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Merge pull request #4498 from mseminatore/win_tidy 

blas_server_win32.c pass to clean up code
This commit is contained in:
Martin Kroeker 2024-02-15 14:37:37 +01:00 committed by GitHub
parent 57dd894af0 b29fd48998
commit 5266998b9f
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GPG Key ID: B5690EEEBB952194
2 changed files with 131 additions and 151 deletions
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1
CONTRIBUTORS.md
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@ -219,6 +219,7 @@ In chronological order:
* Mark Seminatore <https://github.com/mseminatore>
* [2023-11-09] Improve Windows threading performance scaling
* [2024-02-09] Introduce MT_TRACE facility and improve code consistency
* Dirreke <https://github.com/mseminatore>
* [2024-01-16] Add basic support for the CSKY architecture

281
driver/others/blas_server_win32.c
View File

@ -48,6 +48,12 @@
#endif
#endif
#ifdef SMP_DEBUG
# define MT_TRACE(...) fprintf(stderr, __VA_ARGS__)
#else
# define MT_TRACE(...)
#endif
/* This is a thread implementation for Win32 lazy implementation */
/* Thread server common information */
@ -68,19 +74,12 @@ static HANDLE blas_threads [MAX_CPU_NUMBER];
static DWORD blas_threads_id[MAX_CPU_NUMBER];
static volatile int thread_target; // target num of live threads, volatile for cross-thread reads
#if defined (__GNUC__) && (__GNUC__ < 6)
#define WIN_CAS(dest, exch, comp) __sync_val_compare_and_swap(dest, comp, exch)
#else
#if defined(_WIN64)
#define WIN_CAS(dest, exch, comp) InterlockedCompareExchange64(dest, exch, comp)
#else
#define WIN_CAS(dest, exch, comp) InterlockedCompareExchange(dest, exch, comp)
#endif
#endif
//
// Legacy code path
//
static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb) {
static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
if (!(mode & BLAS_COMPLEX)){
if (!(mode & BLAS_COMPLEX)) {
#ifdef EXPRECISION
if ((mode & BLAS_PREC) == BLAS_XDOUBLE){
/* REAL / Extended Double */
@ -95,7 +94,7 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
args -> c, args -> ldc, sb);
} else
#endif
if ((mode & BLAS_PREC) == BLAS_DOUBLE){
if ((mode & BLAS_PREC) == BLAS_DOUBLE) {
/* REAL / Double */
void (*afunc)(BLASLONG, BLASLONG, BLASLONG, double,
double *, BLASLONG, double *, BLASLONG,
@ -106,7 +105,7 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
args -> a, args -> lda,
args -> b, args -> ldb,
args -> c, args -> ldc, sb);
} else if ((mode & BLAS_PREC) == BLAS_SINGLE){
} else if ((mode & BLAS_PREC) == BLAS_SINGLE) {
/* REAL / Single */
void (*afunc)(BLASLONG, BLASLONG, BLASLONG, float,
float *, BLASLONG, float *, BLASLONG,
@ -118,7 +117,7 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
args -> b, args -> ldb,
args -> c, args -> ldc, sb);
#ifdef BUILD_BFLOAT16
} else if ((mode & BLAS_PREC) == BLAS_BFLOAT16){
} else if ((mode & BLAS_PREC) == BLAS_BFLOAT16) {
/* REAL / BFLOAT16 */
void (*afunc)(BLASLONG, BLASLONG, BLASLONG, bfloat16,
bfloat16 *, BLASLONG, bfloat16 *, BLASLONG,
@ -129,7 +128,7 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
args -> a, args -> lda,
args -> b, args -> ldb,
args -> c, args -> ldc, sb);
} else if ((mode & BLAS_PREC) == BLAS_STOBF16){
} else if ((mode & BLAS_PREC) == BLAS_STOBF16) {
/* REAL / BLAS_STOBF16 */
void (*afunc)(BLASLONG, BLASLONG, BLASLONG, float,
float *, BLASLONG, bfloat16 *, BLASLONG,
@ -140,7 +139,7 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
args -> a, args -> lda,
args -> b, args -> ldb,
args -> c, args -> ldc, sb);
} else if ((mode & BLAS_PREC) == BLAS_DTOBF16){
} else if ((mode & BLAS_PREC) == BLAS_DTOBF16) {
/* REAL / BLAS_DTOBF16 */
void (*afunc)(BLASLONG, BLASLONG, BLASLONG, double,
double *, BLASLONG, bfloat16 *, BLASLONG,
@ -157,7 +156,7 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
}
} else {
#ifdef EXPRECISION
if ((mode & BLAS_PREC) == BLAS_XDOUBLE){
if ((mode & BLAS_PREC) == BLAS_XDOUBLE) {
/* COMPLEX / Extended Double */
void (*afunc)(BLASLONG, BLASLONG, BLASLONG, xdouble, xdouble,
xdouble *, BLASLONG, xdouble *, BLASLONG,
@ -171,7 +170,7 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
args -> c, args -> ldc, sb);
} else
#endif
if ((mode & BLAS_PREC) == BLAS_DOUBLE){
if ((mode & BLAS_PREC) == BLAS_DOUBLE) {
/* COMPLEX / Double */
void (*afunc)(BLASLONG, BLASLONG, BLASLONG, double, double,
double *, BLASLONG, double *, BLASLONG,
@ -201,10 +200,10 @@ static void legacy_exec(void *func, int mode, blas_arg_t *args, void *sb){
}
}
/* This is a main routine of threads. Each thread waits until job is */
/* queued. */
static DWORD WINAPI blas_thread_server(void *arg){
//
// This is a main routine of threads. Each thread waits until job is queued.
//
static DWORD WINAPI blas_thread_server(void *arg) {
/* Thread identifier */
BLASLONG cpu = (BLASLONG)arg;
@ -215,31 +214,24 @@ static DWORD WINAPI blas_thread_server(void *arg){
/* Each server needs each buffer */
buffer = blas_memory_alloc(2);
#ifdef SMP_DEBUG
fprintf(STDERR, "Server[%2ld] Thread is started!\n", cpu);
#endif
MT_TRACE("Server[%2ld] Thread is started!\n", cpu);
while (1){
while (1) {
/* Waiting for Queue */
#ifdef SMP_DEBUG
fprintf(STDERR, "Server[%2ld] Waiting for Queue.\n", cpu);
#endif
// event raised when work is added to the queue
WaitForSingleObject(kickoff_event, INFINITE);
MT_TRACE("Server[%2ld] Waiting for Queue.\n", cpu);
if (cpu > thread_target - 2)
{
//printf("thread [%d] exiting.\n", cpu);
break; // excess thread, so worker thread exits
}
// event raised when work is added to the queue
WaitForSingleObject(kickoff_event, INFINITE);
#ifdef SMP_DEBUG
fprintf(STDERR, "Server[%2ld] Got it.\n", cpu);
#endif
if (cpu > thread_target - 2) {
//MT_TRACE("thread [%d] exiting.\n", cpu);
break; // excess thread, so worker thread exits
}
MT_TRACE("Server[%2ld] Got it.\n", cpu);
#if 1
EnterCriticalSection(&queue_lock);
queue = work_queue;
@ -247,53 +239,39 @@ static DWORD WINAPI blas_thread_server(void *arg){
work_queue = work_queue->next;
LeaveCriticalSection(&queue_lock);
#else
volatile blas_queue_t* queue_next;
INT_PTR prev_value;
do {
queue = (volatile blas_queue_t*)work_queue;
if (!queue)
break;
queue_next = (volatile blas_queue_t*)queue->next;
prev_value = WIN_CAS((INT_PTR*)&work_queue, (INT_PTR)queue_next, (INT_PTR)queue);
} while (prev_value != queue);
#endif
if (queue) {
if (queue) {
int (*routine)(blas_arg_t *, void *, void *, void *, void *, BLASLONG) = queue -> routine;
sa = queue -> sa;
sb = queue -> sb;
#ifdef CONSISTENT_FPCSR
__asm__ __volatile__ ("ldmxcsr %0" : : "m" (queue -> sse_mode));
__asm__ __volatile__ ("fldcw %0" : : "m" (queue -> x87_mode));
#endif
#ifdef CONSISTENT_FPCSR
__asm__ __volatile__ ("ldmxcsr %0" : : "m" (queue -> sse_mode));
__asm__ __volatile__ ("fldcw %0" : : "m" (queue -> x87_mode));
#endif
#ifdef SMP_DEBUG
fprintf(STDERR, "Server[%2ld] Started. Mode = 0x%03x M = %3ld N=%3ld K=%3ld\n",
MT_TRACE("Server[%2ld] Started. Mode = 0x%03x M = %3ld N=%3ld K=%3ld\n",
cpu, queue->mode, queue-> args ->m, queue->args->n, queue->args->k);
#endif
// fprintf(stderr, "queue start[%ld]!!!\n", cpu);
#ifdef MONITOR
main_status[cpu] = MAIN_RUNNING1;
#endif
#ifdef MONITOR
main_status[cpu] = MAIN_RUNNING1;
#endif
if (sa == NULL) sa = (void *)((BLASLONG)buffer + GEMM_OFFSET_A);
if (sa == NULL)
sa = (void *)((BLASLONG)buffer + GEMM_OFFSET_A);
if (sb == NULL) {
if (!(queue -> mode & BLAS_COMPLEX)){
if (!(queue -> mode & BLAS_COMPLEX)) {
#ifdef EXPRECISION
if ((queue -> mode & BLAS_PREC) == BLAS_XDOUBLE){
if ((queue -> mode & BLAS_PREC) == BLAS_XDOUBLE) {
sb = (void *)(((BLASLONG)sa + ((XGEMM_P * XGEMM_Q * sizeof(xdouble)
+ GEMM_ALIGN) & ~GEMM_ALIGN)) + GEMM_OFFSET_B);
} else
#endif
if ((queue -> mode & BLAS_PREC) == BLAS_DOUBLE){
if ((queue -> mode & BLAS_PREC) == BLAS_DOUBLE) {
#ifdef BUILD_DOUBLE
sb = (void *)(((BLASLONG)sa + ((DGEMM_P * DGEMM_Q * sizeof(double)
+ GEMM_ALIGN) & ~GEMM_ALIGN)) + GEMM_OFFSET_B);
@ -327,65 +305,58 @@ static DWORD WINAPI blas_thread_server(void *arg){
/* Other types in future */
}
}
queue->sb=sb;
queue->sb=sb;
}
#ifdef MONITOR
main_status[cpu] = MAIN_RUNNING2;
#endif
#ifdef MONITOR
main_status[cpu] = MAIN_RUNNING2;
#endif
if (!(queue -> mode & BLAS_LEGACY)) {
(routine)(queue -> args, queue -> range_m, queue -> range_n, sa, sb, queue -> position);
(routine)(queue -> args, queue -> range_m, queue -> range_n, sa, sb, queue -> position);
} else {
legacy_exec(routine, queue -> mode, queue -> args, sb);
legacy_exec(routine, queue -> mode, queue -> args, sb);
}
}else{
continue; //if queue == NULL
}
} else {
continue; //if queue == NULL
}
#ifdef SMP_DEBUG
fprintf(STDERR, "Server[%2ld] Finished!\n", cpu);
#endif
MT_TRACE("Server[%2ld] Finished!\n", cpu);
queue->finished = 1;
queue->finished = 1;
}
/* Shutdown procedure */
#ifdef SMP_DEBUG
fprintf(STDERR, "Server[%2ld] Shutdown!\n", cpu);
#endif
MT_TRACE("Server[%2ld] Shutdown!\n", cpu);
blas_memory_free(buffer);
return 0;
}
}
/* Initializing routine */
int blas_thread_init(void){
//
// Initializing routine
//
int blas_thread_init(void) {
BLASLONG i;
if (blas_server_avail || (blas_cpu_number <= 1)) return 0;
LOCK_COMMAND(&server_lock);
#ifdef SMP_DEBUG
fprintf(STDERR, "Initializing Thread(Num. threads = %d)\n",
blas_cpu_number);
#endif
MT_TRACE("Initializing Thread(Num. threads = %d)\n", blas_cpu_number);
if (!blas_server_avail){
// create the kickoff Event
kickoff_event = CreateEvent(NULL, TRUE, FALSE, NULL);
if (!blas_server_avail) {
// create the kickoff Event
kickoff_event = CreateEvent(NULL, TRUE, FALSE, NULL);
thread_target = blas_cpu_number;
thread_target = blas_cpu_number;
InitializeCriticalSection(&queue_lock);
for(i = 0; i < blas_cpu_number - 1; i++){
//printf("thread_init: creating thread [%d]\n", i);
for(i = 0; i < blas_cpu_number - 1; i++) {
//MT_TRACE("thread_init: creating thread [%d]\n", i);
blas_threads[i] = CreateThread(NULL, 0,
blas_thread_server, (void *)i,
@ -400,15 +371,12 @@ int blas_thread_init(void){
return 0;
}
/*
User can call one of two routines.
exec_blas_async ... immediately returns after jobs are queued.
exec_blas ... returns after jobs are finished.
*/
int exec_blas_async(BLASLONG pos, blas_queue_t *queue){
//
// User can call one of two routines.
// exec_blas_async ... immediately returns after jobs are queued.
// exec_blas ... returns after jobs are finished.
//
int exec_blas_async(BLASLONG pos, blas_queue_t *queue) {
#if defined(SMP_SERVER)
// Handle lazy re-init of the thread-pool after a POSIX fork
@ -428,7 +396,7 @@ int exec_blas_async(BLASLONG pos, blas_queue_t *queue){
__asm__ __volatile__ ("stmxcsr %0" : "=m" (current -> sse_mode));
#endif
current->finished = 0;
current->finished = 0;
current = current -> next;
pos ++;
}
@ -437,18 +405,18 @@ int exec_blas_async(BLASLONG pos, blas_queue_t *queue){
if (!work_queue)
{
work_queue = queue;
work_queue = queue;
}
else
{
blas_queue_t *next_item = work_queue;
// find the end of the work queue
while (next_item)
next_item = next_item->next;
// find the end of the work queue
while (next_item)
next_item = next_item->next;
// add new work to the end
next_item = queue;
// add new work to the end
next_item = queue;
}
LeaveCriticalSection(&queue_lock);
@ -458,26 +426,25 @@ int exec_blas_async(BLASLONG pos, blas_queue_t *queue){
return 0;
}
int exec_blas_async_wait(BLASLONG num, blas_queue_t *queue){
//
// Join. Wait for all queued tasks to complete
//
int exec_blas_async_wait(BLASLONG num, blas_queue_t *queue) {
#ifdef SMP_DEBUG
fprintf(STDERR, "Synchronization Waiting.\n");
#endif
MT_TRACE("Synchronization Waiting.\n");
while (num){
#ifdef SMP_DEBUG
fprintf(STDERR, "Waiting Queue ..\n");
#endif
while (!queue->finished)
YIELDING;
while (num) {
MT_TRACE("Waiting Queue ..\n");
queue = queue->next;
num--;
}
while (!queue->finished)
YIELDING;
queue = queue->next;
num--;
}
MT_TRACE("Completely Done.\n\n");
#ifdef SMP_DEBUG
fprintf(STDERR, "Completely Done.\n\n");
#endif
// if work was added to the queue after this batch we can't sleep the worker threads
// by resetting the event
EnterCriticalSection(&queue_lock);
@ -490,8 +457,10 @@ int exec_blas_async_wait(BLASLONG num, blas_queue_t *queue){
return 0;
}
/* Execute Threads */
int exec_blas(BLASLONG num, blas_queue_t *queue){
//
// Execute Threads
//
int exec_blas(BLASLONG num, blas_queue_t *queue) {
#if defined(SMP_SERVER) && defined(OS_CYGWIN_NT)
// Handle lazy re-init of the thread-pool after a POSIX fork
@ -504,29 +473,33 @@ int exec_blas(BLASLONG num, blas_queue_t *queue){
if ((num <= 0) || (queue == NULL)) return 0;
if ((num > 1) && queue -> next) exec_blas_async(1, queue -> next);
if ((num > 1) && queue -> next)
exec_blas_async(1, queue -> next);
routine = queue -> routine;
if (queue -> mode & BLAS_LEGACY) {
legacy_exec(routine, queue -> mode, queue -> args, queue -> sb);
} else
} else {
if (queue -> mode & BLAS_PTHREAD) {
void (*pthreadcompat)(void *) = queue -> routine;
(pthreadcompat)(queue -> args);
} else
(routine)(queue -> args, queue -> range_m, queue -> range_n,
queue -> sa, queue -> sb, 0);
queue -> sa, queue -> sb, 0);
}
if ((num > 1) && queue -> next) exec_blas_async_wait(num - 1, queue -> next);
if ((num > 1) && queue -> next)
exec_blas_async_wait(num - 1, queue -> next);
return 0;
}
/* Shutdown procedure, but user don't have to call this routine. The */
/* kernel automatically kill threads. */
int BLASFUNC(blas_thread_shutdown)(void){
//
// Shutdown procedure, but user don't have to call this routine. The
// kernel automatically kill threads.
//
int BLASFUNC(blas_thread_shutdown)(void) {
int i;
@ -534,9 +507,9 @@ int BLASFUNC(blas_thread_shutdown)(void){
LOCK_COMMAND(&server_lock);
if (blas_server_avail){
if (blas_server_avail) {
for(i = 0; i < blas_num_threads - 1; i++){
for (i = 0; i < blas_num_threads - 1; i++) {
// Could also just use WaitForMultipleObjects
DWORD wait_thread_value = WaitForSingleObject(blas_threads[i], 50);
@ -558,6 +531,9 @@ int BLASFUNC(blas_thread_shutdown)(void){
return 0;
}
//
// Legacy function to set numbef of threads
//
void goto_set_num_threads(int num_threads)
{
long i;
@ -571,7 +547,7 @@ void goto_set_num_threads(int num_threads)
if (num_threads > MAX_CPU_NUMBER) num_threads = MAX_CPU_NUMBER;
if (blas_server_avail && num_threads < blas_num_threads) {
if (blas_server_avail && num_threads < blas_num_threads) {
LOCK_COMMAND(&server_lock);
thread_target = num_threads;
@ -579,11 +555,11 @@ void goto_set_num_threads(int num_threads)
SetEvent(kickoff_event);
for (i = num_threads - 1; i < blas_num_threads - 1; i++) {
//printf("set_num_threads: waiting on thread [%d] to quit.\n", i);
//MT_TRACE("set_num_threads: waiting on thread [%d] to quit.\n", i);
WaitForSingleObject(blas_threads[i], INFINITE);
//printf("set_num_threads: thread [%d] has quit.\n", i);
//MT_TRACE("set_num_threads: thread [%d] has quit.\n", i);
CloseHandle(blas_threads[i]);
}
@ -601,8 +577,8 @@ void goto_set_num_threads(int num_threads)
thread_target = num_threads;
//increased_threads = 1;
if (!blas_server_avail){
//increased_threads = 1;
if (!blas_server_avail) {
// create the kickoff Event
kickoff_event = CreateEvent(NULL, TRUE, FALSE, NULL);
@ -611,8 +587,8 @@ void goto_set_num_threads(int num_threads)
blas_server_avail = 1;
}
for(i = (blas_num_threads > 0) ? blas_num_threads - 1 : 0; i < num_threads - 1; i++){
//printf("set_num_threads: creating thread [%d]\n", i);
for (i = (blas_num_threads > 0) ? blas_num_threads - 1 : 0; i < num_threads - 1; i++) {
//MT_TRACE("set_num_threads: creating thread [%d]\n", i);
blas_threads[i] = CreateThread(NULL, 0,
blas_thread_server, (void *)i,
@ -627,6 +603,9 @@ void goto_set_num_threads(int num_threads)
blas_cpu_number = num_threads;
}
//
// Openblas function to set thread count
//
void openblas_set_num_threads(int num)
{
goto_set_num_threads(num);