// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Calibration used to determine thresholds for using // different algorithms. Ideally, this would be converted // to go generate to create thresholds.go // This file prints execution times for the Mul benchmark // given different Karatsuba thresholds. The result may be // used to manually fine-tune the threshold constant. The // results are somewhat fragile; use repeated runs to get // a clear picture. // Calculates lower and upper thresholds for when basicSqr // is faster than standard multiplication. // Usage: go test -run=TestCalibrate -v -calibrate package big import ( "flag" "fmt" "testing" "time" ) var calibrate = flag.Bool("calibrate", false, "run calibration test") func TestCalibrate(t *testing.T) { if *calibrate { computeKaratsubaThresholds() // compute basicSqrThreshold where overhead becomes negligible minSqr := computeSqrThreshold(10, 30, 1, 3) // compute karatsubaSqrThreshold where karatsuba is faster maxSqr := computeSqrThreshold(300, 500, 10, 3) if minSqr != 0 { fmt.Printf("found basicSqrThreshold = %d\n", minSqr) } else { fmt.Println("no basicSqrThreshold found") } if maxSqr != 0 { fmt.Printf("found karatsubaSqrThreshold = %d\n", maxSqr) } else { fmt.Println("no karatsubaSqrThreshold found") } } } func karatsubaLoad(b *testing.B) { BenchmarkMul(b) } // measureKaratsuba returns the time to run a Karatsuba-relevant benchmark // given Karatsuba threshold th. func measureKaratsuba(th int) time.Duration { th, karatsubaThreshold = karatsubaThreshold, th res := testing.Benchmark(karatsubaLoad) karatsubaThreshold = th return time.Duration(res.NsPerOp()) } func computeKaratsubaThresholds() { fmt.Printf("Multiplication times for varying Karatsuba thresholds\n") fmt.Printf("(run repeatedly for good results)\n") // determine Tk, the work load execution time using basic multiplication Tb := measureKaratsuba(1e9) // th == 1e9 => Karatsuba multiplication disabled fmt.Printf("Tb = %10s\n", Tb) // thresholds th := 4 th1 := -1 th2 := -1 var deltaOld time.Duration for count := -1; count != 0 && th < 128; count-- { // determine Tk, the work load execution time using Karatsuba multiplication Tk := measureKaratsuba(th) // improvement over Tb delta := (Tb - Tk) * 100 / Tb fmt.Printf("th = %3d Tk = %10s %4d%%", th, Tk, delta) // determine break-even point if Tk < Tb && th1 < 0 { th1 = th fmt.Print(" break-even point") } // determine diminishing return if 0 < delta && delta < deltaOld && th2 < 0 { th2 = th fmt.Print(" diminishing return") } deltaOld = delta fmt.Println() // trigger counter if th1 >= 0 && th2 >= 0 && count < 0 { count = 10 // this many extra measurements after we got both thresholds } th++ } } func measureBasicSqr(words, nruns int, enable bool) time.Duration { // more runs for better statistics initBasicSqr, initKaratsubaSqr := basicSqrThreshold, karatsubaSqrThreshold if enable { // set thresholds to use basicSqr at this number of words basicSqrThreshold, karatsubaSqrThreshold = words-1, words+1 } else { // set thresholds to disable basicSqr for any number of words basicSqrThreshold, karatsubaSqrThreshold = -1, -1 } var testval int64 for i := 0; i < nruns; i++ { res := testing.Benchmark(func(b *testing.B) { benchmarkNatSqr(b, words) }) testval += res.NsPerOp() } testval /= int64(nruns) basicSqrThreshold, karatsubaSqrThreshold = initBasicSqr, initKaratsubaSqr return time.Duration(testval) } func computeSqrThreshold(from, to, step, nruns int) int { fmt.Println("Calibrating thresholds for basicSqr via benchmarks of z.mul(x,x)") fmt.Printf("Looking for a timing difference for x between %d - %d words by %d step\n", from, to, step) var initPos bool var threshold int for i := from; i <= to; i += step { baseline := measureBasicSqr(i, nruns, false) testval := measureBasicSqr(i, nruns, true) pos := baseline > testval delta := baseline - testval percent := delta * 100 / baseline fmt.Printf("words = %3d deltaT = %10s (%4d%%) is basicSqr better: %v", i, delta, percent, pos) if i == from { initPos = pos } if threshold == 0 && pos != initPos { threshold = i fmt.Printf(" threshold found") } fmt.Println() } if threshold != 0 { fmt.Printf("Found threshold = %d between %d - %d\n", threshold, from, to) } else { fmt.Printf("Found NO threshold between %d - %d\n", from, to) } return threshold }