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首页> 外文期刊>Circuits and Systems I: Regular Papers, IEEE Transactions on >Bulkyflip: A NAND-SPIN-Based Last-Level Cache With Bandwidth-Oriented Write Management Policy
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Bulkyflip: A NAND-SPIN-Based Last-Level Cache With Bandwidth-Oriented Write Management Policy

机译:BulkyFlip:基于NAND-Spin的最后一级缓存,带宽导向的写入管理策略

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摘要

High capacity last-level caches (LLCs) are being used to help alleviate the growing speed gap between the processor and main memory. However, traditional CMOS based memory technologies (SRAM, DRAM, et al.) for such LLCs consume high static power. Non-volatile memory such as STT-MRAM has been proposed as a low power solution for LLCs. Nevertheless, the high write current induces a so-called "supply current threshold" issue and limits the maximum number of bit-cells that can be written concurrently in one cycle in an STT-MRAM cache. This drawback significantly decreases the bandwidth of the STT-MRAM cache compared with SRAM. In this work, we present a hardware implementation of NAND-like spintronic memory (NAND-SPIN) LLC for the first time. By exploiting the unique erase-then-program operation for writing NAND-SPIN, we propose an adaptive buffer entry (ABE) write policy for each cache write access. Instead of writing a fixed number of bits sequentially, our method adaptively extends the write data length under a fixed maximum cache supply current. Compared to existing STT-MRAM caches, 'ABE' can achieve 70 performance improvements on average. Compared with the conventional early write terminate (EWT) policy, 'ABE' can save 33 write energy on average with negligible hardware overhead.
机译:高容量的最后级别缓存(LLC)用于帮助缓解处理器和主存储器之间的速度差距。但是,传统的CMOS基础内存技术(SRAM,DRAM等),此类LLCS消耗高静电。已经提出了诸如STT-MRAM的非易失性存储器作为LLC的低功率解决方案。然而,高写电流引起所谓的“电源电流阈值”问题,并限制在STT-MRAM高速缓存中可以在一个周期中同时编写的位单元数。与SRAM相比,该缺点显着降低了STT-MRAM缓存的带宽。在这项工作中,我们首次介绍了NAND​​样旋转内存(NAND-Spin)LLC的硬件实现。通过利用用于编写NAND-Spin的独特擦除程序操作,我们提出了一个自适应缓冲区条目(ABE)写入策略,用于每个缓存写访问。我们的方法在固定的最大高速缓冲电源电流下,我们的方法依次延长写数据长度,而不是顺序地编写固定数量的比特。与现有的STT-MRAM缓存相比,'ABE'可以平均实现70种性能改进。与传统的早期写入终止(EWT)政策相比,'ABE'可以平均节省33个写能量,硬件开销可忽略不计。

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  • 作者

    Wu Bi; Dai Pengcheng; Wang Zhaohao; Wang Chao; Wang Ying; Yang Jianlei; Cheng Yuanqing; Liu Dijun; Zhang Youguang; Zhao Weisheng; Hu Xiaobo Sharon;

  • 作者单位

    Beihang Univ Beijing Adv Innovat Ctr Big Data & Brain Comp Sch Microelect Fert Beijing Res Inst Beijing 100191 Peoples R China|Beihang Univ Sch Elect & Informat Engn Beijing 100191 Peoples R China;

    Beihang Univ Beijing Adv Innovat Ctr Big Data & Brain Comp Sch Microelect Fert Beijing Res Inst Beijing 100191 Peoples R China|Beihang Univ Sch Elect & Informat Engn Beijing 100191 Peoples R China;

    Beihang Univ Beijing Adv Innovat Ctr Big Data & Brain Comp Sch Microelect Fert Beijing Res Inst Beijing 100191 Peoples R China;

    Beihang Univ Beijing Adv Innovat Ctr Big Data & Brain Comp Sch Microelect Fert Beijing Res Inst Beijing 100191 Peoples R China|Beihang Univ Sch Elect & Informat Engn Beijing 100191 Peoples R China;

    Chinese Acad Sci Inst Comp Technol Beijing 100190 Peoples R China;

    Beihang Univ Beijing Adv Innovat Ctr Big Data & Brain Comp Fert Beijing Res Inst Sch Comp Sci & Engn Beijing 100191 Peoples R China;

    Beihang Univ Beijing Adv Innovat Ctr Big Data & Brain Comp Sch Microelect Fert Beijing Res Inst Beijing 100191 Peoples R China;

    CAICT Beijing 100191 Peoples R China;

    Beihang Univ Sch Elect & Informat Engn Fert Beijing Res Inst Beijing 100191 Peoples R China;

    Beihang Univ Beijing Adv Innovat Ctr Big Data & Brain Comp Sch Microelect Fert Beijing Res Inst Beijing 100191 Peoples R China;

    Univ Notre Dame Dept Comp Sci & Engn Notre Dame IN 46656 USA;

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  • 关键词

    NAND-SPIN; spin orbit torque (SOT) MRAM; last level cache; write throughput; high performance;

    机译:NAND-Spin;旋转轨道扭矩(SOT)MRAM;最后一级缓存;写吞吐量;高性能;

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