Reducing Switching Latency and Energy in STT-MRAM Caches With Field-Assisted Writing

Patel Ravi; Guo Xiaochen; Guo Qing; Ipek Engin; Friedman Eby G.

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Reducing Switching Latency and Energy in STT-MRAM Caches With Field-Assisted Writing

机译：通过现场辅助写入减少STT-MRAM缓存中的切换延迟和能量

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A field-assisted spin-torque transfer magnetoresistive RAM (STT-MRAM) cache is presented for the use in high-performance energy-efficient microprocessors. Adding field assistance reduces the switching latency by a factor of 4. An array model is developed to evaluate the switching energy for different field currents and array sizes. Several STT-MRAM-based cells demonstrate a 55% energy reduction as compared with an SRAM cache subsystem. As compared with STT-MRAM caches with subbank buffering and differential writes, a field-assisted STT-MRAM cache improves the system performance by 28%, with a 6.7% increase in energy.

机译：提出了一种场辅助自旋转矩转移磁阻RAM（STT-MRAM）高速缓存，供在高性能节能型微处理器中使用。增加现场辅助可将切换延迟减少4倍。开发了一种阵列模型来评估不同励磁电流和阵列尺寸下的切换能量。与SRAM缓存子系统相比，几个基于STT-MRAM的单元的能耗降低了55％。与具有子库缓冲和差分写入功能的STT-MRAM高速缓存相比，现场辅助的STT-MRAM高速缓存将系统性能提高了28％，能耗提高了6.7％。

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来源
《Very Large Scale Integration (VLSI) Systems, IEEE Transactions on》 |2016年第1期|129-138|共10页
作者
Patel Ravi; Guo Xiaochen; Guo Qing; Ipek Engin; Friedman Eby G.;
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Department of Electrical Engineering and Computer Engineering, University of Rochester, Rochester, NY, USA;

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原文格式 PDF
正文语种 eng
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关键词
Cache; STT-MRAM; STT-MRAM.; magnetic tunnel junction (MTJ); magnetoresistive RAM (MRAM); spin-torque transfer (STT);

机译：高速缓存;STT-MRAM;STT-MRAM;磁隧道结（MTJ）;磁阻RAM（MRAM）;自旋扭矩传输（STT）;

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1. Design of an area and energy-efficient last-level cache memory using STT-MRAM [J] . Rajesh Saha, Yogendra Pratap Pundir, Pankaj Kumar Pal Journal of magnetism and magnetic materials . 2021,第Jula期

机译：使用STT-MRAM设计一个区域和节能的最后一级缓存内存
2. Write energy reduction of STT-MRAM based multi-core cache hierarchies [J] . Yogendra Gupta, Lava Bhargava International Journal of Electronics Letters . 2019,第3期

机译：减少基于STT-MRAM的多核高速缓存层次结构的能耗
3. Write energy reduction of STT-MRAM based multi-core cache hierarchies [J] . Yogendra Gupta, Lava Bhargava International Journal of Electronics Letters . 2019,第3期

机译：写入基于STT-MRAM的多核缓存层次结构的能量减少
4. Field driven STT-MRAM cell for reduced switching latency and energy [C] . Patel Ravi, Ipek Engin, Friedman Eby G. IEEE International Symposium on Circuits and Systems . 2014

机译：现场驱动的STT-MRAM单元可降低开关延迟和能耗
5. Architecting Large Caches with Reduced Energy [D] . He, Jiacong. 2018

机译：以降低的能耗设计大型缓存
6. Reduced total energy expenditure and physical activity in cachectic patients with pancreatic cancer can be modulated by an energy and protein dense oral supplement enriched with n-3 fatty acids [O] . A W G Moses, C Slater, T Preston, 2004

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7. Field Driven STT-MRAM Cell for Reduced Switching Latency and Energy [O] . Ravi Patel, Engin Ipek, Eby G. Friedman 2015

机译：场驱动sTT-mRam单元，用于降低开关延迟和能量

Reducing Switching Latency and Energy in STT-MRAM Caches With Field-Assisted Writing

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