/******************************************************************************* * Copyright (c) 2006 International Business Machines Corporation. * * All rights reserved. This program and the accompanying materials * * are made available under the terms of the Common Public License v1.0 * * which accompanies this distribution, and is available at * * http://www.opensource.org/licenses/cpl1.0.php * * * * Contributors: * * Douglas M. Pase - initial API and implementation * * Tim Besard - prefetching, JIT compilation * *******************************************************************************/ // // Configuration // // Implementation header #include "output.h" // System includes #include #include #include // // Implementation // void Output::print(Experiment &e, int64 ops, std::vector seconds, double ck_res) { if (e.output_mode == Experiment::CSV) { Output::header(e, ops, ck_res); for (int i = 0; i < seconds.size(); i++) Output::csv(e, ops, seconds[i], ck_res); } else { long double averaged_seconds = 0; for (int i = 0; i < seconds.size(); i++) averaged_seconds += seconds[i]; Output::table(e, ops, (double) (averaged_seconds/seconds.size()), ck_res); } } void Output::header(Experiment &e, int64 ops, double ck_res) { printf("pointer size (bytes),"); printf("cache line size (bytes),"); printf("page size (bytes),"); printf("chain size (bytes),"); printf("thread size (bytes),"); printf("test size (bytes),"); printf("chains per thread,"); printf("number of threads,"); printf("iterations,"); printf("loop length,"); printf("prefetch hint,"); printf("experiments,"); printf("access pattern,"); printf("stride,"); printf("numa placement,"); printf("offset or mask,"); printf("numa domains,"); printf("domain map,"); printf("operations per chain,"); printf("total operations,"); printf("elapsed time (seconds),"); printf("elapsed time (timer ticks),"); printf("clock resolution (ns),", ck_res * 1E9); printf("memory latency (ns),"); printf("memory bandwidth (MB/s)\n"); fflush(stdout); } void Output::csv(Experiment &e, int64 ops, double secs, double ck_res) { printf("%ld,", e.pointer_size); printf("%ld,", e.bytes_per_line); printf("%ld,", e.bytes_per_page); printf("%ld,", e.bytes_per_chain); printf("%ld,", e.bytes_per_thread); printf("%ld,", e.bytes_per_test); printf("%lld,", e.chains_per_thread); printf("%ld,", e.num_threads); printf("%ld,", e.iterations); printf("%ld,", e.loop_length); printf("%s,", prefetch_hint_string(e.prefetch_hint)); printf("%ld,", e.experiments); printf("%s,", e.access()); printf("%ld,", e.stride); printf("%s,", e.placement()); printf("%ld,", e.offset_or_mask); printf("%ld,", e.num_numa_domains); printf("\""); printf("%d:", e.thread_domain[0]); printf("%d", e.chain_domain[0][0]); for (int j = 1; j < e.chains_per_thread; j++) { printf(",%d", e.chain_domain[0][j]); } for (int i = 1; i < e.num_threads; i++) { printf(";%d:", e.thread_domain[i]); printf("%d", e.chain_domain[i][0]); for (int j = 1; j < e.chains_per_thread; j++) { printf(",%d", e.chain_domain[i][j]); } } printf("\","); printf("%ld,", ops); printf("%ld,", ops * e.chains_per_thread * e.num_threads); printf("%.3f,", secs); printf("%.0f,", secs/ck_res); printf("%.2f,", ck_res * 1E9); printf("%.2f,", (secs / (ops * e.iterations)) * 1E9); printf("%.3f\n", ((ops * e.iterations * e.chains_per_thread * e.num_threads * e.bytes_per_line) / secs) * 1E-6); fflush(stdout); } void Output::table(Experiment &e, int64 ops, double secs, double ck_res) { printf("pointer size = %ld (bytes)\n", e.pointer_size); printf("cache line size = %ld (bytes)\n", e.bytes_per_line); printf("page size = %ld (bytes)\n", e.bytes_per_page); printf("chain size = %ld (bytes)\n", e.bytes_per_chain); printf("thread size = %ld (bytes)\n", e.bytes_per_thread); printf("test size = %ld (bytes)\n", e.bytes_per_test); printf("chains per thread = %ld\n", e.chains_per_thread); printf("number of threads = %ld\n", e.num_threads); printf("iterations = %ld\n", e.iterations); printf("loop length = %ld\n", e.loop_length); printf("prefetch hint = %s\n", prefetch_hint_string(e.prefetch_hint)); printf("experiments = %ld\n", e.experiments); printf("access pattern = %s\n", e.access()); printf("stride = %ld\n", e.stride); printf("numa placement = %s\n", e.placement()); printf("offset or mask = %ld\n", e.offset_or_mask); printf("numa domains = %ld\n", e.num_numa_domains); printf("domain map = "); printf("\""); printf("%d:", e.thread_domain[0]); printf("%d", e.chain_domain[0][0]); for (int j = 1; j < e.chains_per_thread; j++) { printf(",%d", e.chain_domain[0][j]); } for (int i = 1; i < e.num_threads; i++) { printf(";%d:", e.thread_domain[i]); printf("%d", e.chain_domain[i][0]); for (int j = 1; j < e.chains_per_thread; j++) { printf(",%d", e.chain_domain[i][j]); } } printf("\"\n"); printf("operations per chain = %ld\n", ops); printf("total operations = %ld\n", ops * e.chains_per_thread * e.num_threads); printf("elapsed time = %.3f (seconds)\n", secs); printf("elapsed time = %.0f (timer ticks)\n", secs/ck_res); printf("clock resolution = %.2f (ns)\n", ck_res * 1E9); printf("memory latency = %.2f (ns)\n", (secs / (ops * e.iterations)) * 1E9); printf("memory bandwidth = %.3f (MB/s)\n", ((ops * e.iterations * e.chains_per_thread * e.num_threads * e.bytes_per_line) / secs) * 1E-6); fflush(stdout); }