Nova/benches/compute-digest.rs

use std::{marker::PhantomData, time::Duration};

use bellperson::{gadgets::num::AllocatedNum, ConstraintSystem, SynthesisError};
use criterion::{black_box, criterion_group, criterion_main, Criterion};
use ff::PrimeField;
use nova_snark::{
  traits::{
    circuit::{StepCircuit, TrivialTestCircuit},
    Group,
  },
  PublicParams,
};

type G1 = pasta_curves::pallas::Point;
type G2 = pasta_curves::vesta::Point;
type C1 = NonTrivialTestCircuit<<G1 as Group>::Scalar>;
type C2 = TrivialTestCircuit<<G2 as Group>::Scalar>;

criterion_group! {
name = compute_digest;
config = Criterion::default().warm_up_time(Duration::from_millis(3000)).sample_size(10);
targets = bench_compute_digest
}

criterion_main!(compute_digest);

fn bench_compute_digest(c: &mut Criterion) {
  c.bench_function("compute_digest", |b| {
    b.iter(|| {
      PublicParams::<G1, G2, C1, C2>::setup(black_box(C1::new(10)), black_box(C2::default()))
    })
  });
}

#[derive(Clone, Debug, Default)]
struct NonTrivialTestCircuit<F: PrimeField> {
  num_cons: usize,
  _p: PhantomData<F>,
}

impl<F> NonTrivialTestCircuit<F>
where
  F: PrimeField,
{
  pub fn new(num_cons: usize) -> Self {
    Self {
      num_cons,
      _p: Default::default(),
    }
  }
}
impl<F> StepCircuit<F> for NonTrivialTestCircuit<F>
where
  F: PrimeField,
{
  fn arity(&self) -> usize {
    1
  }

  fn synthesize<CS: ConstraintSystem<F>>(
    &self,
    cs: &mut CS,
    z: &[AllocatedNum<F>],
  ) -> Result<Vec<AllocatedNum<F>>, SynthesisError> {
    // Consider a an equation: `x^2 = y`, where `x` and `y` are respectively the input and output.
    let mut x = z[0].clone();
    let mut y = x.clone();
    for i in 0..self.num_cons {
      y = x.square(cs.namespace(|| format!("x_sq_{i}")))?;
      x = y.clone();
    }
    Ok(vec![y])
  }

  fn output(&self, z: &[F]) -> Vec<F> {
    let mut x = z[0];
    let mut y = x;
    for _i in 0..self.num_cons {
      y = x * x;
      x = y;
    }
    vec![y]
  }
}