Document Type
Article
Publication Date
2009
DOI
10.3233/spr-2009-0290
Publication Title
Scientific Programming
Volume
17
Issue
4
Pages
295-308
Abstract
One of the challenges to achieving good performance on multicore architectures is the effective utilization of the underlying memory hierarchy. While this is an issue for single-core architectures, it is a critical problem for multicore chips. In this paper, we formulate the unified multicore model (UMM) to help understand the fundamental limits on cache performance on these architectures. The UMM seamlessly handles different types of multiple-core processors with varying degrees of cache sharing at different levels. We demonstrate that our model can be used to study a variety of multicore architectures on a variety of applications. In particular, we use it to analyze an option pricing problem using the trinomial model and develop an algorithm for it that has near-optimal memory traffic between cache levels. We have implemented the algorithm on a two Quad-Core Intel Xeon 5310 1.6 GHz processors (8 cores). It achieves a peak performance of 19.5 GFLOPs, which is 38% of the theoretical peak of the multicore system. We demonstrate that our algorithm outperforms compiler-optimized and auto-parallelized code by a factor of up to 7.5.
Original Publication Citation
Savage, J. E., & Zubair, M. (2009). Evaluating multicore algorithms on the unified memory model. Scientific Programming, 17(4), 295-308. doi: 10.3233/spr-2009-0290
Repository Citation
Savage, J. E., & Zubair, M. (2009). Evaluating multicore algorithms on the unified memory model. Scientific Programming, 17(4), 295-308. doi: 10.3233/spr-2009-0290