A position-insensitive finished store buffer

Erika Gunadi, Mikko H. Lipasti
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引用次数: 7

Abstract

This paper presents the finished store buffer (or FSB), an alternative and position-insensitive approach for building a scalable store buffer for an out-of-order processor. Exploiting the fact that only a small portion of in-flight stores are done executing (i.e. finished) and waiting for retirement, we are able to build a much smaller and more scalable store buffer. Our study shows that we only need at most half of the number of entries in a conventional store queue if we buffer only the stores that have finished execution. Entries in the store buffer are allocated at issue and disallocated on retirement. A clever encoder circuit is used to provide positional searches without an explicitly positional queue structure. While reducing the access latency and power consumption significantly, our technique has virtually no detrimental effect on per-cycle performance (IPC).
位置不敏感的已完成存储缓冲区
本文提出了完成存储缓冲区(或FSB),这是一种为无序处理器构建可扩展存储缓冲区的替代方法和位置不敏感方法。利用只有一小部分飞行中的商店完成执行(即完成)并等待退役的事实,我们能够构建一个更小且更具可扩展性的商店缓冲区。我们的研究表明,如果我们只缓冲已经完成执行的存储,我们最多只需要传统存储队列中条目数量的一半。存储缓冲区中的条目在发出时分配,在退出时取消分配。使用了一个聪明的编码器电路来提供位置搜索,而不需要明确的位置队列结构。在显著降低访问延迟和功耗的同时,我们的技术对每周期性能(IPC)几乎没有不利影响。
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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