constantine/benchmarks/bench_fields_template.nim

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# Constantine
# Copyright (c) 2018-2019 Status Research & Development GmbH
# Copyright (c) 2020-Present Mamy André-Ratsimbazafy
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
# ############################################################
#
# Benchmark of finite fields
#
# ############################################################
import
# Internals
../constantine/config/curves,
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../constantine/arithmetic,
../constantine/towers,
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# Helpers
../helpers/[timers, prng_unsafe, static_for],
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# Standard library
std/[monotimes, times, strformat, strutils, macros]
var rng: RngState
let seed = uint32(getTime().toUnix() and (1'i64 shl 32 - 1)) # unixTime mod 2^32
rng.seed(seed)
echo "bench xoshiro512** seed: ", seed
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# warmup
proc warmup*() =
# Warmup - make sure cpu is on max perf
let start = cpuTime()
var foo = 123
for i in 0 ..< 300_000_000:
foo += i*i mod 456
foo = foo mod 789
# Compiler shouldn't optimize away the results as cpuTime rely on sideeffects
let stop = cpuTime()
echo &"Warmup: {stop - start:>4.4f} s, result {foo} (displayed to avoid compiler optimizing warmup away)\n"
warmup()
echo "\n⚠️ Measurements are approximate and use the CPU nominal clock: Turbo-Boost and overclocking will skew them."
echo "==========================================================================================================\n"
echo "All benchmarks are using constant-time implementations to protect against side-channel attacks."
when defined(gcc):
echo "\nCompiled with GCC"
elif defined(clang):
echo "\nCompiled with Clang"
elif defined(vcc):
echo "\nCompiled with MSVC"
elif defined(icc):
echo "\nCompiled with ICC"
else:
echo "\nCompiled with an unknown compiler"
when defined(i386) or defined(amd64):
import ../helpers/x86
echo "Running on ", cpuName(), "\n\n"
proc report(op, field: string, start, stop: MonoTime, startClk, stopClk: int64, iters: int) =
echo &"{op:<15} {field:<15} {inNanoseconds((stop-start) div iters):>9} ns {(stopClk - startClk) div iters:>9} cycles"
macro fixFieldDisplay(T: typedesc): untyped =
# At compile-time, enums are integers and their display is buggy
# we get the Curve ID instead of the curve name.
let instantiated = T.getTypeInst()
var name = $instantiated[1][0] # Fp
name.add "[" & $Curve(instantiated[1][1].intVal) & "]"
result = newLit name
template bench(op: string, T: typedesc, iters: int, body: untyped): untyped =
let start = getMonotime()
let startClk = getTicks()
for _ in 0 ..< iters:
body
let stopClk = getTicks()
let stop = getMonotime()
report(op, fixFieldDisplay(T), start, stop, startClk, stopClk, iters)
proc addBench*(T: typedesc, iters: int) =
var x = rng.random_unsafe(T)
let y = rng.random_unsafe(T)
bench("Addition", T, iters):
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x += y
proc subBench*(T: typedesc, iters: int) =
var x = rng.random_unsafe(T)
let y = rng.random_unsafe(T)
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preventOptimAway(x)
bench("Substraction", T, iters):
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x -= y
proc negBench*(T: typedesc, iters: int) =
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var r: T
let x = rng.random_unsafe(T)
bench("Negation", T, iters):
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r.neg(x)
proc mulBench*(T: typedesc, iters: int) =
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var r: T
let x = rng.random_unsafe(T)
let y = rng.random_unsafe(T)
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preventOptimAway(r)
bench("Multiplication", T, iters):
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r.prod(x, y)
proc sqrBench*(T: typedesc, iters: int) =
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var r: T
let x = rng.random_unsafe(T)
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preventOptimAway(r)
bench("Squaring", T, iters):
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r.square(x)
proc invBench*(T: typedesc, iters: int) =
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var r: T
let x = rng.random_unsafe(T)
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preventOptimAway(r)
bench("Inversion", T, iters):
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r.inv(x)