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cache.c
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cache.c
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/*!
\file
\brief Functions dealing with simulating cache behavior for performance
modeling and analysis;
\date Started 4/13/18
\author George
\author Copyright 1997-2011, Regents of the University of Minnesota
\version $Id: cache.c 21991 2018-04-16 03:08:12Z karypis $
*/
#include <GKlib.h>
/*************************************************************************/
/*! This function creates a cache
*/
/*************************************************************************/
gk_cache_t *gk_cacheCreate(uint32_t nway, uint32_t lnbits, size_t cnbits)
{
gk_cache_t *cache;
cache = (gk_cache_t *)gk_malloc(sizeof(gk_cache_t), "gk_cacheCreate: cache");
memset(cache, 0, sizeof(gk_cache_t));
cache->nway = nway;
cache->lnbits = lnbits;
cache->cnbits = cnbits;
cache->csize = 1<<cnbits;
cache->cmask = cache->csize-1;
cache->latimes = gk_ui64smalloc(cache->csize*nway, 0, "gk_cacheCreate: latimes");
cache->clines = gk_zusmalloc(cache->csize*nway, 0, "gk_cacheCreate: clines");
return cache;
}
/*************************************************************************/
/*! This function resets a cache
*/
/*************************************************************************/
void gk_cacheReset(gk_cache_t *cache)
{
cache->nhits = 0;
cache->nmisses = 0;
gk_ui64set(cache->csize*cache->nway, 0, cache->latimes);
gk_zuset(cache->csize*cache->nway, 0, cache->clines);
return;
}
/*************************************************************************/
/*! This function destroys a cache.
*/
/*************************************************************************/
void gk_cacheDestroy(gk_cache_t **r_cache)
{
gk_cache_t *cache = *r_cache;
if (cache == NULL)
return;
gk_free((void **)&cache->clines, &cache->latimes, &cache, LTERM);
*r_cache = NULL;
}
/*************************************************************************/
/*! This function simulates a load(ptr) operation.
*/
/*************************************************************************/
int gk_cacheLoad(gk_cache_t *cache, size_t addr)
{
uint32_t i, nway=cache->nway;
size_t lru=0;
//printf("%16"PRIx64" ", (uint64_t)addr);
addr = addr>>(cache->lnbits);
//printf("%16"PRIx64" %16"PRIx64" %16"PRIx64" ", (uint64_t)addr, (uint64_t)addr&(cache->cmask), (uint64_t)cache->cmask);
size_t *clines = cache->clines + (addr&(cache->cmask));
uint64_t *latimes = cache->latimes + (addr&(cache->cmask));
cache->clock++;
for (i=0; i<nway; i++) { /* look for hits */
if (clines[i] == addr) {
cache->nhits++;
latimes[i] = cache->clock;
goto DONE;
}
}
for (i=0; i<nway; i++) { /* look for empty spots or the lru spot */
if (clines[i] == 0) {
lru = i;
break;
}
else if (latimes[i] < latimes[lru]) {
lru = i;
}
}
/* initial fill or replace */
cache->nmisses++;
clines[lru] = addr;
latimes[lru] = cache->clock;
DONE:
//printf(" %"PRIu64" %"PRIu64"\n", cache->nhits, cache->clock);
return 1;
}
/*************************************************************************/
/*! This function returns the cache's hitrate
*/
/*************************************************************************/
double gk_cacheGetHitRate(gk_cache_t *cache)
{
return ((double)cache->nhits)/((double)(cache->clock+1));
}