halo2/benches/plonk.rs

#[macro_use]
extern crate criterion;

extern crate halo2;
use halo2::arithmetic::FieldExt;
use halo2::circuit::{Cell, Layouter, SimpleFloorPlanner};
use halo2::pasta::{EqAffine, Fp};
use halo2::plonk::*;
use halo2::poly::{commitment::Params, Rotation};
use halo2::transcript::{Blake2bRead, Blake2bWrite, Challenge255};

use std::marker::PhantomData;

use criterion::Criterion;

fn bench_with_k(name: &str, k: u32, c: &mut Criterion) {
    /// This represents an advice column at a certain row in the ConstraintSystem
    #[derive(Copy, Clone, Debug)]
    pub struct Variable(Column<Advice>, usize);

    // Initialize the polynomial commitment parameters
    let params: Params<EqAffine> = Params::new(k);

    #[derive(Clone)]
    struct PlonkConfig {
        a: Column<Advice>,
        b: Column<Advice>,
        c: Column<Advice>,

        sa: Column<Fixed>,
        sb: Column<Fixed>,
        sc: Column<Fixed>,
        sm: Column<Fixed>,
    }

    trait StandardCs<FF: FieldExt> {
        fn raw_multiply<F>(
            &self,
            layouter: &mut impl Layouter<FF>,
            f: F,
        ) -> Result<(Cell, Cell, Cell), Error>
        where
            F: FnMut() -> Result<(FF, FF, FF), Error>;
        fn raw_add<F>(
            &self,
            layouter: &mut impl Layouter<FF>,
            f: F,
        ) -> Result<(Cell, Cell, Cell), Error>
        where
            F: FnMut() -> Result<(FF, FF, FF), Error>;
        fn copy(&self, layouter: &mut impl Layouter<FF>, a: Cell, b: Cell) -> Result<(), Error>;
    }

    #[derive(Clone)]
    struct MyCircuit<F: FieldExt> {
        a: Option<F>,
        k: u32,
    }

    struct StandardPlonk<F: FieldExt> {
        config: PlonkConfig,
        _marker: PhantomData<F>,
    }

    impl<FF: FieldExt> StandardPlonk<FF> {
        fn new(config: PlonkConfig) -> Self {
            StandardPlonk {
                config,
                _marker: PhantomData,
            }
        }
    }

    impl<FF: FieldExt> StandardCs<FF> for StandardPlonk<FF> {
        fn raw_multiply<F>(
            &self,
            layouter: &mut impl Layouter<FF>,
            mut f: F,
        ) -> Result<(Cell, Cell, Cell), Error>
        where
            F: FnMut() -> Result<(FF, FF, FF), Error>,
        {
            layouter.assign_region(
                || "raw_multiply",
                |mut region| {
                    let mut value = None;
                    let lhs = region.assign_advice(
                        || "lhs",
                        self.config.a,
                        0,
                        || {
                            value = Some(f()?);
                            Ok(value.ok_or(Error::SynthesisError)?.0)
                        },
                    )?;
                    let rhs = region.assign_advice(
                        || "rhs",
                        self.config.b,
                        0,
                        || Ok(value.ok_or(Error::SynthesisError)?.1),
                    )?;
                    let out = region.assign_advice(
                        || "out",
                        self.config.c,
                        0,
                        || Ok(value.ok_or(Error::SynthesisError)?.2),
                    )?;

                    region.assign_fixed(|| "a", self.config.sa, 0, || Ok(FF::zero()))?;
                    region.assign_fixed(|| "b", self.config.sb, 0, || Ok(FF::zero()))?;
                    region.assign_fixed(|| "c", self.config.sc, 0, || Ok(FF::one()))?;
                    region.assign_fixed(|| "a * b", self.config.sm, 0, || Ok(FF::one()))?;
                    Ok((lhs, rhs, out))
                },
            )
        }
        fn raw_add<F>(
            &self,
            layouter: &mut impl Layouter<FF>,
            mut f: F,
        ) -> Result<(Cell, Cell, Cell), Error>
        where
            F: FnMut() -> Result<(FF, FF, FF), Error>,
        {
            layouter.assign_region(
                || "raw_add",
                |mut region| {
                    let mut value = None;
                    let lhs = region.assign_advice(
                        || "lhs",
                        self.config.a,
                        0,
                        || {
                            value = Some(f()?);
                            Ok(value.ok_or(Error::SynthesisError)?.0)
                        },
                    )?;
                    let rhs = region.assign_advice(
                        || "rhs",
                        self.config.b,
                        0,
                        || Ok(value.ok_or(Error::SynthesisError)?.1),
                    )?;
                    let out = region.assign_advice(
                        || "out",
                        self.config.c,
                        0,
                        || Ok(value.ok_or(Error::SynthesisError)?.2),
                    )?;

                    region.assign_fixed(|| "a", self.config.sa, 0, || Ok(FF::one()))?;
                    region.assign_fixed(|| "b", self.config.sb, 0, || Ok(FF::one()))?;
                    region.assign_fixed(|| "c", self.config.sc, 0, || Ok(FF::one()))?;
                    region.assign_fixed(|| "a * b", self.config.sm, 0, || Ok(FF::zero()))?;
                    Ok((lhs, rhs, out))
                },
            )
        }
        fn copy(
            &self,
            layouter: &mut impl Layouter<FF>,
            left: Cell,
            right: Cell,
        ) -> Result<(), Error> {
            layouter.assign_region(|| "copy", |mut region| region.constrain_equal(left, right))
        }
    }

    impl<F: FieldExt> Circuit<F> for MyCircuit<F> {
        type Config = PlonkConfig;
        type FloorPlanner = SimpleFloorPlanner;

        fn without_witnesses(&self) -> Self {
            Self { a: None, k: self.k }
        }

        fn configure(meta: &mut ConstraintSystem<F>) -> PlonkConfig {
            let a = meta.advice_column();
            let b = meta.advice_column();
            let c = meta.advice_column();

            meta.enable_equality(a.into());
            meta.enable_equality(b.into());
            meta.enable_equality(c.into());

            let sm = meta.fixed_column();
            let sa = meta.fixed_column();
            let sb = meta.fixed_column();
            let sc = meta.fixed_column();

            meta.create_gate("Combined add-mult", |meta| {
                let a = meta.query_advice(a, Rotation::cur());
                let b = meta.query_advice(b, Rotation::cur());
                let c = meta.query_advice(c, Rotation::cur());

                let sa = meta.query_fixed(sa, Rotation::cur());
                let sb = meta.query_fixed(sb, Rotation::cur());
                let sc = meta.query_fixed(sc, Rotation::cur());
                let sm = meta.query_fixed(sm, Rotation::cur());

                vec![a.clone() * sa + b.clone() * sb + a * b * sm + (c * sc * (-F::one()))]
            });

            PlonkConfig {
                a,
                b,
                c,
                sa,
                sb,
                sc,
                sm,
            }
        }

        fn synthesize(
            &self,
            config: PlonkConfig,
            mut layouter: impl Layouter<F>,
        ) -> Result<(), Error> {
            let cs = StandardPlonk::new(config);

            for _ in 0..((1 << (self.k - 1)) - 5) {
                let mut a_squared = None;
                let (a0, _, c0) = cs.raw_multiply(&mut layouter, || {
                    a_squared = self.a.map(|a| a.square());
                    Ok((
                        self.a.ok_or(Error::SynthesisError)?,
                        self.a.ok_or(Error::SynthesisError)?,
                        a_squared.ok_or(Error::SynthesisError)?,
                    ))
                })?;
                let (a1, b1, _) = cs.raw_add(&mut layouter, || {
                    let fin = a_squared.and_then(|a2| self.a.map(|a| a + a2));
                    Ok((
                        self.a.ok_or(Error::SynthesisError)?,
                        a_squared.ok_or(Error::SynthesisError)?,
                        fin.ok_or(Error::SynthesisError)?,
                    ))
                })?;
                cs.copy(&mut layouter, a0, a1)?;
                cs.copy(&mut layouter, b1, c0)?;
            }

            Ok(())
        }
    }

    let empty_circuit: MyCircuit<Fp> = MyCircuit { a: None, k };

    // Initialize the proving key
    let vk = keygen_vk(&params, &empty_circuit).expect("keygen_vk should not fail");
    let pk = keygen_pk(&params, vk, &empty_circuit).expect("keygen_pk should not fail");

    let prover_name = name.to_string() + "-prover";
    let verifier_name = name.to_string() + "-verifier";

    c.bench_function(&prover_name, |b| {
        b.iter(|| {
            let circuit: MyCircuit<Fp> = MyCircuit {
                a: Some(Fp::rand()),
                k,
            };

            // Create a proof
            let mut transcript = Blake2bWrite::<_, _, Challenge255<_>>::init(vec![]);
            create_proof(&params, &pk, &[circuit], &[&[]], &mut transcript)
                .expect("proof generation should not fail")
        });
    });

    let circuit: MyCircuit<Fp> = MyCircuit {
        a: Some(Fp::rand()),
        k,
    };

    // Create a proof
    let mut transcript = Blake2bWrite::<_, _, Challenge255<_>>::init(vec![]);
    create_proof(&params, &pk, &[circuit], &[&[]], &mut transcript)
        .expect("proof generation should not fail");
    let proof = transcript.finalize();

    c.bench_function(&verifier_name, |b| {
        b.iter(|| {
            let msm = params.empty_msm();
            let mut transcript = Blake2bRead::<_, _, Challenge255<_>>::init(&proof[..]);
            let guard = verify_proof(&params, pk.get_vk(), msm, &[&[]], &mut transcript).unwrap();
            let msm = guard.clone().use_challenges();
            assert!(msm.eval());
        });
    });
}

fn criterion_benchmark(c: &mut Criterion) {
    bench_with_k("plonk-k=8", 8, c);
    bench_with_k("plonk-k=9", 9, c);
    bench_with_k("plonk-k=10", 10, c);
    bench_with_k("plonk-k=11", 11, c);
    bench_with_k("plonk-k=12", 12, c);
    bench_with_k("plonk-k=13", 13, c);
    bench_with_k("plonk-k=14", 14, c);
    bench_with_k("plonk-k=15", 15, c);
    bench_with_k("plonk-k=16", 16, c);
}

criterion_group!(benches, criterion_benchmark);
criterion_main!(benches);
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`#[macro_use]`
			`extern crate criterion;`

			`extern crate halo2;`
Migrate to ff traits The `Field` trait in this crate is now `FieldExt: ff::PrimeField`. 2020-11-12 16:08:08 -08:00			`use halo2::arithmetic::FieldExt;`
Introduce a FloorPlanner trait and integrate it into the Circuit trait This is the beginning of the process to enable full floor planning capabilities in `halo2`. For now, all that a floor planner can do is synthesize a circuit, which makes it no more powerful than a layouter, but easier to use (as moving to a multi-pass layouter no longer requires changes to `Circuit::synthesize`). 2021-06-21 11:10:59 -07:00			`use halo2::circuit::{Cell, Layouter, SimpleFloorPlanner};`
Replace DummyHash with BLAKE2b 2021-01-27 02:30:39 -08:00			`use halo2::pasta::{EqAffine, Fp};`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`use halo2::plonk::*;`
Require Rotation instead of i32 for relative rows in circuits. Co-authored-by: str4d <thestr4d@gmail.com> 2020-12-23 08:45:16 -08:00			`use halo2::poly::{commitment::Params, Rotation};`
Replace ChallengeSpace with EncodedChallenge API Co-authored-by: Sean Bowe <ewillbefull@gmail.com> 2021-04-30 18:28:50 -07:00			`use halo2::transcript::{Blake2bRead, Blake2bWrite, Challenge255};`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
			`use std::marker::PhantomData;`

			`use criterion::Criterion;`

			`fn bench_with_k(name: &str, k: u32, c: &mut Criterion) {`
			`/// This represents an advice column at a certain row in the ConstraintSystem`
			`#[derive(Copy, Clone, Debug)]`
			`pub struct Variable(Column<Advice>, usize);`

			`// Initialize the polynomial commitment parameters`
Generate the URS using a homebrew mixture of blake2b and try-and-increment. 2020-12-23 15:09:17 -08:00			`let params: Params<EqAffine> = Params::new(k);`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
Update tests 2021-02-18 23:24:21 -08:00			`#[derive(Clone)]`
clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`struct PlonkConfig {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`a: Column<Advice>,`
			`b: Column<Advice>,`
			`c: Column<Advice>,`

			`sa: Column<Fixed>,`
			`sb: Column<Fixed>,`
			`sc: Column<Fixed>,`
			`sm: Column<Fixed>,`
			`}`

clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`trait StandardCs<FF: FieldExt> {`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`fn raw_multiply<F>(`
			`&self,`
			`layouter: &mut impl Layouter<FF>,`
			`f: F,`
			`) -> Result<(Cell, Cell, Cell), Error>`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`where`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`F: FnMut() -> Result<(FF, FF, FF), Error>;`
			`fn raw_add<F>(`
			`&self,`
			`layouter: &mut impl Layouter<FF>,`
			`f: F,`
			`) -> Result<(Cell, Cell, Cell), Error>`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`where`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`F: FnMut() -> Result<(FF, FF, FF), Error>;`
			`fn copy(&self, layouter: &mut impl Layouter<FF>, a: Cell, b: Cell) -> Result<(), Error>;`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`}`

Update test to pass multiple ConcreteCircuits 2021-01-20 05:48:51 -08:00			`#[derive(Clone)]`
Migrate to ff traits The `Field` trait in this crate is now `FieldExt: ff::PrimeField`. 2020-11-12 16:08:08 -08:00			`struct MyCircuit<F: FieldExt> {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`a: Option<F>,`
			`k: u32,`
			`}`

clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`struct StandardPlonk<F: FieldExt> {`
			`config: PlonkConfig,`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`_marker: PhantomData<F>,`
			`}`

clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`impl<FF: FieldExt> StandardPlonk<FF> {`
			`fn new(config: PlonkConfig) -> Self {`
			`StandardPlonk {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`config,`
			`_marker: PhantomData,`
			`}`
			`}`
			`}`

clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`impl<FF: FieldExt> StandardCs<FF> for StandardPlonk<FF> {`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`fn raw_multiply<F>(`
			`&self,`
			`layouter: &mut impl Layouter<FF>,`
			`mut f: F,`
			`) -> Result<(Cell, Cell, Cell), Error>`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`where`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`F: FnMut() -> Result<(FF, FF, FF), Error>,`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`{`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`layouter.assign_region(`
			`\|\| "raw_multiply",`
			`\|mut region\| {`
			`let mut value = None;`
			`let lhs = region.assign_advice(`
			`\|\| "lhs",`
			`self.config.a,`
			`0,`
			`\|\| {`
			`value = Some(f()?);`
			`Ok(value.ok_or(Error::SynthesisError)?.0)`
			`},`
			`)?;`
			`let rhs = region.assign_advice(`
			`\|\| "rhs",`
			`self.config.b,`
			`0,`
			`\|\| Ok(value.ok_or(Error::SynthesisError)?.1),`
			`)?;`
			`let out = region.assign_advice(`
			`\|\| "out",`
			`self.config.c,`
			`0,`
			`\|\| Ok(value.ok_or(Error::SynthesisError)?.2),`
			`)?;`

			`region.assign_fixed(\|\| "a", self.config.sa, 0, \|\| Ok(FF::zero()))?;`
			`region.assign_fixed(\|\| "b", self.config.sb, 0, \|\| Ok(FF::zero()))?;`
			`region.assign_fixed(\|\| "c", self.config.sc, 0, \|\| Ok(FF::one()))?;`
			`region.assign_fixed(\|\| "a * b", self.config.sm, 0, \|\| Ok(FF::one()))?;`
			`Ok((lhs, rhs, out))`
Add annotations to Region::{assign_advice, assign_fixed} This enables circuits to annotate individual cells with variable names or similar protocol-specific metadata. 2021-01-22 08:57:38 -08:00			`},`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`)`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`}`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`fn raw_add<F>(`
			`&self,`
			`layouter: &mut impl Layouter<FF>,`
			`mut f: F,`
			`) -> Result<(Cell, Cell, Cell), Error>`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`where`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`F: FnMut() -> Result<(FF, FF, FF), Error>,`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`{`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`layouter.assign_region(`
			`\|\| "raw_add",`
			`\|mut region\| {`
			`let mut value = None;`
			`let lhs = region.assign_advice(`
			`\|\| "lhs",`
			`self.config.a,`
			`0,`
			`\|\| {`
			`value = Some(f()?);`
			`Ok(value.ok_or(Error::SynthesisError)?.0)`
			`},`
			`)?;`
			`let rhs = region.assign_advice(`
			`\|\| "rhs",`
			`self.config.b,`
			`0,`
			`\|\| Ok(value.ok_or(Error::SynthesisError)?.1),`
			`)?;`
			`let out = region.assign_advice(`
			`\|\| "out",`
			`self.config.c,`
			`0,`
			`\|\| Ok(value.ok_or(Error::SynthesisError)?.2),`
			`)?;`

			`region.assign_fixed(\|\| "a", self.config.sa, 0, \|\| Ok(FF::one()))?;`
			`region.assign_fixed(\|\| "b", self.config.sb, 0, \|\| Ok(FF::one()))?;`
			`region.assign_fixed(\|\| "c", self.config.sc, 0, \|\| Ok(FF::one()))?;`
			`region.assign_fixed(\|\| "a * b", self.config.sm, 0, \|\| Ok(FF::zero()))?;`
			`Ok((lhs, rhs, out))`
Add annotations to Region::{assign_advice, assign_fixed} This enables circuits to annotate individual cells with variable names or similar protocol-specific metadata. 2021-01-22 08:57:38 -08:00			`},`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`)`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`}`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`fn copy(`
			`&self,`
			`layouter: &mut impl Layouter<FF>,`
			`left: Cell,`
			`right: Cell,`
			`) -> Result<(), Error> {`
Update tests with API changes for public inputs and permutation argument. 2021-07-08 11:47:51 -07:00			`layouter.assign_region(\|\| "copy", \|mut region\| region.constrain_equal(left, right))`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`}`
			`}`

Migrate to ff traits The `Field` trait in this crate is now `FieldExt: ff::PrimeField`. 2020-11-12 16:08:08 -08:00			`impl<F: FieldExt> Circuit<F> for MyCircuit<F> {`
clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`type Config = PlonkConfig;`
Introduce a FloorPlanner trait and integrate it into the Circuit trait This is the beginning of the process to enable full floor planning capabilities in `halo2`. For now, all that a floor planner can do is synthesize a circuit, which makes it no more powerful than a layouter, but easier to use (as moving to a multi-pass layouter no longer requires changes to `Circuit::synthesize`). 2021-06-21 11:10:59 -07:00			`type FloorPlanner = SimpleFloorPlanner;`

			`fn without_witnesses(&self) -> Self {`
			`Self { a: None, k: self.k }`
			`}`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`fn configure(meta: &mut ConstraintSystem<F>) -> PlonkConfig {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`let a = meta.advice_column();`
			`let b = meta.advice_column();`
			`let c = meta.advice_column();`

Update tests with API changes for public inputs and permutation argument. 2021-07-08 11:47:51 -07:00			`meta.enable_equality(a.into());`
			`meta.enable_equality(b.into());`
			`meta.enable_equality(c.into());`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
			`let sm = meta.fixed_column();`
			`let sa = meta.fixed_column();`
			`let sb = meta.fixed_column();`
			`let sc = meta.fixed_column();`

Add name field to ConstraintSystem::create_gate The name has type `&'static str`, as gates apply to every row and thus do not require any runtime information to name. 2021-01-22 11:46:06 -08:00			`meta.create_gate("Combined add-mult", \|meta\| {`
Require Rotation instead of i32 for relative rows in circuits. Co-authored-by: str4d <thestr4d@gmail.com> 2020-12-23 08:45:16 -08:00			`let a = meta.query_advice(a, Rotation::cur());`
			`let b = meta.query_advice(b, Rotation::cur());`
			`let c = meta.query_advice(c, Rotation::cur());`

			`let sa = meta.query_fixed(sa, Rotation::cur());`
			`let sb = meta.query_fixed(sb, Rotation::cur());`
			`let sc = meta.query_fixed(sc, Rotation::cur());`
			`let sm = meta.query_fixed(sm, Rotation::cur());`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
Allow multiple polynomial constraints per gate This enables a gate such as ECC complete addition to define its constraints in terms of a common set of queried columns. 2021-05-27 06:44:02 -07:00			`vec![a.clone() * sa + b.clone() * sb + a * b * sm + (c * sc * (-F::one()))]`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`});`

clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`PlonkConfig {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`a,`
			`b,`
			`c,`
			`sa,`
			`sb,`
			`sc,`
			`sm,`
			`}`
			`}`

			`fn synthesize(`
			`&self,`
clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`config: PlonkConfig,`
Introduce a FloorPlanner trait and integrate it into the Circuit trait This is the beginning of the process to enable full floor planning capabilities in `halo2`. For now, all that a floor planner can do is synthesize a circuit, which makes it no more powerful than a layouter, but easier to use (as moving to a multi-pass layouter no longer requires changes to `Circuit::synthesize`). 2021-06-21 11:10:59 -07:00			`mut layouter: impl Layouter<F>,`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`) -> Result<(), Error> {`
clippy: Fix capitalized acronyms in tests and examples 2021-06-23 05:33:04 -07:00			`let cs = StandardPlonk::new(config);`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
Update tests with API changes for public inputs and permutation argument. 2021-07-08 11:47:51 -07:00			`for _ in 0..((1 << (self.k - 1)) - 5) {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`let mut a_squared = None;`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`let (a0, _, c0) = cs.raw_multiply(&mut layouter, \|\| {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`a_squared = self.a.map(\|a\| a.square());`
			`Ok((`
			`self.a.ok_or(Error::SynthesisError)?,`
			`self.a.ok_or(Error::SynthesisError)?,`
			`a_squared.ok_or(Error::SynthesisError)?,`
			`))`
			`})?;`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`let (a1, b1, _) = cs.raw_add(&mut layouter, \|\| {`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`let fin = a_squared.and_then(\|a2\| self.a.map(\|a\| a + a2));`
			`Ok((`
			`self.a.ok_or(Error::SynthesisError)?,`
			`a_squared.ok_or(Error::SynthesisError)?,`
			`fin.ok_or(Error::SynthesisError)?,`
			`))`
			`})?;`
Migrate PLONK-gate-using circuits to use SingleChipLayouter These were all early examples that used the Circuit trait without any layouter, which is incompatible with upcoming changes. The minimal change to the PinnedVerificationKey is because the lookup table is being allocated at the top of its columns instead of in-place. 2021-06-21 11:51:32 -07:00			`cs.copy(&mut layouter, a0, a1)?;`
			`cs.copy(&mut layouter, b1, c0)?;`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`}`

			`Ok(())`
			`}`
			`}`

			`let empty_circuit: MyCircuit<Fp> = MyCircuit { a: None, k };`

			`// Initialize the proving key`
Refactor keygen to generate pk from vk. 2021-01-13 09:23:01 -08:00			`let vk = keygen_vk(&params, &empty_circuit).expect("keygen_vk should not fail");`
			`let pk = keygen_pk(&params, vk, &empty_circuit).expect("keygen_pk should not fail");`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
			`let prover_name = name.to_string() + "-prover";`
			`let verifier_name = name.to_string() + "-verifier";`

			`c.bench_function(&prover_name, \|b\| {`
			`b.iter(\|\| {`
			`let circuit: MyCircuit<Fp> = MyCircuit {`
Migrate to ff traits The `Field` trait in this crate is now `FieldExt: ff::PrimeField`. 2020-11-12 16:08:08 -08:00			`a: Some(Fp::rand()),`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`k,`
			`};`

			`// Create a proof`
Remove unused Challenge trait. 2021-05-24 09:55:34 -07:00			`let mut transcript = Blake2bWrite::<_, _, Challenge255<_>>::init(vec![]);`
Update bench::plonk to work with multi-proof prover 2021-02-18 23:46:32 -08:00			`create_proof(&params, &pk, &[circuit], &[&[]], &mut transcript)`
Add aux information to metrics 2020-11-23 07:35:50 -08:00			`.expect("proof generation should not fail")`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`});`
			`});`

			`let circuit: MyCircuit<Fp> = MyCircuit {`
Migrate to ff traits The `Field` trait in this crate is now `FieldExt: ff::PrimeField`. 2020-11-12 16:08:08 -08:00			`a: Some(Fp::rand()),`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`k,`
			`};`

			`// Create a proof`
Remove unused Challenge trait. 2021-05-24 09:55:34 -07:00			`let mut transcript = Blake2bWrite::<_, _, Challenge255<_>>::init(vec![]);`
Update bench::plonk to work with multi-proof prover 2021-02-18 23:46:32 -08:00			`create_proof(&params, &pk, &[circuit], &[&[]], &mut transcript)`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`.expect("proof generation should not fail");`
Update the PLONK implementation to adapt to the new transcript API. 2020-12-23 12:03:31 -08:00			`let proof = transcript.finalize();`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00
			`c.bench_function(&verifier_name, \|b\| {`
			`b.iter(\|\| {`
			`let msm = params.empty_msm();`
Remove unused Challenge trait. 2021-05-24 09:55:34 -07:00			`let mut transcript = Blake2bRead::<_, _, Challenge255<_>>::init(&proof[..]);`
Update bench::plonk to work with multi-proof prover 2021-02-18 23:46:32 -08:00			`let guard = verify_proof(&params, pk.get_vk(), msm, &[&[]], &mut transcript).unwrap();`
PLONK benchmarks. 2020-10-13 14:06:21 -07:00			`let msm = guard.clone().use_challenges();`
			`assert!(msm.eval());`
			`});`
			`});`
			`}`

			`fn criterion_benchmark(c: &mut Criterion) {`
			`bench_with_k("plonk-k=8", 8, c);`
			`bench_with_k("plonk-k=9", 9, c);`
			`bench_with_k("plonk-k=10", 10, c);`
			`bench_with_k("plonk-k=11", 11, c);`
			`bench_with_k("plonk-k=12", 12, c);`
			`bench_with_k("plonk-k=13", 13, c);`
			`bench_with_k("plonk-k=14", 14, c);`
			`bench_with_k("plonk-k=15", 15, c);`
			`bench_with_k("plonk-k=16", 16, c);`
			`}`

			`criterion_group!(benches, criterion_benchmark);`
			`criterion_main!(benches);`