/* ////////////////////////////////////////////////////////////////////////////
-- Testing zhegvdx
*/
int main( int argc, char** argv)
{
TESTING_INIT_MGPU();
real_Double_t mgpu_time;
magmaDoubleComplex *h_A, *h_Ainit, *h_B, *h_Binit, *h_work;
#if defined(PRECISION_z) || defined(PRECISION_c)
double *rwork;
magma_int_t lrwork;
#endif
double *w1, result;
magma_int_t *iwork;
magma_int_t N, n2, info, lwork, liwork;
magmaDoubleComplex c_zero = MAGMA_Z_ZERO;
magmaDoubleComplex c_one = MAGMA_Z_ONE;
magmaDoubleComplex c_neg_one = MAGMA_Z_NEG_ONE;
magma_int_t ione = 1;
magma_int_t ISEED[4] = {0,0,0,1};
magma_timestr_t start, end;
magma_opts opts;
parse_opts( argc, argv, &opts );
double tol = opts.tolerance * lapackf77_dlamch("E");
char jobz = opts.jobz;
int checkres = opts.check;
char range = 'A';
char uplo = opts.uplo;
magma_int_t itype = opts.itype;
double f = opts.fraction;
if (f != 1)
range='I';
if ( checkres && jobz == MagmaNoVec ) {
fprintf( stderr, "checking results requires vectors; setting jobz=V (option -JV)\n" );
jobz = MagmaVec;
}
printf("using: nrgpu = %d, itype = %d, jobz = %c, range = %c, uplo = %c, checkres = %d, fraction = %6.4f\n",
(int) opts.ngpu, (int) itype, jobz, range, uplo, (int) checkres, f);
printf(" N M nr GPU MGPU Time(s) \n");
printf("====================================\n");
magma_int_t threads = magma_get_numthreads();
for( int i = 0; i < opts.ntest; ++i ) {
for( int iter = 0; iter < opts.niter; ++iter ) {
N = opts.nsize[i];
n2 = N*N;
#if defined(PRECISION_z) || defined(PRECISION_c)
lwork = magma_zbulge_get_lq2(N, threads) + 2*N + N*N;
lrwork = 1 + 5*N +2*N*N;
#else
lwork = magma_zbulge_get_lq2(N, threads) + 1 + 6*N + 2*N*N;
#endif
liwork = 3 + 5*N;
//magma_int_t NB = 96;//magma_bulge_get_nb(N);
//magma_int_t sizvblg = magma_zbulge_get_lq2(N, threads);
//magma_int_t siz = max(sizvblg,n2)+2*(N*NB+N)+24*N;
/* Allocate host memory for the matrix */
TESTING_HOSTALLOC( h_A, magmaDoubleComplex, n2);
TESTING_HOSTALLOC( h_B, magmaDoubleComplex, n2);
TESTING_MALLOC( w1, double , N);
TESTING_HOSTALLOC(h_work, magmaDoubleComplex, lwork);
#if defined(PRECISION_z) || defined(PRECISION_c)
TESTING_HOSTALLOC( rwork, double, lrwork);
#endif
TESTING_MALLOC( iwork, magma_int_t, liwork);
/* Initialize the matrix */
lapackf77_zlarnv( &ione, ISEED, &n2, h_A );
lapackf77_zlarnv( &ione, ISEED, &n2, h_B );
/* increase the diagonal */
{
for(int i=0; i<N; i++) {
MAGMA_Z_SET2REAL( h_B[i*N+i], ( MAGMA_Z_REAL(h_B[i*N+i]) + 1.*N ) );
MAGMA_Z_SET2REAL( h_A[i*N+i], MAGMA_Z_REAL(h_A[i*N+i]) );
}
}
if((opts.warmup)||( checkres )){
TESTING_MALLOC(h_Ainit, magmaDoubleComplex, n2);
TESTING_MALLOC(h_Binit, magmaDoubleComplex, n2);
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_A, &N, h_Ainit, &N );
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_B, &N, h_Binit, &N );
}
magma_int_t m1 = 0;
double vl = 0;
double vu = 0;
magma_int_t il = 0;
magma_int_t iu = 0;
if (range == 'I'){
il = 1;
iu = (int) (f*N);
}
if(opts.warmup){
// ==================================================================
// Warmup using MAGMA. I prefer to use smalltest to warmup A-
// ==================================================================
magma_zhegvdx_2stage_m(opts.ngpu, itype, jobz, range, uplo,
N, h_A, N, h_B, N, vl, vu, il, iu, &m1, w1,
h_work, lwork,
#if defined(PRECISION_z) || defined(PRECISION_c)
rwork, lrwork,
#endif
iwork, liwork,
&info);
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_Ainit, &N, h_A, &N );
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_Binit, &N, h_B, &N );
}
// ===================================================================
// Performs operation using MAGMA
// ===================================================================
start = get_current_time();
magma_zhegvdx_2stage_m(opts.ngpu, itype, jobz, range, uplo,
N, h_A, N, h_B, N, vl, vu, il, iu, &m1, w1,
h_work, lwork,
#if defined(PRECISION_z) || defined(PRECISION_c)
rwork, lrwork,
#endif
iwork, liwork,
&info);
end = get_current_time();
mgpu_time = GetTimerValue(start,end)/1000.;
if ( checkres ) {
// ===================================================================
// Check the results following the LAPACK's [zc]hegvdx routine.
// A x = lambda B x is solved
// and the following 3 tests computed:
// (1) | A Z - B Z D | / ( |A||Z| N ) (itype = 1)
// | A B Z - Z D | / ( |A||Z| N ) (itype = 2)
// | B A Z - Z D | / ( |A||Z| N ) (itype = 3)
// ===================================================================
#if defined(PRECISION_d) || defined(PRECISION_s)
double *rwork = h_work + N*N;
#endif
result = 1.;
result /= lapackf77_zlanhe("1",&uplo, &N, h_Ainit, &N, rwork);
result /= lapackf77_zlange("1",&N , &m1, h_A, &N, rwork);
if (itype == 1){
blasf77_zhemm("L", &uplo, &N, &m1, &c_one, h_Ainit, &N, h_A, &N, &c_zero, h_work, &N);
for(int i=0; i<m1; ++i)
blasf77_zdscal(&N, &w1[i], &h_A[i*N], &ione);
blasf77_zhemm("L", &uplo, &N, &m1, &c_neg_one, h_Binit, &N, h_A, &N, &c_one, h_work, &N);
result *= lapackf77_zlange("1", &N, &m1, h_work, &N, rwork)/N;
}
else if (itype == 2){
blasf77_zhemm("L", &uplo, &N, &m1, &c_one, h_Binit, &N, h_A, &N, &c_zero, h_work, &N);
for(int i=0; i<m1; ++i)
blasf77_zdscal(&N, &w1[i], &h_A[i*N], &ione);
blasf77_zhemm("L", &uplo, &N, &m1, &c_one, h_Ainit, &N, h_work, &N, &c_neg_one, h_A, &N);
result *= lapackf77_zlange("1", &N, &m1, h_A, &N, rwork)/N;
}
else if (itype == 3){
blasf77_zhemm("L", &uplo, &N, &m1, &c_one, h_Ainit, &N, h_A, &N, &c_zero, h_work, &N);
for(int i=0; i<m1; ++i)
blasf77_zdscal(&N, &w1[i], &h_A[i*N], &ione);
blasf77_zhemm("L", &uplo, &N, &m1, &c_one, h_Binit, &N, h_work, &N, &c_neg_one, h_A, &N);
result *= lapackf77_zlange("1", &N, &m1, h_A, &N, rwork)/N;
}
}
// ===================================================================
// Print execution time
// ===================================================================
printf("%5d %5d %2d %6.2f\n",
(int) N, (int) m1, (int) opts.ngpu, mgpu_time);
if ( checkres ){
printf("Testing the eigenvalues and eigenvectors for correctness:\n");
if(itype==1)
printf("(1) | A Z - B Z D | / (|A| |Z| N) = %8.2e%s\n", result, (result < tol ? "" : " failed") );
else if(itype==2)
printf("(1) | A B Z - Z D | / (|A| |Z| N) = %8.2e%s\n", result, (result < tol ? "" : " failed") );
else if(itype==3)
printf("(1) | B A Z - Z D | / (|A| |Z| N) = %8.2e%s\n", result, (result < tol ? "" : " failed") );
}
TESTING_HOSTFREE( h_A);
TESTING_HOSTFREE( h_B);
TESTING_FREE( w1);
#if defined(PRECISION_z) || defined(PRECISION_c)
TESTING_HOSTFREE( rwork);
#endif
TESTING_FREE( iwork);
TESTING_HOSTFREE(h_work);
if((opts.warmup)||( checkres )){
TESTING_FREE( h_Ainit);
TESTING_FREE( h_Binit);
}
}
if ( opts.niter > 1 ) {
printf( "\n" );
}
}
/* Shutdown */
TESTING_FINALIZE_MGPU();
return 0;
}
/* ////////////////////////////////////////////////////////////////////////////
-- Testing zhegvdx
*/
int main( int argc, char** argv)
{
//#define USE_MGPU
#ifdef USE_MGPU
TESTING_CUDA_INIT_MGPU();
#else
TESTING_CUDA_INIT();
#endif
magma_int_t nrgpu =1;
cuDoubleComplex *h_A, *h_R, *h_B, *h_S, *h_work;
double *rwork, *w1, *w2;
magma_int_t *iwork;
double gpu_time, cpu_time;
magma_timestr_t start, end;
/* Matrix size */
magma_int_t N=0, n2;
magma_int_t size[4] = {1024,2048,4100,6001};
magma_int_t i, itype, info;
magma_int_t ione = 1, izero = 0;
magma_int_t five = 5;
cuDoubleComplex c_zero = MAGMA_Z_ZERO;
cuDoubleComplex c_one = MAGMA_Z_ONE;
cuDoubleComplex c_neg_one = MAGMA_Z_NEG_ONE;
double d_one = 1.;
double d_neg_one = -1.;
double d_ten = 10.;
magma_int_t ISEED[4] = {0,0,0,1};
magma_int_t il,iu,m1,m2;
double vl,vu;
double fraction_ev = 0;
//const char *uplo = MagmaLowerStr;
char *uplo = (char*)MagmaLowerStr;
//char *uplo = (char*)MagmaUpperStr;
char *jobz = (char*)MagmaVectorsStr;
char range = 'A';
itype = 1;
magma_int_t checkres;
double result[2];
int flagN = 0;
if (argc != 1){
for(i = 1; i<argc; i++){
if (strcmp("-N", argv[i])==0){
N = atoi(argv[++i]);
if (N>0){
printf(" testing_zhegvdx -N %d\n\n", (int) N);
flagN=1;
}
else {
printf("\nUsage: \n");
printf(" testing_zhegvdx -N %d\n\n", (int) N);
exit(1);
}
}
if (strcmp("-ngpu", argv[i])==0){
nrgpu = atoi(argv[++i]);
if (nrgpu>0){
printf(" testing_zhegvdx -ngpu %d\n\n", (int) nrgpu);
}
else {
printf("\nUsage: \n");
printf(" testing_zhegvdx -ngpu %d\n\n", (int) nrgpu);
exit(1);
}
}
if (strcmp("-itype", argv[i])==0){
itype = atoi(argv[++i]);
if (itype>0 && itype <= 3){
printf(" testing_zhegvdx -itype %d\n\n", (int) itype);
}
else {
printf("\nUsage: \n");
printf(" testing_zhegvdx -itype %d\n\n", (int) itype);
exit(1);
}
}
if (strcmp("-FE", argv[i])==0){
fraction_ev = atof(argv[++i]);
if (fraction_ev > 0 && fraction_ev <= 1){
printf(" testing_zhegvdx -FE %f\n\n", fraction_ev);
}
else {
fraction_ev = 0;
}
}
if (strcmp("-L", argv[i])==0){
uplo = (char*)MagmaLowerStr;
printf(" testing_zhegvdx -L");
}
if (strcmp("-U", argv[i])==0){
uplo = (char*)MagmaUpperStr;
printf(" testing_zhegvdx -U");
}
}
} else {
printf("\nUsage: \n");
printf(" testing_zhegvdx -L/U -N %d -itype %d\n\n", 1024, 1);
}
if(!flagN)
N = size[3];
checkres = getenv("MAGMA_TESTINGS_CHECK") != NULL;
n2 = N * N;
/* Allocate host memory for the matrix */
TESTING_MALLOC( h_A, cuDoubleComplex, n2);
TESTING_MALLOC( h_B, cuDoubleComplex, n2);
TESTING_MALLOC( w1, double , N);
TESTING_MALLOC( w2, double , N);
TESTING_HOSTALLOC(h_R, cuDoubleComplex, n2);
TESTING_HOSTALLOC(h_S, cuDoubleComplex, n2);
magma_int_t nb = magma_get_zhetrd_nb(N);
magma_int_t lwork = magma_zbulge_get_lq2(N) + 2*N + N*N;
magma_int_t lrwork = 1 + 5*N +2*N*N;
magma_int_t liwork = 3 + 5*N;
TESTING_HOSTALLOC(h_work, cuDoubleComplex, lwork);
TESTING_HOSTALLOC( rwork, double, lrwork);
TESTING_MALLOC( iwork, magma_int_t, liwork);
printf(" N M GPU Time(s) \n");
printf("==========================\n");
for(i=0; i<4; i++){
if (!flagN){
N = size[i];
n2 = N*N;
}
if (fraction_ev == 0){
il = N / 10;
iu = N / 5+il;
}
else {
il = 1;
iu = (int)(fraction_ev*N);
if (iu < 1) iu = 1;
}
/* Initialize the matrix */
lapackf77_zlarnv( &ione, ISEED, &n2, h_A );
//lapackf77_zlatms( &N, &N, "U", ISEED, "P", w1, &five, &d_ten,
// &d_one, &N, &N, uplo, h_B, &N, h_work, &info);
//lapackf77_zlaset( "A", &N, &N, &c_zero, &c_one, h_B, &N);
lapackf77_zlarnv( &ione, ISEED, &n2, h_B );
/* increase the diagonal */
{
magma_int_t i, j;
for(i=0; i<N; i++) {
MAGMA_Z_SET2REAL( h_B[i*N+i], ( MAGMA_Z_REAL(h_B[i*N+i]) + 1.*N ) );
}
}
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_A, &N, h_R, &N );
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_B, &N, h_S, &N );
#ifdef USE_MGPU
magma_zhegvdx_2stage_m(nrgpu, itype, jobz[0], range, uplo[0],
N, h_R, N, h_S, N, vl, vu, il, iu, &m1, w1,
h_work, lwork,
rwork, lrwork,
iwork, liwork,
&info);
#else
magma_zhegvdx_2stage(itype, jobz[0], range, uplo[0],
N, h_R, N, h_S, N, vl, vu, il, iu, &m1, w1,
h_work, lwork,
rwork, lrwork,
iwork, liwork,
&info);
#endif
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_A, &N, h_R, &N );
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_B, &N, h_S, &N );
/* ====================================================================
Performs operation using MAGMA
=================================================================== */
start = get_current_time();
#ifdef USE_MGPU
magma_zhegvdx_2stage_m(nrgpu, itype, jobz[0], range, uplo[0],
N, h_R, N, h_S, N, vl, vu, il, iu, &m1, w1,
h_work, lwork,
rwork, lrwork,
iwork, liwork,
&info);
#else
magma_zhegvdx_2stage(itype, jobz[0], range, uplo[0],
N, h_R, N, h_S, N, vl, vu, il, iu, &m1, w1,
h_work, lwork,
rwork, lrwork,
iwork, liwork,
&info);
#endif
end = get_current_time();
gpu_time = GetTimerValue(start,end)/1000.;
if ( checkres ) {
/* =====================================================================
Check the results following the LAPACK's [zc]hegvdx routine.
A x = lambda B x is solved
and the following 3 tests computed:
(1) | A Z - B Z D | / ( |A||Z| N ) (itype = 1)
| A B Z - Z D | / ( |A||Z| N ) (itype = 2)
| B A Z - Z D | / ( |A||Z| N ) (itype = 3)
(2) | S(with V) - S(w/o V) | / | S |
=================================================================== */
double temp1, temp2;
cuDoubleComplex *tau;
result[0] = 1.;
result[0] /= lapackf77_zlanhe("1",uplo, &N, h_A, &N, rwork);
result[0] /= lapackf77_zlange("1",&N , &m1, h_R, &N, rwork);
if (itype == 1){
blasf77_zhemm("L", uplo, &N, &m1, &c_one, h_A, &N, h_R, &N, &c_zero, h_work, &N);
for(int i=0; i<m1; ++i)
blasf77_zdscal(&N, &w1[i], &h_R[i*N], &ione);
blasf77_zhemm("L", uplo, &N, &m1, &c_neg_one, h_B, &N, h_R, &N, &c_one, h_work, &N);
result[0] *= lapackf77_zlange("1", &N, &m1, h_work, &N, rwork)/N;
}
else if (itype == 2){
blasf77_zhemm("L", uplo, &N, &m1, &c_one, h_B, &N, h_R, &N, &c_zero, h_work, &N);
for(int i=0; i<m1; ++i)
blasf77_zdscal(&N, &w1[i], &h_R[i*N], &ione);
blasf77_zhemm("L", uplo, &N, &m1, &c_one, h_A, &N, h_work, &N, &c_neg_one, h_R, &N);
result[0] *= lapackf77_zlange("1", &N, &m1, h_R, &N, rwork)/N;
}
else if (itype == 3){
blasf77_zhemm("L", uplo, &N, &m1, &c_one, h_A, &N, h_R, &N, &c_zero, h_work, &N);
for(int i=0; i<m1; ++i)
blasf77_zdscal(&N, &w1[i], &h_R[i*N], &ione);
blasf77_zhemm("L", uplo, &N, &m1, &c_one, h_B, &N, h_work, &N, &c_neg_one, h_R, &N);
result[0] *= lapackf77_zlange("1", &N, &m1, h_R, &N, rwork)/N;
}
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_A, &N, h_R, &N );
lapackf77_zlacpy( MagmaUpperLowerStr, &N, &N, h_B, &N, h_S, &N );
magma_zhegvdx(itype, 'N', range, uplo[0],
N, h_R, N, h_S, N, vl, vu, il, iu, &m2, w2,
h_work, lwork,
rwork, lrwork,
iwork, liwork,
&info);
temp1 = temp2 = 0;
for(int j=0; j<m2; j++){
temp1 = max(temp1, absv(w1[j]));
temp1 = max(temp1, absv(w2[j]));
temp2 = max(temp2, absv(w1[j]-w2[j]));
}
result[1] = temp2 / temp1;
}
/* =====================================================================
Print execution time
=================================================================== */
printf("%5d %5d %6.2f\n",
(int) N, (int) m1, gpu_time);
if ( checkres ){
printf("Testing the eigenvalues and eigenvectors for correctness:\n");
if(itype==1)
printf("(1) | A Z - B Z D | / (|A| |Z| N) = %e\n", result[0]);
else if(itype==2)
printf("(1) | A B Z - Z D | / (|A| |Z| N) = %e\n", result[0]);
else if(itype==3)
printf("(1) | B A Z - Z D | / (|A| |Z| N) = %e\n", result[0]);
printf("(2) | D(w/ Z)-D(w/o Z)|/ |D| = %e\n\n", result[1]);
}
if (flagN)
break;
}
cudaSetDevice(0);
/* Memory clean up */
TESTING_FREE( h_A);
TESTING_FREE( h_B);
TESTING_FREE( w1);
TESTING_FREE( w2);
TESTING_HOSTFREE( rwork);
TESTING_FREE( iwork);
TESTING_HOSTFREE(h_work);
TESTING_HOSTFREE( h_R);
TESTING_HOSTFREE( h_S);
/* Shutdown */
#ifdef USE_MGPU
TESTING_CUDA_FINALIZE_MGPU();
#else
TESTING_CUDA_FINALIZE();
#endif
}
