6533b855fe1ef96bd12afffc

RESEARCH PRODUCT

AnyDSL: a partial evaluation framework for programming high-performance libraries

Roland LeißaAndré MüllerBertil SchmidtRichard MembarthKlaas BoescheArsène Pérard-gayotSebastian HackPhilipp Slusallek

subject

Intermediate languageComputer science020207 software engineeringImage processing02 engineering and technologyParallel computingPartial evaluation004020204 information systems0202 electrical engineering electronic engineering information engineeringCode generationRay tracing (graphics)General-purpose computing on graphics processing unitsSafety Risk Reliability and QualityImplementationSoftwareCompile time

description

This paper advocates programming high-performance code using partial evaluation. We present a clean-slate programming system with a simple, annotation-based, online partial evaluator that operates on a CPS-style intermediate representation. Our system exposes code generation for accelerators (vectorization/parallelization for CPUs and GPUs) via compiler-known higher-order functions that can be subjected to partial evaluation. This way, generic implementations can be instantiated with target-specific code at compile time. In our experimental evaluation we present three extensive case studies from image processing, ray tracing, and genome sequence alignment. We demonstrate that using partial evaluation, we obtain high-performance implementations for CPUs and GPUs from one language and one code base in a generic way. The performance of our codes is mostly within 10%, often closer to the performance of multi man-year, industry-grade, manually-optimized expert codes that are considered to be among the top contenders in their fields.

yearjournalcountryeditionlanguage
2023-03-22
https://dx.doi.org/10.22028/d291-39348