Combine thread with memory scheduling for maximizing performance in multi-core systems

2014 20th IEEE International Conference on Parallel and Distributed Systems (ICPADS) Pub Date : 2014-12-01 DOI:10.1109/PADSW.2014.7097821

Gangyong Jia, Guangjie Han, Liang Shi, Jian Wan, Dong Dai

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引用次数: 4

Abstract

The growing gap between microprocessor speed and DRAM speed is a major problem that computer designers are facing. In order to narrow the gap, it is necessary to improve DRAM's speed and throughput. Moreover, on multi-core platforms, DRAM memory shared by all cores usually suffers from the memory contention and interference problem, which can cause serious performance degradation and unfairness among parallel running threads. To address these problems, this paper proposes techniques to take both advantages of partitioning cores, threads and memory banks into groups to reduce interference among different groups and grouping the memory accesses of the same row together to reduce cache miss rate. A memory optimization framework combined thread scheduling with memory scheduling (CTMS) is proposed in this paper, which simultaneously minimizes memory access schedule length, memory access time and reduce interference to maximize performance for multi-core systems. Experimental results show CTMS is 12.6% shorter in memory access time, while improving 11.8% throughput on average. Moreover, CTMS also saves 5.8% of the energy consumption.

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将线程与内存调度相结合，以在多核系统中最大化性能

微处理器速度和DRAM速度之间越来越大的差距是计算机设计者面临的一个主要问题。为了缩小差距，有必要提高DRAM的速度和吞吐量。此外，在多核平台上，所有内核共享的DRAM内存通常存在内存争用和干扰问题，这可能导致严重的性能下降和并行运行线程之间的不公平。为了解决这些问题，本文提出了将内核、线程和内存库分组以减少组间的干扰和将同一行的内存访问分组在一起以减少缓存丢失率的技术。提出了一种线程调度与内存调度相结合的内存优化框架(CTMS)，该框架在最小化内存访问调度长度、最小化内存访问时间和减少干扰的同时，实现了多核系统性能的最大化。实验结果表明，CTMS的内存访问时间缩短了12.6%，吞吐量平均提高了11.8%。此外，CTMS还节省了5.8%的能耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 20th IEEE International Conference on Parallel and Distributed Systems (ICPADS)

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