Scroll to navigation

PAPI_epc(3) PAPI PAPI_epc(3)

NAME

PAPI_epc - Simplified call to get arbitrary events per cycle, real and processor time.

SYNOPSIS

Detailed Description

C Interface:

#include <papi.h>
int PAPI_epc( int event, float *rtime, float *ptime, long long *ref, long long *core, long long *evt, float *epc );

Parameters

event event code to be measured (0 defaults to PAPI_TOT_INS)
*rtime realtime since the latest call
*ptime process time since the latest call
*ref incremental reference clock cycles since the latest call
*core incremental core clock cycles since the latest call
*evt events since the latest call
*epc incremental events per cycle since the latest call

Return values

PAPI_EINVAL The counters were already started by something other than PAPI_epc().
PAPI_ENOEVNT One of the requested events does not exist.
PAPI_ENOMEM Insufficient memory to complete the operation.

The first call to PAPI_epc() will initialize the PAPI interface, set up the counters to monitor the user specified event, PAPI_TOT_CYC, and PAPI_REF_CYC (if it exists) and start the counters.

Subsequent calls will read the counters and return real time, process time, event counts, the core and reference cycle count and EPC rate since the latest call to PAPI_epc().

PAPI_epc() can provide a more detailed look at algorithm efficiency in light of clock variability in modern cpus. MFLOPS is no longer an adequate description of peak performance if clock rates can arbitrarily speed up or slow down. By allowing a user specified event and reporting reference cycles, core cycles and real time, PAPI_epc provides the information to compute an accurate effective clock rate, and an accurate measure of computational throughput. Note that PAPI_epc() is thread-safe and can therefore be called by multiple threads.

See also

PAPI_flips_rate()

PAPI_flops_rate()

PAPI_ipc()

PAPI_rate_stop()

Author

Generated automatically by Doxygen for PAPI from the source code.

Fri Nov 17 2023 Version 6.0.0.0