-
Notifications
You must be signed in to change notification settings - Fork 56
Commit
This commit does not belong to any branch on this repository, and may belong to a fork outside of the repository.
add example to measure throughput (raw and adjusted) across different…
… rcs and number of folding steps
- Loading branch information
1 parent
fc61cf1
commit 1bf76b2
Showing
2 changed files
with
206 additions
and
0 deletions.
There are no files selected for viewing
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
Original file line number | Diff line number | Diff line change |
---|---|---|
@@ -0,0 +1,205 @@ | ||
use anyhow::{anyhow, Result}; | ||
use ascii_table::{Align, AsciiTable}; | ||
use criterion::black_box; | ||
use lurk::{ | ||
eval::lang::{Coproc, Lang}, | ||
lem::{eval::evaluate, multiframe::MultiFrame, store::Store}, | ||
proof::{ | ||
nova::{public_params, NovaProver, PublicParams}, | ||
Prover, | ||
}, | ||
}; | ||
use num_traits::ToPrimitive; | ||
use pasta_curves::pallas::Scalar as Fr; | ||
use statrs::statistics::Statistics; | ||
use std::{cell::OnceCell, sync::Arc, time::Instant}; | ||
|
||
const PROGRAM: &str = "(letrec ((loop (lambda (K) (begin | ||
;; fibonacci from lurk-lib | ||
(letrec ((next (lambda (a b n target) | ||
(if (eq n target) | ||
a | ||
(next b | ||
(+ a b) | ||
(+ 1 n) | ||
target)))) | ||
(fib (next 0 1 0))) | ||
(fib K)) | ||
;; < uses three bit decomp slots | ||
(< 0 K) | ||
;; u64 operator uses one bit decomp slot | ||
(u64 5) | ||
;; product between u64s uses one bit decomp slot | ||
(* 2u64 3u64) | ||
;; char operator uses one bit decomp slot | ||
(char 97) | ||
;; loop infinitely | ||
(loop (+ K 1)))))) | ||
(loop 0))"; | ||
|
||
#[inline] | ||
fn n_iters(n_folds: usize, rc: usize) -> usize { | ||
(n_folds + 1) * rc | ||
} | ||
|
||
fn filter(elts: &[f64]) -> Vec<f64> { | ||
let mean = elts.mean(); | ||
let sd = elts.std_dev(); | ||
let lower = &(mean - sd); | ||
let upper = &(mean + sd); | ||
let mut out = Vec::with_capacity(elts.len()); | ||
elts.iter().for_each(|e| { | ||
if lower <= e && e <= upper { | ||
out.push(*e) | ||
} | ||
}); | ||
out | ||
} | ||
|
||
fn analyze_raw(data: &[Vec<(usize, Vec<f64>)>], rc_vec: &[usize]) -> Vec<Vec<String>> { | ||
let mut printed = Vec::with_capacity(data.len()); | ||
for (line_data, rc) in data.iter().zip(rc_vec) { | ||
let mut line = Vec::with_capacity(line_data.len() + 1); | ||
line.push(rc.to_string()); | ||
for (n_frames, durations) in line_data { | ||
let tps = durations | ||
.iter() | ||
.map(|d| n_frames.to_f64().unwrap() / d) | ||
.collect::<Vec<_>>(); | ||
line.push(format!("{:.2}±{:.2}", (&tps).mean(), tps.std_dev())); | ||
} | ||
printed.push(line); | ||
} | ||
printed | ||
} | ||
|
||
fn analyze_adj(data: &[Vec<(usize, Vec<f64>)>], rc_vec: &[usize]) -> Vec<Vec<String>> { | ||
let mut printed = Vec::with_capacity(data.len()); | ||
for (line_data, rc) in data.iter().zip(rc_vec) { | ||
let mut line = Vec::with_capacity(line_data.len() + 1); | ||
line.push(rc.to_string()); | ||
let n_frames_duration_0 = OnceCell::new(); | ||
for (n_frames, durations) in &line_data[1..] { | ||
let (n_frames_0, duration_0) = n_frames_duration_0.get_or_init(|| { | ||
let (n_frames_0, durations_0) = &line_data[0]; | ||
let duration_0 = durations_0.mean(); | ||
(*n_frames_0, duration_0) | ||
}); | ||
let tps = durations | ||
.iter() | ||
.map(|d| (n_frames - n_frames_0).to_f64().unwrap() / (d - duration_0)) | ||
.collect::<Vec<_>>(); | ||
line.push(format!("{:.2}±{:.2}", (&tps).mean(), tps.std_dev())); | ||
} | ||
printed.push(line); | ||
} | ||
printed | ||
} | ||
|
||
fn rc_env() -> Result<Vec<usize>> { | ||
std::env::var("LURK_RC") | ||
.map_err(|e| anyhow!("LURK_RC env var isn't set: {e}")) | ||
.and_then(|rc| { | ||
let vec: Result<Vec<usize>> = rc | ||
.split(',') | ||
.map(|rc| { | ||
rc.parse::<usize>() | ||
.map_err(|e| anyhow!("Failed to parse RC: {e}")) | ||
}) | ||
.collect(); | ||
vec | ||
}) | ||
} | ||
|
||
fn n_folds_env() -> Result<usize> { | ||
std::env::var("LURK_N_FOLDS") | ||
.map_err(|e| anyhow!("LURK_N_FOLDS env var isn't set: {e}")) | ||
.and_then(|n_folds| { | ||
n_folds | ||
.parse::<usize>() | ||
.map_err(|e| anyhow!("Failed to parse N_FOLDS: {e}")) | ||
}) | ||
} | ||
|
||
fn main() { | ||
let rc_vec = rc_env().unwrap_or_else(|_| vec![100]); | ||
let max_n_folds = n_folds_env().unwrap_or(3); | ||
let n_samples = 10; | ||
|
||
let max_rc = rc_vec.iter().max().unwrap(); | ||
|
||
let limit = n_iters(max_n_folds, *max_rc); | ||
|
||
let store = Store::<Fr>::default(); | ||
let program = store.read_with_default_state(PROGRAM).unwrap(); | ||
|
||
let (frames, _) = evaluate::<Fr, Coproc<Fr>>(None, program, &store, limit).unwrap(); | ||
|
||
let lang = Lang::<Fr, Coproc<Fr>>::new(); | ||
let lang_arc = Arc::new(lang.clone()); | ||
|
||
let mut data = Vec::with_capacity(rc_vec.len()); | ||
|
||
for rc in rc_vec.clone() { | ||
let prover: NovaProver<'_, _, _, MultiFrame<'_, _, Coproc<Fr>>> = | ||
NovaProver::new(rc, lang.clone()); | ||
println!("Getting public params for rc={rc}"); | ||
// TODO: use cache once it's fixed | ||
let pp: PublicParams<_, MultiFrame<'_, _, Coproc<Fr>>> = | ||
public_params(rc, lang_arc.clone()); | ||
let n_folds_data = (0..=max_n_folds) | ||
.map(|n_folds| { | ||
let n_frames = n_iters(n_folds, rc); | ||
let frames = &frames[..n_frames]; | ||
println!(" Proving for rc={rc} and n_folds={n_folds} ({n_frames} frames)"); | ||
let mut timings = Vec::with_capacity(n_samples); | ||
for _ in 0..n_samples { | ||
let start = Instant::now(); | ||
let result = prover.prove(&pp, frames, &store, &lang_arc); | ||
let _ = black_box(result); | ||
let end = start.elapsed().as_secs_f64(); | ||
timings.push(end); | ||
} | ||
(n_frames, timings) | ||
}) | ||
.collect::<Vec<_>>(); | ||
data.push( | ||
n_folds_data | ||
.into_iter() | ||
.map(|(x, y)| (x, filter(&y))) | ||
.collect(), | ||
); | ||
} | ||
|
||
let mut table = AsciiTable::default(); | ||
table | ||
.column(0) | ||
.set_header("rc\\n_folds") | ||
.set_align(Align::Right); | ||
(0..=max_n_folds).for_each(|i| { | ||
table | ||
.column(i + 1) | ||
.set_header(i.to_string()) | ||
.set_align(Align::Right); | ||
}); | ||
|
||
println!("Raw throughput"); | ||
table.print(analyze_raw(&data, &rc_vec)); | ||
|
||
if max_n_folds > 0 { | ||
let mut table = AsciiTable::default(); | ||
table | ||
.column(0) | ||
.set_header("rc\\n_folds") | ||
.set_align(Align::Right); | ||
(1..=max_n_folds).for_each(|i| { | ||
table | ||
.column(i) | ||
.set_header(i.to_string()) | ||
.set_align(Align::Right); | ||
}); | ||
|
||
println!("Adjusted throughput"); | ||
table.print(analyze_adj(&data, &rc_vec)); | ||
} | ||
} |