This is a supporting code artifact for the publication: "CompilerGym: Robust, Performant Compiler Optimization Environments for AI Research". This is a snapshot of the CompilerGym repository, created at the time of publication. For the most up-to-date release of CompilerGym, see GitHub: https://github.com/facebookresearch/CompilerGym. For further information on CompilerGym, see our documentation site: https://compilergym.ai/
Current compilers fail to deliver satisfactory levels of performance on modern processors, due to ra...
As computer architectures become increasingly complex, hand-tuning compiler heuristics becomes incre...
We address computational reproducibility, with specific emphasis on compilers, compiler optimization...
International audienceComputer scientists are always eager to have a powerful, robust and stable com...
This book explores break-through approaches to tackling and mitigating the well-known problems of co...
Tuning hardwired compiler optimizations for rapidly evolving hardware makes porting an optimizing co...
<p>Position paper accepted for presentation at the Computational Science & Engineering Software Sust...
The Platform-Aware Compilation Environment (PACE) is an ambitious attempt to construct a portable co...
Compiler optimizations are difficult to implement and add complexity to a compiler. For this reason,...
Compiler optimization is the technique of minimizing or maximizing some features of an executable co...
This is the artifact for the paper "Making No-Fuss Compiler Fuzzing Effective" by Alex Groce, Rijnar...
Cavazos, JohnIt has been shown that machine-learning driven optimizations often outperform bundled o...
This special issue presents a number of papers that discuss the design of compiler infrastructures a...
To meet the demands of modern architectures, optimizing compilers must incorporate an ever larger nu...
Developing programs that fully utilize the available computing capabilities of the underlying hardwa...
Current compilers fail to deliver satisfactory levels of performance on modern processors, due to ra...
As computer architectures become increasingly complex, hand-tuning compiler heuristics becomes incre...
We address computational reproducibility, with specific emphasis on compilers, compiler optimization...
International audienceComputer scientists are always eager to have a powerful, robust and stable com...
This book explores break-through approaches to tackling and mitigating the well-known problems of co...
Tuning hardwired compiler optimizations for rapidly evolving hardware makes porting an optimizing co...
<p>Position paper accepted for presentation at the Computational Science & Engineering Software Sust...
The Platform-Aware Compilation Environment (PACE) is an ambitious attempt to construct a portable co...
Compiler optimizations are difficult to implement and add complexity to a compiler. For this reason,...
Compiler optimization is the technique of minimizing or maximizing some features of an executable co...
This is the artifact for the paper "Making No-Fuss Compiler Fuzzing Effective" by Alex Groce, Rijnar...
Cavazos, JohnIt has been shown that machine-learning driven optimizations often outperform bundled o...
This special issue presents a number of papers that discuss the design of compiler infrastructures a...
To meet the demands of modern architectures, optimizing compilers must incorporate an ever larger nu...
Developing programs that fully utilize the available computing capabilities of the underlying hardwa...
Current compilers fail to deliver satisfactory levels of performance on modern processors, due to ra...
As computer architectures become increasingly complex, hand-tuning compiler heuristics becomes incre...
We address computational reproducibility, with specific emphasis on compilers, compiler optimization...