Early evaluation of directive-based GPU programming models for productive exascale computing

S. Lee and J. Vetter
Name of Publication: 
SC '12 Proceedings of the International Conference on High Performance Computing, Networking, Storage and Analysis
Type of Publication: 
Conference Proceedings
Graphics Processing Unit (GPU)-based parallel computer architectures have shown increased popularity as a building block for high performance computing, and possibly for future Exascale computing. However, their programming complexity remains as a major hurdle for their widespread adoption. To provide better abstractions for programming GPU architectures, researchers and vendors have proposed several directive-based GPU programming models. These directive-based models provide different levels of abstraction, and required different levels of programming effort to port and optimize applications. Understanding these differences among these new models provides valuable insights on their applicability and performance potential. In this paper, we evaluate existing directive-based models by porting thirteen application kernels from various scientific domains to use CUDA GPUs, which, in turn, allows us to identify important issues in the functionality, scalability, tunability, and debuggability of the existing models. Our evaluation shows that directive-based models can achieve reasonable performance, compared to hand-written GPU codes.
URL of Published Paper: 
Conference Location: 
Salt Lake City, Utah
Published Date: 
November, 2012
Research Areas: