 58b8a1809bSJed Brown # endif 59519f805aSKarl Rupp # if !defined(MAX) 60b8a1809bSJed Brown # define MAX(x,y) ((x)>(y) ? (x) : (y)) 61b8a1809bSJed Brown # endif 62b8a1809bSJed Brown 63b8a1809bSJed Brown #if STATIC_ALLOC 64b8a1809bSJed Brown double a[N+OFFSET],b[N+OFFSET],c[N+OFFSET]; 65b8a1809bSJed Brown #endif 66b8a1809bSJed Brown 67b8a1809bSJed Brown static int checktick(void); 68b8a1809bSJed Brown static double Second(void); 69b8a1809bSJed Brown 70b8a1809bSJed Brown int main(int argc,char *argv[]) 71b8a1809bSJed Brown { 72b8a1809bSJed Brown const char *label[4] = {"Copy", "Scale","Add", "Triad"}; 73b8a1809bSJed Brown const double bytes[4] = {2 * sizeof(double) * N, 74b8a1809bSJed Brown 2 * sizeof(double) * N, 75b8a1809bSJed Brown 3 * sizeof(double) * N, 76b8a1809bSJed Brown 3 * sizeof(double) * N}; 77b8a1809bSJed Brown double rmstime[4] = {0},maxtime[4] = {0},mintime[4] = {FLT_MAX,FLT_MAX,FLT_MAX,FLT_MAX}; 78b8a1809bSJed Brown int quantum; 79b8a1809bSJed Brown int BytesPerWord,j,k,size; 80b8a1809bSJed Brown PetscInt node = -1; 81b8a1809bSJed Brown double scalar, t, times[4][NTIMES]; 8226f47effSBarry Smith PetscErrorCode ierr; 83b8a1809bSJed Brown #if !STATIC_ALLOC 84b8a1809bSJed Brown double *PETSC_RESTRICT a,*PETSC_RESTRICT b,*PETSC_RESTRICT c; 85b8a1809bSJed Brown #endif 86b8a1809bSJed Brown 87a438ae71SBarry Smith ierr = PetscInitialize(&argc,&argv,0,help);if (ierr) return ierr; 88*5f80ce2aSJacob Faibussowitsch CHKERRMPI(MPI_Comm_size(PETSC_COMM_WORLD,&size)); 89*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscOptionsGetInt(NULL,NULL,"-node",&node,NULL)); 90b8a1809bSJed Brown /* --- SETUP --- determine precision and check timing --- */ 91b8a1809bSJed Brown 92b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,HLINE); 93b8a1809bSJed Brown BytesPerWord = sizeof(double); 9426f47effSBarry Smith PetscPrintf(PETSC_COMM_WORLD,"This system uses %d bytes per DOUBLE PRECISION word.\n",BytesPerWord); 95b8a1809bSJed Brown 96b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,HLINE); 97b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"Array size = %d, Offset = %d\n", N, OFFSET); 9826f47effSBarry Smith PetscPrintf(PETSC_COMM_WORLD,"Total memory required = %.1f MB per process.\n",(3 * N * BytesPerWord) / 1048576.0); 99b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"Each test is run %d times, but only\n", NTIMES); 100b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"the *best* time for each is used.\n"); 101b8a1809bSJed Brown 102b8a1809bSJed Brown /* Get initial value for system clock. */ 103b8a1809bSJed Brown 104b8a1809bSJed Brown #if !STATIC_ALLOC 105b8a1809bSJed Brown if (node == -1) { 106b8a1809bSJed Brown posix_memalign((void**)&a,64,N*sizeof(double)); 107b8a1809bSJed Brown posix_memalign((void**)&b,64,N*sizeof(double)); 108b8a1809bSJed Brown posix_memalign((void**)&c,64,N*sizeof(double)); 109b8a1809bSJed Brown } else if (node == -2) { 110b8a1809bSJed Brown a = malloc(N*sizeof(double)); 111b8a1809bSJed Brown b = malloc(N*sizeof(double)); 112b8a1809bSJed Brown c = malloc(N*sizeof(double)); 113fa8572e2SBarry Smith #if defined(HAVE_NUMA) 114b8a1809bSJed Brown } else { 115b8a1809bSJed Brown a = numa_alloc_onnode(N*sizeof(double),node); 116b8a1809bSJed Brown b = numa_alloc_onnode(N*sizeof(double),node); 117b8a1809bSJed Brown c = numa_alloc_onnode(N*sizeof(double),node); 118fa8572e2SBarry Smith #endif 119b8a1809bSJed Brown } 120b8a1809bSJed Brown #endif 121b8a1809bSJed Brown #if FAULT_TOGETHER 122b8a1809bSJed Brown for (j=0; j<N; j++) { 123b8a1809bSJed Brown a[j] = 1.0; 124b8a1809bSJed Brown b[j] = 2.0; 125b8a1809bSJed Brown c[j] = 0.0; 126b8a1809bSJed Brown } 127b8a1809bSJed Brown #else 128b8a1809bSJed Brown for (j=0; j<N; j++) a[j] = 1.0; 129b8a1809bSJed Brown for (j=0; j<N; j++) b[j] = 2.0; 130b8a1809bSJed Brown for (j=0; j<N; j++) c[j] = 0.0; 131b8a1809bSJed Brown #endif 132b8a1809bSJed Brown 133b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,HLINE); 134b8a1809bSJed Brown 13594c9c6d3SKarl Rupp if ((quantum = checktick()) >= 1) PetscPrintf(PETSC_COMM_WORLD,"Your clock granularity/precision appears to be %d microseconds.\n", quantum); 13694c9c6d3SKarl Rupp else PetscPrintf(PETSC_COMM_WORLD,"Your clock granularity appears to be less than one microsecond.\n"); 137b8a1809bSJed Brown 138b8a1809bSJed Brown t = Second(); 1396f2b61bcSKarl Rupp for (j = 0; j < N; j++) a[j] = 2.0E0 * a[j]; 140b8a1809bSJed Brown t = 1.0E6 * (Second() - t); 141b8a1809bSJed Brown 14226f47effSBarry Smith PetscPrintf(PETSC_COMM_WORLD,"Each test below will take on the order of %d microseconds.\n", (int) t); 143b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD," (= %d clock ticks)\n", (int) (t/quantum)); 144b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"Increase the size of the arrays if this shows that\n"); 145b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"you are not getting at least 20 clock ticks per test.\n"); 146b8a1809bSJed Brown 147b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,HLINE); 148b8a1809bSJed Brown 149b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"WARNING -- The above is only a rough guideline.\n"); 150b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"For best results, please be sure you know the\n"); 151b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"precision of your system timer.\n"); 152b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,HLINE); 153b8a1809bSJed Brown 154b8a1809bSJed Brown /* --- MAIN LOOP --- repeat test cases NTIMES times --- */ 155b8a1809bSJed Brown 156b8a1809bSJed Brown scalar = 3.0; 157b8a1809bSJed Brown for (k=0; k<NTIMES; k++) { 158106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 159b8a1809bSJed Brown /* ### COPY: c <- a ### */ 160b8a1809bSJed Brown times[0][k] = Second(); 161106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 162b8a1809bSJed Brown #if USE_MEMCPY 163b8a1809bSJed Brown memcpy(c,a,N*sizeof(double)); 164b8a1809bSJed Brown #elif SSE2 165b8a1809bSJed Brown for (j=0; j<N; j+=8) { 166b8a1809bSJed Brown _mm_stream_pd(c+j+0,_mm_load_pd(a+j+0)); 167b8a1809bSJed Brown _mm_stream_pd(c+j+2,_mm_load_pd(a+j+2)); 168b8a1809bSJed Brown _mm_stream_pd(c+j+4,_mm_load_pd(a+j+4)); 169b8a1809bSJed Brown _mm_stream_pd(c+j+6,_mm_load_pd(a+j+6)); 170b8a1809bSJed Brown # if PREFETCH_NTA 171b8a1809bSJed Brown _mm_prefetch(a+j+64,_MM_HINT_NTA); 172b8a1809bSJed Brown # endif 173b8a1809bSJed Brown } 174b8a1809bSJed Brown #else 175b8a1809bSJed Brown for (j=0; j<N; j++) c[j] = a[j]; 176b8a1809bSJed Brown #endif 177106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 178b8a1809bSJed Brown times[0][k] = Second() - times[0][k]; 179b8a1809bSJed Brown 180b8a1809bSJed Brown /* ### SCALE: b <- scalar * c ### */ 181b8a1809bSJed Brown times[1][k] = Second(); 182106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 183b8a1809bSJed Brown #if SSE2 184b8a1809bSJed Brown { 185b8a1809bSJed Brown __m128d scalar2 = _mm_set1_pd(scalar); 186b8a1809bSJed Brown for (j=0; j<N; j+=8) { 187b8a1809bSJed Brown _mm_stream_pd(b+j+0,_mm_mul_pd(scalar2,_mm_load_pd(c+j+0))); 188b8a1809bSJed Brown _mm_stream_pd(b+j+2,_mm_mul_pd(scalar2,_mm_load_pd(c+j+2))); 189b8a1809bSJed Brown _mm_stream_pd(b+j+4,_mm_mul_pd(scalar2,_mm_load_pd(c+j+4))); 190b8a1809bSJed Brown _mm_stream_pd(b+j+6,_mm_mul_pd(scalar2,_mm_load_pd(c+j+6))); 191b8a1809bSJed Brown # if PREFETCH_NTA 192b8a1809bSJed Brown _mm_prefetch(c+j+64,_MM_HINT_NTA); 193b8a1809bSJed Brown # endif 194b8a1809bSJed Brown } 195b8a1809bSJed Brown } 196b8a1809bSJed Brown #else 197b8a1809bSJed Brown for (j=0; j<N; j++) b[j] = scalar*c[j]; 198b8a1809bSJed Brown #endif 199106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 200b8a1809bSJed Brown times[1][k] = Second() - times[1][k]; 201b8a1809bSJed Brown 202b8a1809bSJed Brown /* ### ADD: c <- a + b ### */ 203b8a1809bSJed Brown times[2][k] = Second(); 204106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 205b8a1809bSJed Brown #if SSE2 206b8a1809bSJed Brown { 207b8a1809bSJed Brown for (j=0; j<N; j+=8) { 208b8a1809bSJed Brown _mm_stream_pd(c+j+0,_mm_add_pd(_mm_load_pd(a+j+0),_mm_load_pd(b+j+0))); 209b8a1809bSJed Brown _mm_stream_pd(c+j+2,_mm_add_pd(_mm_load_pd(a+j+2),_mm_load_pd(b+j+2))); 210b8a1809bSJed Brown _mm_stream_pd(c+j+4,_mm_add_pd(_mm_load_pd(a+j+4),_mm_load_pd(b+j+4))); 211b8a1809bSJed Brown _mm_stream_pd(c+j+6,_mm_add_pd(_mm_load_pd(a+j+6),_mm_load_pd(b+j+6))); 212b8a1809bSJed Brown # if PREFETCH_NTA 213b8a1809bSJed Brown _mm_prefetch(a+j+64,_MM_HINT_NTA); 214b8a1809bSJed Brown _mm_prefetch(b+j+64,_MM_HINT_NTA); 215b8a1809bSJed Brown # endif 216b8a1809bSJed Brown } 217b8a1809bSJed Brown } 218b8a1809bSJed Brown #else 219b8a1809bSJed Brown for (j=0; j<N; j++) c[j] = a[j]+b[j]; 220b8a1809bSJed Brown #endif 221106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 222b8a1809bSJed Brown times[2][k] = Second() - times[2][k]; 223b8a1809bSJed Brown 224b8a1809bSJed Brown /* ### TRIAD: a <- b + scalar * c ### */ 225b8a1809bSJed Brown times[3][k] = Second(); 226106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 227b8a1809bSJed Brown #if SSE2 228b8a1809bSJed Brown { 229b8a1809bSJed Brown __m128d scalar2 = _mm_set1_pd(scalar); 230b8a1809bSJed Brown for (j=0; j<N; j+=8) { 231b8a1809bSJed Brown _mm_stream_pd(a+j+0,_mm_add_pd(_mm_load_pd(b+j+0),_mm_mul_pd(scalar2,_mm_load_pd(c+j+0)))); 232b8a1809bSJed Brown _mm_stream_pd(a+j+2,_mm_add_pd(_mm_load_pd(b+j+2),_mm_mul_pd(scalar2,_mm_load_pd(c+j+2)))); 233b8a1809bSJed Brown _mm_stream_pd(a+j+4,_mm_add_pd(_mm_load_pd(b+j+4),_mm_mul_pd(scalar2,_mm_load_pd(c+j+4)))); 234b8a1809bSJed Brown _mm_stream_pd(a+j+6,_mm_add_pd(_mm_load_pd(b+j+6),_mm_mul_pd(scalar2,_mm_load_pd(c+j+6)))); 235b8a1809bSJed Brown # if PREFETCH_NTA 236b8a1809bSJed Brown _mm_prefetch(b+j+64,_MM_HINT_NTA); 237b8a1809bSJed Brown _mm_prefetch(c+j+64,_MM_HINT_NTA); 238b8a1809bSJed Brown # endif 239b8a1809bSJed Brown } 240b8a1809bSJed Brown } 241b8a1809bSJed Brown #else 242b8a1809bSJed Brown for (j=0; j<N; j++) a[j] = b[j]+scalar*c[j]; 243b8a1809bSJed Brown #endif 244106b1c52SJed Brown MPI_Barrier(PETSC_COMM_WORLD); 245b8a1809bSJed Brown times[3][k] = Second() - times[3][k]; 246b8a1809bSJed Brown } 247b8a1809bSJed Brown 248b8a1809bSJed Brown /* --- SUMMARY --- */ 249b8a1809bSJed Brown 2506f2b61bcSKarl Rupp for (k=0; k<NTIMES; k++) 251b8a1809bSJed Brown for (j=0; j<4; j++) { 252b8a1809bSJed Brown rmstime[j] = rmstime[j] + (times[j][k] * times[j][k]); 253b8a1809bSJed Brown mintime[j] = MIN(mintime[j], times[j][k]); 254b8a1809bSJed Brown maxtime[j] = MAX(maxtime[j], times[j][k]); 255b8a1809bSJed Brown } 256b8a1809bSJed Brown 257b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"%8s: %11s %11s %11s %11s %11s\n","Function","Rate (MB/s)","Total (MB/s)","RMS time","Min time","Max time"); 258b8a1809bSJed Brown for (j=0; j<4; j++) { 259b8a1809bSJed Brown rmstime[j] = sqrt(rmstime[j]/(double)NTIMES); 260b8a1809bSJed Brown PetscPrintf(PETSC_COMM_WORLD,"%8s: %11.4f %11.4f %11.4f %11.4f %11.4f\n", label[j], 1.0e-06*bytes[j]/mintime[j], size*1.0e-06*bytes[j]/mintime[j], rmstime[j], mintime[j], maxtime[j]); 261b8a1809bSJed Brown } 26226f47effSBarry Smith ierr = PetscFinalize(); 26326f47effSBarry Smith return ierr; 264b8a1809bSJed Brown } 265b8a1809bSJed Brown 266a6dfd86eSKarl Rupp static double Second() 267a6dfd86eSKarl Rupp { 268b8a1809bSJed Brown double t; 2698563dfccSBarry Smith PetscTime(&t); 270b8a1809bSJed Brown return t; 271b8a1809bSJed Brown } 272b8a1809bSJed Brown 273b8a1809bSJed Brown #define M 20 274d1d3a73cSBarry Smith static int checktick(void) 275b8a1809bSJed Brown { 276b8a1809bSJed Brown int i, minDelta, Delta; 277b8a1809bSJed Brown double t1, t2, timesfound[M]; 278b8a1809bSJed Brown 279b8a1809bSJed Brown /* Collect a sequence of M unique time values from the system. */ 280b8a1809bSJed Brown 281b8a1809bSJed Brown for (i = 0; i < M; i++) { 282b8a1809bSJed Brown t1 = Second(); 2836f2b61bcSKarl Rupp while ((t2 = Second()) - t1 < 1.0E-6) { 2846f2b61bcSKarl Rupp } 285b8a1809bSJed Brown timesfound[i] = t1 = t2; 286b8a1809bSJed Brown } 287b8a1809bSJed Brown 288b8a1809bSJed Brown /* 289b8a1809bSJed Brown * Determine the minimum difference between these M values. 290b8a1809bSJed Brown * This result will be our estimate (in microseconds) for the 291b8a1809bSJed Brown * clock granularity. 292b8a1809bSJed Brown */ 293b8a1809bSJed Brown 294b8a1809bSJed Brown minDelta = 1000000; 295b8a1809bSJed Brown for (i = 1; i < M; i++) { 296b8a1809bSJed Brown Delta = (int)(1.0E6 * (timesfound[i]-timesfound[i-1])); 297b8a1809bSJed Brown minDelta = MIN(minDelta, MAX(Delta,0)); 298b8a1809bSJed Brown } 299b8a1809bSJed Brown 300b8a1809bSJed Brown return(minDelta); 301b8a1809bSJed Brown } 302