管理不规则GPGPU应用程序中的DRAM延迟差异

SC14: International Conference for High Performance Computing, Networking, Storage and Analysis Pub Date : 2014-11-16 DOI:10.1109/SC.2014.16

Niladrish Chatterjee, Mike O'Connor, G. Loh, N. Jayasena, R. Balasubramonian

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引用次数: 80

摘要

现代gpu中的内存控制器积极地为高带宽使用重新排序请求，通常是来自不同经线的交叉请求。这将导致warp线程发出的不同请求的延迟时间差异很大。由于SIMT架构中的翘曲只有在其所有内存请求都由内存返回时才能进行，因此在运行不规则的GPGPU应用程序时，这种延迟差异会导致显著的减速。为了解决这个问题，我们提出了内存调度机制，以避免DRAM系统中的warp间干扰，以减少warp所经历的平均内存失速延迟。我们通过跨多个独立内存通道协调调度决策的机制进一步减少延迟差异。最后，我们展示了精心编排内存调度策略可以在不影响带宽利用率的情况下实现低平均延迟。与吞吐量优化的GPU内存控制器相比，我们的组合方案在不规则GPGPU工作负载下的性能提高了10.1%。

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Managing DRAM Latency Divergence in Irregular GPGPU Applications

Memory controllers in modern GPUs aggressively reorder requests for high bandwidth usage, often interleaving requests from different warps. This leads to high variance in the latency of different requests issued by the threads of a warp. Since a warp in a SIMT architecture can proceed only when all of its memory requests are returned by memory, such latency divergence causes significant slowdown when running irregular GPGPU applications. To solve this issue, we propose memory scheduling mechanisms that avoid inter-warp interference in the DRAM system to reduce the average memory stall latency experienced by warps. We further reduce latency divergence through mechanisms that coordinate scheduling decisions across multiple independent memory channels. Finally we show that carefully orchestrating the memory scheduling policy can achieve low average latency for warps, without compromising bandwidth utilization. Our combined scheme yields a 10.1% performance improvement for irregular GPGPU workloads relative to a throughput-optimized GPU memory controller.

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SC14: International Conference for High Performance Computing, Networking, Storage and Analysis

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