为快速和节能的STT-RAM缓存放松非易失性

2011 IEEE 17th International Symposium on High Performance Computer Architecture Pub Date : 2011-02-12 DOI:10.1109/HPCA.2011.5749716

IV ClintonWillsSmullen, Vidyabhushan Mohan, Anurag Nigam, S. Gurumurthi, M. Stan

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引用次数: 411

摘要

自旋转移扭矩RAM (STT-RAM)是一种新兴的非易失性存储技术，是一种潜在的通用存储器，可以取代处理器缓存中的SRAM。本文提出了一种重新设计STT-RAM存储单元的新方法，以减少高动态能量和慢写入延迟。我们通过减少单元的平面面积来降低保留时间，从而减少写入电流，然后我们将其与CACTI一起用于设计缓存和存储器。我们使用基于SRAM和stt - ram的缓存的组合来模拟四核处理器设计。由于超低保留STT-RAM可能会丢失数据，我们还提供了一个简单的初步评估，DRAMstyle刷新策略。我们发现，纯STT-RAM缓存层次结构提供了最佳的能源效率，尽管基于sram的L1缓存与减少保留的STT-RAM L2和L3缓存的混合设计消除了性能损失，同时仍将能量延迟产品减少了70%以上。

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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Relaxing non-volatility for fast and energy-efficient STT-RAM caches

Spin-Transfer Torque RAM (STT-RAM) is an emerging non-volatile memory technology that is a potential universal memory that could replace SRAM in processor caches. This paper presents a novel approach for redesigning STT-RAM memory cells to reduce the high dynamic energy and slow write latencies. We lower the retention time by reducing the planar area of the cell, thereby reducing the write current, which we then use with CACTI to design caches and memories. We simulate quad-core processor designs using a combination of SRAM- and STT-RAM-based caches. Since ultra-low retention STT-RAM may lose data, we also provide a preliminary evaluation for a simple, DRAMstyle refresh policy. We found that a pure STT-RAM cache hierarchy provides the best energy efficiency, though a hybrid design of SRAM-based L1 caches with reduced-retention STT-RAM L2 and L3 caches eliminates performance loss while still reducing the energy-delay product by more than 70%.

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2011 IEEE 17th International Symposium on High Performance Computer Architecture

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