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plutarch-benchmark

plutarch-benchmark

Public discussion and assistance can be found on discord @ #liqwid-libs

Tickets and project management can be found on Notion

What is this?

A helper library to compare algorithm implementations of Plutarch code.

Some of the benchmarking techniques are multi-threaded.

This library helps users to write benchmarks on memory units and CPU units, and ranks those implementations in terms of best, worst, or average cases, across multiple sizes of inputs.

What exactly does this do for me?

The Plutus costing model assigns "CPU" and "memory" to scripts in a manner that is [completely unlike traditional CPU and Memory] (https://www.notion.so/How-Execution-Budgeting-works-for-Onchain-scripts-a62e4a2cf37f4e7f8e0e47735f16048b). In addition, the budget and size limits of Plutus scripts means that [Big-O] asymptotic behavior doesn't tell the full story: the constant factors will matter.

This can lead to non-obvious performance tradeoffs between differing implementations of algorithms. This library provides tools to measure performance empirically. Users can specify generators to generate test data up to certain sizes (either exhaustively or pseudo-randomly, with coverage information included) and compare multiple implementations side-by-side.

Once benchmarks and generators are defined, the library executes the benchmarks in parallel and writes the results to CSV.

How do I use this?

There are two styles of benchmarking made available by the library. The example/Main.hs module demostrates the basic benchmarking process, with the key elements being described below. Users new to the library can read the examples as code, as well as execute the benchmarks with cabal bench to see what they do.

The Plutarch.Benchmark.Sized module exposes a types and functions to assist with generating test data. The key types are:

  • SSample (for "Sized Sample), which holds sample data along with metadata about the size of the inputs it was generated from, the size of the sample itself, coverage, and the sample itself
  • SUniversalGen (for "Sized Universal Generator"), which holds a pair of generators: exhaustive generators for small input sizes, as well as random generators for large input sizes.

Using these types and the bench* functions exposed in the module (as well as those exposed in Plutarch.Bench.Plutarch), users can generate benchmarks in different ways to account for different generator distributions, input sizes, and coverage needs.

Individual benchmarks for a single implementation can be written to CSV using the writePerAxisCSVs function from Plutarch.Benchmark.Cost, and the same module exposes the writeComparisonPerAxisCSVs to group multiple benchmarks into a single CSV and rank them according to performance.

To integrate this with your project, use Nix. We work against the master branch of Plutarch, so you will have to use it also. See the flake.nix file for more details.

What can I do with this?

plutarch-benchmark is licensed under the Apache 2.0 license (SPDX code Apache-2.0); please see the LICENSE file for more details.