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Grid/lib/perfmon/Stat.cc

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#include <Grid/GridCore.h>
#include <Grid/perfmon/PerfCount.h>
#include <Grid/perfmon/Stat.h>
namespace Grid {
bool PmuStat::pmu_initialized=false;
void PmuStat::init(const char *regname)
{
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#ifdef __x86_64__
name = regname;
if (!pmu_initialized)
{
std::cout<<"initialising pmu"<<std::endl;
pmu_initialized = true;
pmu_init();
}
clear();
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#endif
}
void PmuStat::clear(void)
{
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#ifdef __x86_64__
count = 0;
tregion = 0;
pmc0 = 0;
pmc1 = 0;
inst = 0;
cyc = 0;
ref = 0;
tcycles = 0;
reads = 0;
writes = 0;
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#endif
}
void PmuStat::print(void)
{
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#ifdef __x86_64__
std::cout <<"Reg "<<std::string(name)<<":\n";
std::cout <<" region "<<tregion<<std::endl;
std::cout <<" cycles "<<tcycles<<std::endl;
std::cout <<" inst "<<inst <<std::endl;
std::cout <<" cyc "<<cyc <<std::endl;
std::cout <<" ref "<<ref <<std::endl;
std::cout <<" pmc0 "<<pmc0 <<std::endl;
std::cout <<" pmc1 "<<pmc1 <<std::endl;
std::cout <<" count "<<count <<std::endl;
std::cout <<" reads "<<reads <<std::endl;
std::cout <<" writes "<<writes <<std::endl;
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#endif
}
void PmuStat::start(void)
{
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#ifdef __x86_64__
pmu_start();
++count;
xmemctrs(&mrstart, &mwstart);
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tstart = __rdtsc();
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#endif
}
void PmuStat::enter(int t)
{
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#ifdef __x86_64__
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counters[0][t] = __rdpmc(0);
counters[1][t] = __rdpmc(1);
counters[2][t] = __rdpmc((1<<30)|0);
counters[3][t] = __rdpmc((1<<30)|1);
counters[4][t] = __rdpmc((1<<30)|2);
counters[5][t] = __rdtsc();
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#endif
}
void PmuStat::exit(int t)
{
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#ifdef __x86_64__
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counters[0][t] = __rdpmc(0) - counters[0][t];
counters[1][t] = __rdpmc(1) - counters[1][t];
counters[2][t] = __rdpmc((1<<30)|0) - counters[2][t];
counters[3][t] = __rdpmc((1<<30)|1) - counters[3][t];
counters[4][t] = __rdpmc((1<<30)|2) - counters[4][t];
counters[5][t] = __rdtsc() - counters[5][t];
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#endif
}
void PmuStat::accum(int nthreads)
{
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#ifdef __x86_64__
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tend = __rdtsc();
xmemctrs(&mrend, &mwend);
pmu_stop();
for (int t = 0; t < nthreads; ++t) {
pmc0 += counters[0][t];
pmc1 += counters[1][t];
inst += counters[2][t];
cyc += counters[3][t];
ref += counters[4][t];
tcycles += counters[5][t];
}
uint64_t region = tend - tstart;
tregion += region;
uint64_t mreads = mrend - mrstart;
reads += mreads;
uint64_t mwrites = mwend - mwstart;
writes += mwrites;
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#endif
}
void PmuStat::pmu_fini(void) {}
void PmuStat::pmu_start(void) {};
void PmuStat::pmu_stop(void) {};
void PmuStat::pmu_init(void)
{
#ifdef _KNIGHTS_LANDING_
KNLsetup();
#endif
}
void PmuStat::xmemctrs(uint64_t *mr, uint64_t *mw)
{
#ifdef _KNIGHTS_LANDING_
ctrs c;
KNLreadctrs(c);
uint64_t emr = 0, emw = 0;
for (int i = 0; i < NEDC; ++i)
{
emr += c.edcrd[i];
emw += c.edcwr[i];
}
*mr = emr;
*mw = emw;
#else
*mr = *mw = 0;
#endif
}
#ifdef _KNIGHTS_LANDING_
struct knl_gbl_ PmuStat::gbl;
#define PMU_MEM
void PmuStat::KNLevsetup(const char *ename, int &fd, int event, int umask)
{
char fname[1024];
snprintf(fname, sizeof(fname), "%s/type", ename);
FILE *fp = fopen(fname, "r");
if (fp == 0) {
::printf("open %s", fname);
::exit(0);
}
int type;
int ret = fscanf(fp, "%d", &type);
assert(ret == 1);
fclose(fp);
// std::cout << "Using PMU type "<<type<<" from " << std::string(ename) <<std::endl;
struct perf_event_attr hw = {};
hw.size = sizeof(hw);
hw.type = type;
// see /sys/devices/uncore_*/format/*
// All of the events we are interested in are configured the same way, but
// that isn't always true. Proper code would parse the format files
hw.config = event | (umask << 8);
//hw.read_format = PERF_FORMAT_GROUP;
// unfortunately the above only works within a single PMU; might
// as well just read them one at a time
int cpu = 0;
fd = perf_event_open(&hw, -1, cpu, -1, 0);
if (fd == -1) {
::printf("CPU %d, box %s, event 0x%lx", cpu, ename, hw.config);
::exit(0);
} else {
// std::cout << "event "<<std::string(ename)<<" set up for fd "<<fd<<" hw.config "<<hw.config <<std::endl;
}
}
void PmuStat::KNLsetup(void){
int ret;
char fname[1024];
// MC RPQ inserts and WPQ inserts (reads & writes)
for (int mc = 0; mc < NMC; ++mc)
{
::snprintf(fname, sizeof(fname), "/sys/devices/uncore_imc_%d",mc);
// RPQ Inserts
KNLevsetup(fname, gbl.mc_rd[mc], 0x1, 0x1);
// WPQ Inserts
KNLevsetup(fname, gbl.mc_wr[mc], 0x2, 0x1);
}
// EDC RPQ inserts and WPQ inserts
for (int edc=0; edc < NEDC; ++edc)
{
::snprintf(fname, sizeof(fname), "/sys/devices/uncore_edc_eclk_%d",edc);
// RPQ inserts
KNLevsetup(fname, gbl.edc_rd[edc], 0x1, 0x1);
// WPQ inserts
KNLevsetup(fname, gbl.edc_wr[edc], 0x2, 0x1);
}
// EDC HitE, HitM, MissE, MissM
for (int edc=0; edc < NEDC; ++edc)
{
::snprintf(fname, sizeof(fname), "/sys/devices/uncore_edc_uclk_%d", edc);
KNLevsetup(fname, gbl.edc_hite[edc], 0x2, 0x1);
KNLevsetup(fname, gbl.edc_hitm[edc], 0x2, 0x2);
KNLevsetup(fname, gbl.edc_misse[edc], 0x2, 0x4);
KNLevsetup(fname, gbl.edc_missm[edc], 0x2, 0x8);
}
}
uint64_t PmuStat::KNLreadctr(int fd)
{
uint64_t data;
size_t s = ::read(fd, &data, sizeof(data));
if (s != sizeof(uint64_t)){
::printf("read counter %lu", s);
::exit(0);
}
return data;
}
void PmuStat::KNLreadctrs(ctrs &c)
{
for (int i = 0; i < NMC; ++i)
{
c.mcrd[i] = KNLreadctr(gbl.mc_rd[i]);
c.mcwr[i] = KNLreadctr(gbl.mc_wr[i]);
}
for (int i = 0; i < NEDC; ++i)
{
c.edcrd[i] = KNLreadctr(gbl.edc_rd[i]);
c.edcwr[i] = KNLreadctr(gbl.edc_wr[i]);
}
for (int i = 0; i < NEDC; ++i)
{
c.edchite[i] = KNLreadctr(gbl.edc_hite[i]);
c.edchitm[i] = KNLreadctr(gbl.edc_hitm[i]);
c.edcmisse[i] = KNLreadctr(gbl.edc_misse[i]);
c.edcmissm[i] = KNLreadctr(gbl.edc_missm[i]);
}
}
#endif
}