A Burst Scheduling Access Reordering Mechanism

2007 IEEE 13th International Symposium on High Performance Computer Architecture Pub Date : 2007-02-10 DOI:10.1109/HPCA.2007.346206

Jun Shao, B. Davis

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引用次数: 120

Abstract

Utilizing the nonuniform latencies of SDRAM devices, access reordering mechanisms alter the sequence of main memory access streams to reduce the observed access latency. Using a revised M5 simulator with an accurate SDRAM module, the burst scheduling access reordering mechanism is proposed and compared to conventional in order memory scheduling as well as existing academic and industrial access reordering mechanisms. With burst scheduling, memory accesses to the same rows of the same banks are clustered into bursts to maximize bus utilization of the SDRAM device. Subject to a static threshold, memory reads are allowed to preempt ongoing writes for reduced read latency, while qualified writes are piggybacked at the end of bursts to exploit row locality in writes and prevent write queue saturation. Performance improvements contributed by read preemption and write piggybacking are identified. Simulation results show that burst scheduling reduces the average execution time of selected SPEC CPU2000 benchmarks by 21% over conventional bank in order memory scheduling. Burst scheduling also outperforms Intel's patented out of order memory scheduling and the row hit access reordering mechanism by 11% and 6% respectively

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突发调度访问重排序机制

利用SDRAM设备的非均匀延迟，访问重排序机制改变主存储器访问流的顺序，以减少观察到的访问延迟。利用改进的M5模拟器和精确的SDRAM模块，提出了突发调度访问重排序机制，并与传统的有序存储器调度以及现有的学术和工业访问重排序机制进行了比较。使用突发调度，对同一银行的同一行的内存访问被聚集到突发中，以最大限度地提高SDRAM设备的总线利用率。根据静态阈值，允许内存读抢占正在进行的写操作，以减少读延迟，而在突发结束时承载合格的写操作，以利用写操作中的行局域性并防止写队列饱和。识别了读抢占和写负载所带来的性能改进。仿真结果表明，在顺序存储器调度中，突发调度比常规银行调度减少了所选SPEC CPU2000基准测试的平均执行时间21%。突发调度也比英特尔专利的无序内存调度和行命中访问重排序机制分别高出11%和6%

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2007 IEEE 13th International Symposium on High Performance Computer Architecture

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