Hybrid cache architecture replacing SRAM cache with future memory technology

机译：混合缓存体系结构用未来的存储技术取代SRAM缓存

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Recently, hybrid cache architecture has become illuminated. As heterogeneous memory dies are stacked, it improves the performance of microprocessor enhanced in terms of power consumption and processing speed. This paper analyzed the hybrid cache architecture using different programs and memory types. SRAM is fixed for L1 cache memory, whereas DRAM, MRAM, and PRAM are the candidates for L2 cache memory. Each memory structure has the area satisfying the least Average Memory Access Time (AMAT) under a given area condition. Architecture composed of SRAM and MRAM shows 16.9% reduction in average memory access time and 15.2% of power reduction compared with that composed of homogeneous SRAM. Structure of SRAM and DRAM represents 33.0% reduction in power consumption, and that of SRAM and PRAM shows a potential to reduce area and power consumption due to their high density.

机译：近来，混合缓存体系结构已受到启发。由于异构存储管芯堆叠在一起，因此可以提高微处理器的性能，从而在功耗和处理速度方面得到增强。本文分析了使用不同程序和内存类型的混合缓存体系结构。 SRAM固定用于L1高速缓存，而DRAM，MRAM和PRAM是L2高速缓存的候选对象。在给定的区域条件下，每个存储器结构都具有满足最小平均存储器访问时间（AMAT）的区域。与由同类SRAM组成的架构相比，由SRAM和MRAM组成的架构显示平均内存访问时间减少了16.9％，功耗降低了15.2％。 SRAM和DRAM的结构表示功耗降低了33.0％，而SRAM和PRAM的结构由于其高密度而具有减小面积和功耗的潜力。

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《ISCAS 2012;IEEE International Symposium on Circuits and Systems》|2012年|p.2481- 2484|共4页
会议地点 Seoul(KR)
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Lee, Suji; Jung, Jongpil; Kyung, Chong-Min;
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Department of Electrical Engineering KAIST Daejeon Republic of Korea;

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入库时间 2022-08-26 14:38:38

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专利

1. Design Exploration of Hybrid Caches with Disparate Memory Technologies [J] . XIAOXIA WU, JIAN LI, LIXIN ZHANG, ACM Transactions on Architecture and Code Optimization . 2010,第3期

机译：具有不同内存技术的混合缓存的设计探索
2. Hybrid Cache Architecture with Disparate Memory Technologies [J] . Xiaoxia Wu, Jian Li, Lixin Zhang, Computer architecture news . 2009,第3期

机译：具有不同内存技术的混合缓存体系结构
3. A Hybrid PRAM and STT-RAM Cache Architecture for Extending the Lifetime of PRAM Caches [J] . Joo Yongsoo, Park Sangsoo IEEE computer architecture letters . 2013,第2期

机译：混合PRAM和STT-RAM缓存体系结构，可延长PRAM缓存的寿命
4. Hybrid Cache Architecture Replacing SRAM Cache with Future Memory Technology [C] . Suji Lee, Jongpil Jung, Chong-Min Kyung IEEE International Symposium on Circuits and Systems . 2012

机译：混合缓存架构用未来的内存技术替换SRAM缓存
5. Low power and process variation aware SRAM and Cache design fault tolerance in SRAM circuit, architecture and organization. [D] . Sasan, Avesta. 2010

机译：低功耗和工艺变化感知型SRAM和Cache在SRAM电路，架构和组织中的设计容错能力。
6. Metabolic effects of cachectin/tumor necrosis factor are modified by site of production. Cachectin/tumor necrosis factor-secreting tumor in skeletal muscle induces chronic cachexia while implantation in brain induces predominantly acute anorexia. [O] . K J Tracey, S Morgello, B Koplin, 1990

机译：恶病质素/肿瘤坏死因子的代谢作用通过生产部位而改变。骨骼肌中会分泌Cachectin /肿瘤坏死因子的肿瘤会引起慢性恶病质而植入大脑会导致急性厌食症。
7. The salvage cache: a faulttolerant cache architecture for next-generation memory technologies [O] . Cheng-kok Koh, Weng-fai Wong, Yiran Chen, 2013

机译：抢救缓存：用于下一代内存技术的容错缓存架构

Hybrid cache architecture replacing SRAM cache with future memory technology

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