Closed yet Open DRAM: Achieving Low Latency and High Performance in DRAM Memory Systems

Lavanya Subramanian, Kaushik Vaidyanathan, Anant V. Nori, S. Subramoney, T. Karnik, Hong Wang
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引用次数: 3

Abstract

DRAM memory access is a critical performance bottleneck. To access one cache block, an entire row needs to be sensed and amplified, data restored into the bitcells and the bitlines precharged, incurring high latency. Isolating the bitlines and sense amplifiers after activation enables reads and precharges to happen in parallel. However, there are challenges in achieving this isolation. We tackle these challenges and propose an effective scheme, simultaneous read and precharge (SRP), to isolate the sense amplifiers and bitlines and serve reads and precharges in parallel. Our detailed architecture and circuit simulations demonstrate that our simultaneous read and precharge (SRP) mechanism is able to achieve an 8.6% performance benefit over baseline, while reducing sense amplifier idle power by 30%, as compared to prior work, over a wide range of workloads.
封闭而开放的DRAM:实现低延迟和高性能的DRAM存储系统
DRAM内存访问是一个关键的性能瓶颈。为了访问一个缓存块,需要感测和放大整个行,将数据恢复到位单元中,并对位行进行预充,从而导致高延迟。激活后隔离位线和感测放大器使读取和预充并行发生。然而,在实现这种隔离方面存在挑战。我们解决了这些挑战,并提出了一种有效的方案,即同步读取和预充(SRP),以隔离感测放大器和位线,并并行地提供读取和预充。我们详细的架构和电路仿真表明,我们的同步读取和预充电(SRP)机制能够在基线上实现8.6%的性能优势,同时在广泛的工作负载范围内,与之前的工作相比,将感测放大器的空闲功率降低30%。
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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