GPU吞吐量微架构中的延迟

2015 IEEE International Symposium on Performance Analysis of Systems and Software (ISPASS) Pub Date : 2015-03-29 DOI:10.1109/ISPASS.2015.7095801

M. Andersch, J. Lucas, M. Alvarez-Mesa, B. Juurlink

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引用次数: 11

摘要

现代gpu提供巨大的处理能力(算术吞吐量)以及内存吞吐量。目前，虽然人们似乎很清楚如何通过增加吞吐量来提高性能，但微架构延迟对面向吞吐量的GPU架构的性能的影响还不太清楚。事实上，公众对现代gpu中微架构延迟组件的价值、行为和性能影响知之甚少。这项工作试图通过分析GPU微架构组件的空闲(静态)和加载(动态)延迟行为来填补这一空白。我们的结果表明GPU在延迟隐藏方面并不像通常认为的那样有效，基于此，我们认为除了吞吐量之外，延迟也应该是GPU设计的考虑因素。

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On latency in GPU throughput microarchitectures

Modern GPUs provide massive processing power (arithmetic throughput) as well as memory throughput. Presently, while it appears to be well understood how performance can be improved by increasing throughput, it is less clear what the effects of micro-architectural latencies are on the performance of throughput-oriented GPU architectures. In fact, little is publicly known about the values, behavior, and performance impact of microarchitecture latency components in modern GPUs. This work attempts to fill that gap by analyzing both the idle (static) as well as loaded (dynamic) latency behavior of GPU microarchitectural components. Our results show that GPUs are not as effective in latency hiding as commonly thought and based on that, we argue that latency should also be a GPU design consideration besides throughput.

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2015 IEEE International Symposium on Performance Analysis of Systems and Software (ISPASS)

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