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constantine/benchmarks/bench_ec_g1.nim
Mamy Ratsimbazafy e5612f5705
Multi-Scalar-Multiplication / Linear combination (#220) 
* unoptimized msm

* MSM: reorder loops

* add a signed windowed recoding technique

* improve wNAF table access

* use batchAffine

* revamp EC tests

* MSM signed digit support

* refactor MSM: recode signed ahead of time

* missing test vector

* refactor allocs and Alloca sideeffect

* add an endomorphism threshold

* Add Jacobian extended coordinates

* refactor recodings, prepare for parallelizable on-the-fly signed recoding

* recoding changes, introduce proper NAF for pairings

* more pairings refactoring, introduce miller accumulator for EVM

* some optim to the addchain miller loop

* start optimizing multi-pairing

* finish multi-miller loop refactoring

* minor tuning

* MSM: signed encoding suitable for parallelism (no precompute)

* cleanup signed window encoding

* add prefetching

* add metering

* properly init result to infinity

* comment on prefetching

* introduce vartime inversion for batch additions

* fix JacExt infinity conversion

* add batchAffine for MSM, though slower than JacExtended at the moment

* add a batch affine scheduler for MSM

* Add Multi-Scalar-Multiplication endomorphism acceleration

* some tuning

* signed integer fixes + 32-bit + tuning

* Some more tuning

* common msm bench + don't use affine for c < 9

* nit
2023-02-16 12:45:05 +01:00

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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.
import
# Internals
../constantine/math/config/curves,
../constantine/math/arithmetic,
../constantine/math/elliptic/[
ec_shortweierstrass_projective,
ec_shortweierstrass_jacobian,
ec_shortweierstrass_jacobian_extended],
# Helpers
./bench_elliptic_template
# ############################################################
#
# Benchmark of the G1 group of
# Short Weierstrass elliptic curves
# in (homogeneous) projective coordinates
#
# ############################################################
const Iters = 10_000
const MulIters = 100
const AvailableCurves = [
# P224,
BN254_Nogami,
BN254_Snarks,
# Edwards25519,
# P256,
# Secp256k1,
Pallas,
Vesta,
BLS12_377,
BLS12_381,
]
proc main() =
separator()
staticFor i, 0, AvailableCurves.len:
const curve = AvailableCurves[i]
addBench(ECP_ShortW_Prj[Fp[curve], G1], Iters)
addBench(ECP_ShortW_Jac[Fp[curve], G1], Iters)
addBench(ECP_ShortW_JacExt[Fp[curve], G1], Iters)
mixedAddBench(ECP_ShortW_Prj[Fp[curve], G1], Iters)
mixedAddBench(ECP_ShortW_Jac[Fp[curve], G1], Iters)
mixedAddBench(ECP_ShortW_JacExt[Fp[curve], G1], Iters)
doublingBench(ECP_ShortW_Prj[Fp[curve], G1], Iters)
doublingBench(ECP_ShortW_Jac[Fp[curve], G1], Iters)
doublingBench(ECP_ShortW_JacExt[Fp[curve], G1], Iters)
separator()
affFromProjBench(ECP_ShortW_Prj[Fp[curve], G1], MulIters)
affFromJacBench(ECP_ShortW_Jac[Fp[curve], G1], MulIters)
separator()
for numPoints in [10, 100, 1000, 10000]:
let batchIters = max(1, Iters div numPoints)
affFromProjBatchBench(ECP_ShortW_Prj[Fp[curve], G1], numPoints, useBatching = false, batchIters)
separator()
for numPoints in [10, 100, 1000, 10000]:
let batchIters = max(1, Iters div numPoints)
affFromProjBatchBench(ECP_ShortW_Prj[Fp[curve], G1], numPoints, useBatching = true, batchIters)
separator()
for numPoints in [10, 100, 1000, 10000]:
let batchIters = max(1, Iters div numPoints)
affFromJacBatchBench(ECP_ShortW_Jac[Fp[curve], G1], numPoints, useBatching = false, batchIters)
separator()
for numPoints in [10, 100, 1000, 10000]:
let batchIters = max(1, Iters div numPoints)
affFromJacBatchBench(ECP_ShortW_Jac[Fp[curve], G1], numPoints, useBatching = true, batchIters)
separator()
separator()
main()
notes()
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