Low-Power Cache Design Using 7T SRAM Cell

Aly R.E.; Bayoumi M.A.

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Low-Power Cache Design Using 7T SRAM Cell

机译：使用7T SRAM单元的低功耗高速缓存设计

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On-chip cache consumes a large percentage of the whole chip area and expected to increase in advanced technologies. Charging/discharging large bit lines capacitance represents a large portion of power consumption during a write operation. We propose a novel write mechanism which depends only on one of the two bit lines to perform a write operation. Therefore, the proposed 7T SRAM cell reduces the activity factor of discharging the bit line pair to perform a write operation. Experimental results using HSPICE simulation shows that the write power saving is at least 49%. Both read delay and static noise margin are maintained after carefully sizing the cell transistors

机译：片上高速缓存消耗了整个芯片面积的很大一部分，并且预计在先进技术中会增加。大位线电容的充电/放电代表写操作期间功耗的很大一部分。我们提出了一种新颖的写机制，该机制仅依赖于两条位线之一来执行写操作。因此，提出的7T SRAM单元降低了使位线对放电以执行写操作的活性因子。使用HSPICE仿真的实验结果表明，写入功率节省至少49％。在仔细确定单元晶体管的尺寸之后，将保持读取延迟和静态噪声容限

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《IEEE transactions on circuits and systems. II, Express briefs》 |2007年第4期|p.318-322|共5页
作者
Aly R.E.; Bayoumi M.A.;
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原文格式 PDF
正文语种 eng
中图分类通信;
关键词
SRAM chips; cache storage; low-power electronics; 7T SRAM cell; HSPICE simulation; cell transistor sizing; low-power cache design; on-chip cache; two bit lines; write mechanism; write operation; Low power; SRAM cell; on-chip cache;

机译：SRAM芯片;高速缓存存储;低功耗电子产品;7T SRAM单元;HSPICE模拟;单元晶体管尺寸确定;低功耗高速缓存设计;片上高速缓存;两条位线;写入机制;写入操作;低功耗;SRAM单元;开启芯片缓存;

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专利

1. Low-Power Cache Design Using 7T SRAM Cell [J] . Ramy E. Aly, Magdy A. Bayoumi IEEE Transactions on Circuits and Systems. II, Analog and Digital Signal Processing . 2007,第1期

机译：使用7T SRAM单元的低功耗高速缓存设计
2. Low-Power Cache Design Using 7T SRAM Cell [J] . Ramy E. Aly, Magdy A. Bayoumi IEEE Transactions on Circuits and Systems. II, Analog and Digital Signal Processing . 2007,第期

机译：使用7T SRAM单元的低功耗高速缓存设计
3. Reconfiguring Cache Associativity: Adaptive Cache Design for Wide-Range Reliable Low-Voltage Operation Using 7T/14T SRAM [J] . Jinwook JUNG, Yohei NAKATA, Shunsuke OKUMURA, IEICE Transactions on Electronics . 2013,第4期

机译：重新配置缓存关联性：使用7T / 14T SRAM进行大范围可靠低电压操作的自适应缓存设计
4. Ultra low-power 7T SRAM cell design based on CMOS [C] . Moghaddam Majid, Moaiyeri Mohammad Hossein, Eshghi Mohammad Iranian Conference on Electrical Engineering . 2015

机译：基于CMOS的超低功耗7T SRAM单元设计
5. Low power SRAM cells and architectures for cache design. [D] . Mohamed, Rami E. Aly. 2005

机译：用于高速缓存设计的低功耗SRAM单元和体系结构。
6. Power optimized variation aware dual-threshold SRAM cell design technique [O] . Aminul Islam, Mohd Hasan 2011

机译：功耗优化的变化感知双阈值SRAM单元设计技术
7. Reconfiguring Cache Associativity : Adaptive Cache Design for Wide-Range Reliable Low-Voltage Operation Using 7T/14T SRAM [O] . Jung Jinwook, Nakata Yohei, Okumura Shunsuke, 2013

机译：重新配置缓存关联性：使用7T / 14T SRAM的宽范围可靠低电压操作的自适应缓存设计

Low-Power Cache Design Using 7T SRAM Cell

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