/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
+#include <math.h>
#include "smx_private.h"
#include "xbt/parmap.h"
#include "xbt/dynar.h"
xbt_os_timer_t round_time;
double par_time,seq_time;
double par_ratio,seq_ratio;
+int reached_seq_limit, reached_par_limit;
static unsigned int par_proc_that_ran = 0,seq_proc_that_ran = 0; /* Counters of processes that have run in SCHED_ROUND_LIMIT scheduling rounds */
-static unsigned int seq_sched_round, par_sched_round; /* Amount of SR that ran serial/parallel*/
+static unsigned int seq_sched_round=0, par_sched_round=0; /* Amount of SR that ran serial/parallel*/
+/*Varables used to calculate running variance and mean*/
+double prev_avg_par_proc=0,prev_avg_seq_proc=0;
+double delta=0;
+double s_par_proc=0,s_seq_proc=0; /*Standard deviation of number of processes computed in par/seq during the current simulation*/
+double avg_par_proc=0,sd_par_proc=0;
+double avg_seq_proc=0,sd_seq_proc=0;
+double par_window=4294967296,seq_window=0; /*par_window is initially 1<<32*/
#endif
static unsigned long raw_process_index = 0; /* index of the next process to run in the
static xbt_os_timer_t timer;
#endif
-#ifdef ADAPTIVE_THRESHOLD
-int reached_seq_limit, reached_par_limit;
-#endif
-
static void smx_ctx_raw_wrapper(smx_ctx_raw_t context);
static int smx_ctx_raw_factory_finalize(smx_context_factory_t *factory);
static smx_context_t smx_ctx_raw_create_context(xbt_main_func_t code, int argc,
static void smx_ctx_raw_runall(void)
{
unsigned long nb_processes = xbt_dynar_length(simix_global->process_to_run);
+ unsigned long threshold = SIMIX_context_get_parallel_threshold();
reached_seq_limit = (seq_sched_round % SCHED_ROUND_LIMIT == 0);
reached_par_limit = (par_sched_round % SCHED_ROUND_LIMIT == 0);
- if(reached_par_limit){
- par_sched_round = 0;
+ if(reached_seq_limit && reached_par_limit){
par_ratio = (par_proc_that_ran != 0) ? (par_time / (double)par_proc_that_ran) : 0;
- par_time = 0; par_proc_that_ran = 0;
- }
-
- if(reached_seq_limit){
- seq_sched_round = 0;
seq_ratio = (seq_proc_that_ran != 0) ? (seq_time / (double)seq_proc_that_ran) : 0;
- seq_time = 0; seq_proc_that_ran = 0;
- }
-
- if(reached_seq_limit && reached_par_limit){
if(seq_ratio > par_ratio){
- SIMIX_context_set_parallel_threshold(SIMIX_context_get_parallel_threshold() - 1);
+ if(nb_processes < avg_par_proc) {
+ threshold = (threshold>2) ? threshold - 1 : threshold ;
+ SIMIX_context_set_parallel_threshold(threshold);
+ }
} else {
- SIMIX_context_set_parallel_threshold(SIMIX_context_get_parallel_threshold() + 1);
+ if(nb_processes > avg_seq_proc){
+ SIMIX_context_set_parallel_threshold(threshold+1);
+ }
}
}
- XBT_CRITICAL("Adaptive Algorithm. Parallel Threshold is: %d. Processes: %d", SIMIX_context_get_parallel_threshold(), nb_processes);
+ //XBT_CRITICAL("Thres: %d.", SIMIX_context_get_parallel_threshold());
+
if (nb_processes >= SIMIX_context_get_parallel_threshold()) {
- XBT_DEBUG("Runall // %lu", nb_processes);
simix_global->context_factory->suspend = smx_ctx_raw_suspend_parallel;
- xbt_os_cputimer_start(round_time);
- smx_ctx_raw_runall_parallel();
- xbt_os_cputimer_stop(round_time);
- par_time += xbt_os_timer_elapsed(round_time);
- par_proc_that_ran += nb_processes;
- par_sched_round++;
+ if(nb_processes < par_window){
+ par_sched_round++;
+ xbt_os_cputimer_start(round_time);
+ smx_ctx_raw_runall_parallel();
+ xbt_os_cputimer_stop(round_time);
+ par_time += xbt_os_timer_elapsed(round_time);
+
+ prev_avg_par_proc = avg_par_proc;
+ delta = (nb_processes-avg_par_proc);
+ avg_par_proc = (par_sched_round==1) ? nb_processes : avg_par_proc + delta / (double) par_sched_round;
+
+ if(par_sched_round>=2){
+ s_par_proc = sd_par_proc + (nb_processes - prev_avg_par_proc)*delta;
+ sd_par_proc = sqrt(s_par_proc/(par_sched_round-1));
+ par_window = avg_par_proc + sd_par_proc;
+ }else{
+ sd_par_proc = 0;
+ }
+
+ par_proc_that_ran += nb_processes;
+ } else{
+ smx_ctx_raw_runall_parallel();
+ }
} else {
- XBT_DEBUG("Runall serial %lu", nb_processes);
simix_global->context_factory->suspend = smx_ctx_raw_suspend_serial;
- xbt_os_cputimer_start(round_time);
-#ifdef TIME_BENCH_PER_SR
- smx_ctx_raw_runall_serial(simix_global->process_to_run);
-#else
- smx_ctx_raw_runall_serial();
-#endif
- xbt_os_cputimer_stop(round_time);
- seq_time += xbt_os_timer_elapsed(round_time);
- seq_proc_that_ran += nb_processes;
- seq_sched_round++;
+ if(nb_processes > seq_window){
+ seq_sched_round++;
+ xbt_os_cputimer_start(round_time);
+ smx_ctx_raw_runall_serial();
+ xbt_os_cputimer_stop(round_time);
+ seq_time += xbt_os_timer_elapsed(round_time);
+
+ prev_avg_seq_proc = avg_seq_proc;
+ delta = (nb_processes-avg_seq_proc);
+ avg_seq_proc = (seq_sched_round==1) ? nb_processes : avg_seq_proc + delta / (double) seq_sched_round;
+
+ if(seq_sched_round>=2){
+ s_seq_proc = sd_seq_proc + (nb_processes - prev_avg_seq_proc)*delta;
+ sd_seq_proc = sqrt(s_seq_proc/(seq_sched_round-1));
+ seq_window = avg_seq_proc - sd_seq_proc;
+ } else {
+ sd_seq_proc = 0;
+ }
+
+ seq_proc_that_ran += nb_processes;
+ } else {
+ smx_ctx_raw_runall_serial();
+ }
}
}