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, common],
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../constantine/arithmetic,
../constantine/towers,
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# Helpers
../helpers/[prng_unsafe, static_for],
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./bench_blueprint
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export notes
proc separator*() = separator(165)
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proc report(op, field: string, start, stop: MonoTime, startClk, stopClk: int64, iters: int) =
let ns = inNanoseconds((stop-start) div iters)
let throughput = 1e9 / float64(ns)
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when SupportsGetTicks:
echo &"{op:<70} {field:<18} {throughput:>15.3f} ops/s {ns:>9} ns/op {(stopClk - startClk) div iters:>9} CPU cycles (approx)"
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else:
echo &"{op:<70} {field:<18} {throughput:>15.3f} ops/s {ns:>9} ns/op"
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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 =
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measure(iters, startTime, stopTime, startClk, stopClk, body)
report(op, fixFieldDisplay(T), startTime, stopTime, startClk, stopClk, iters)
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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 ccopyBench*(T: typedesc, iters: int) =
var r: T
let x = rng.random_unsafe(T)
bench("Conditional Copy", T, iters):
r.ccopy(x, CtFalse)
proc div2Bench*(T: typedesc, iters: int) =
var x = rng.random_unsafe(T)
bench("Division by 2", T, iters):
x.div2()
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 (constant-time default impl)", T, iters):
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r.inv(x)
proc invEuclidBench*(T: typedesc, iters: int) =
var r: T
let x = rng.random_unsafe(T)
preventOptimAway(r)
bench("Inversion (constant-time Euclid)", T, iters):
r.inv_euclid(x)
proc invPowFermatBench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
const exponent = T.getInvModExponent()
bench("Inversion (exponentiation p-2, Little Fermat)", T, iters):
var r = x
r.powUnsafeExponent(exponent)
proc invAddChainBench*(T: typedesc, iters: int) =
var r: T
let x = rng.random_unsafe(T)
preventOptimAway(r)
bench("Inversion (addition chain)", T, iters):
r.inv_addchain(x)
proc sqrtBench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
bench("Square Root + isSquare (constant-time default impl)", T, iters):
var r = x
discard r.sqrt_if_square()
proc sqrtP3mod4Bench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
bench("SquareRoot + isSquare (p ≡ 3 (mod 4) exponentiation)", T, iters):
var r = x
discard r.sqrt_if_square_p3mod4()
proc sqrtAddChainBench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
bench("SquareRoot + isSquare (addition chain)", T, iters):
var r = x
discard r.sqrt_if_square_addchain()
proc sqrtTonelliBench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
bench("SquareRoot + isSquare (constant-time Tonelli-Shanks exponentiation)", T, iters):
var r = x
discard r.sqrt_if_square_tonelli_shanks(useAddChain = false)
proc sqrtTonelliAddChainBench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
bench("SquareRoot + isSquare (constant-time Tonelli-Shanks addchain)", T, iters):
var r = x
discard r.sqrt_if_square_tonelli_shanks(useAddChain = true)
proc powBench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
let exponent = rng.random_unsafe(BigInt[T.C.getCurveOrderBitwidth()])
bench("Exp curve order (constant-time) - " & $exponent.bits & "-bit", T, iters):
var r = x
r.pow(exponent)
proc powUnsafeBench*(T: typedesc, iters: int) =
let x = rng.random_unsafe(T)
let exponent = rng.random_unsafe(BigInt[T.C.getCurveOrderBitwidth()])
bench("Exp curve order (Leak exponent bits) - " & $exponent.bits & "-bit", T, iters):
var r = x
r.powUnsafeExponent(exponent)