乱序微处理器中用简单哈希表替代关联加载队列

Alok Garg, Fernando Castro, Michael C. Huang, D. Chaver, L. Piñuel, M. Prieto
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引用次数: 10

摘要

在乱序微处理器中缓冲更多运行中的指令是一种直接有效的方法,可以帮助容忍通常与片外存储器访问相关的长延迟。然而,缓冲大量指令的主要挑战之一是实现一种可扩展且高效的机制,以检测由于负载和存储指令的无序调度而导致的内存访问顺序违反。传统的基于cam的关联队列可能非常缓慢且消耗能量。在本文中,我们不是使用传统的基于年龄的负载队列来记录负载地址,而是在地址索引哈希表中显式记录年龄信息,以实现与检测过早负载相同的功能。这种替代设计消除了关联搜索,并显著降低了负载队列的能耗。通过简单的技术来减少误报的数量,可以将性能下降保持在最低限度
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Substituting Associative Load Queue with Simple Hash Tables in Out-of-Order Microprocessors
Buffering more in-flight instructions in an out-of-order microprocessor is a straightforward and effective method to help tolerate the long latencies generally associated with off-chip memory accesses. One of the main challenges of buffering a large number of instructions, however, is the implementation of a scalable and efficient mechanism to detect memory access order violations as a result of out-of-order scheduling of load and store instructions. Traditional CAM-based associative queues can be very slow and energy consuming. In this paper, instead of using the traditional age-based load queue to record load addresses, we explicitly record age information in address-indexed hash tables to achieve the same functionality of detecting premature loads. This alternative design eliminates associative searches and significantly reduces the energy consumption of the load queue. With simple techniques to reduce the number of false positives, performance degradation is kept at a minimum
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