@ -1463,10 +1463,8 @@ static void opencl_free_work(struct thr_info *thr, struct work *work)
const int thr_id = thr - > id ; const int thr_id = thr - > id ;
struct opencl_thread_data * thrdata = thr - > cgpu_data ; struct opencl_thread_data * thrdata = thr - > cgpu_data ;
_clState * clState = clStates [ thr_id ] ; _clState * clState = clStates [ thr_id ] ;
struct cgpu_info * gpu = thr - > cgpu ;
if ( ! gpu - > dynamic ) clFinish ( clState - > commandQueue ) ;
clFinish ( clState - > commandQueue ) ;
if ( thrdata - > res [ FOUND ] ) { if ( thrdata - > res [ FOUND ] ) {
thrdata - > last_work = & thrdata - > _last_work ; thrdata - > last_work = & thrdata - > _last_work ;
@ -1496,7 +1494,6 @@ static int64_t opencl_scanhash(struct thr_info *thr, struct work *work,
_clState * clState = clStates [ thr_id ] ; _clState * clState = clStates [ thr_id ] ;
const cl_kernel * kernel = & clState - > kernel ; const cl_kernel * kernel = & clState - > kernel ;
const int dynamic_us = opt_dynamic_interval * 1000 ; const int dynamic_us = opt_dynamic_interval * 1000 ;
struct timeval tv_gpuend ;
cl_int status ; cl_int status ;
size_t globalThreads [ 1 ] ; size_t globalThreads [ 1 ] ;
@ -1504,8 +1501,25 @@ static int64_t opencl_scanhash(struct thr_info *thr, struct work *work,
int64_t hashes ; int64_t hashes ;
/* This finish flushes the readbuffer set with CL_FALSE later */ /* This finish flushes the readbuffer set with CL_FALSE later */
if ( ! gpu - > dynamic ) clFinish ( clState - > commandQueue ) ;
clFinish ( clState - > commandQueue ) ;
/* Windows' timer resolution is only 15ms so oversample 5x */
if ( gpu - > dynamic & & ( + + gpu - > intervals * dynamic_us ) > 75 ) {
struct timeval tv_gpuend ;
double gpu_us ;
gettimeofday ( & tv_gpuend , NULL ) ;
gpu_us = us_tdiff ( & tv_gpuend , & gpu - > tv_gpustart ) / gpu - > intervals ;
if ( gpu_us > dynamic_us ) {
if ( gpu - > intensity > MIN_INTENSITY )
- - gpu - > intensity ;
} else if ( gpu_us < dynamic_us / 2 ) {
if ( gpu - > intensity < MAX_INTENSITY )
+ + gpu - > intensity ;
}
memcpy ( & ( gpu - > tv_gpustart ) , & tv_gpuend , sizeof ( struct timeval ) ) ;
gpu - > intervals = 0 ;
}
set_threads_hashes ( clState - > vwidth , & hashes , globalThreads , localThreads [ 0 ] , & gpu - > intensity ) ; set_threads_hashes ( clState - > vwidth , & hashes , globalThreads , localThreads [ 0 ] , & gpu - > intensity ) ;
if ( hashes > gpu - > max_hashes ) if ( hashes > gpu - > max_hashes )
@ -1532,18 +1546,6 @@ static int64_t opencl_scanhash(struct thr_info *thr, struct work *work,
clFinish ( clState - > commandQueue ) ; clFinish ( clState - > commandQueue ) ;
} }
if ( gpu - > dynamic ) {
gettimeofday ( & gpu - > tv_gpumid , NULL ) ;
if ( gpu - > new_work ) {
gpu - > new_work = false ;
gpu - > intervals = gpu - > hit = 0 ;
}
if ( ! gpu - > intervals ) {
gpu - > tv_gpustart . tv_sec = gpu - > tv_gpumid . tv_sec ;
gpu - > tv_gpustart . tv_usec = gpu - > tv_gpumid . tv_usec ;
}
}
status = thrdata - > queue_kernel_parameters ( clState , & work - > blk , globalThreads [ 0 ] ) ; status = thrdata - > queue_kernel_parameters ( clState , & work - > blk , globalThreads [ 0 ] ) ;
if ( unlikely ( status ! = CL_SUCCESS ) ) { if ( unlikely ( status ! = CL_SUCCESS ) ) {
applog ( LOG_ERR , " Error: clSetKernelArg of all params failed. " ) ; applog ( LOG_ERR , " Error: clSetKernelArg of all params failed. " ) ;
@ -1571,39 +1573,6 @@ static int64_t opencl_scanhash(struct thr_info *thr, struct work *work,
return - 1 ; return - 1 ;
} }
if ( gpu - > dynamic ) {
double gpu_us ;
clFinish ( clState - > commandQueue ) ;
/* Windows returns the same time for gettimeofday due to its
* 15 ms timer resolution , so we must average the result over
* at least 5 values that are actually different to get an
* accurate result */
gpu - > intervals + + ;
gettimeofday ( & tv_gpuend , NULL ) ;
gpu_us = us_tdiff ( & tv_gpuend , & gpu - > tv_gpumid ) ;
if ( gpu_us > 0 & & + + gpu - > hit > 4 ) {
gpu_us = us_tdiff ( & tv_gpuend , & gpu - > tv_gpustart ) / gpu - > intervals ;
/* Very rarely we may get an overflow so put an upper
* limit on the detected time */
if ( unlikely ( gpu - > gpu_us_average > 0 & & gpu_us > gpu - > gpu_us_average * 4 ) )
gpu_us = gpu - > gpu_us_average * 4 ;
gpu - > gpu_us_average = ( gpu - > gpu_us_average + gpu_us * 0.63 ) / 1.63 ;
/* Try to not let the GPU be out for longer than
* opt_dynamic_interval in ms , but increase
* intensity when the system is idle in dynamic mode */
if ( gpu - > gpu_us_average > dynamic_us ) {
if ( gpu - > intensity > MIN_INTENSITY )
- - gpu - > intensity ;
} else if ( gpu - > gpu_us_average < dynamic_us / 2 ) {
if ( gpu - > intensity < MAX_INTENSITY )
+ + gpu - > intensity ;
}
gpu - > intervals = gpu - > hit = 0 ;
}
}
/* The amount of work scanned can fluctuate when intensity changes
/* The amount of work scanned can fluctuate when intensity changes
* and since we do this one cycle behind , we increment the work more * and since we do this one cycle behind , we increment the work more
* than enough to prevent repeating work */ * than enough to prevent repeating work */
Con Kolivas
12 years ago