不同类型感测放大器的8T SRAM的比较研究

2014 IEEE International Conference on Semiconductor Electronics (ICSE2014) Pub Date : 2014-10-13 DOI:10.1109/SMELEC.2014.6920862

S. Hassan, Idalailah Dayah, I. Halim

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引用次数: 15

摘要

本文对不同类型感测放大器的8T SRAM进行了比较研究。这些感测放大器是电压模式感测放大器(VMSA)和电流模式感测放大器(CMSA)。本研究的第一个目标是设计8T SRAM和感测放大器，下一个目标是确定哪个设计在功率，速度，稳定性和面积方面具有更好的性能。感测放大器是CMOS存储器外围电路中最关键的电路之一，对降低整体感测延迟和电压起着重要作用。早期的电压模式感测放大器感测位线和位线的电压差，但随着存储器大小的增加，位线和日期线的电容也增加。用于仿真的工具是SILVACO EDA Gateway和SILVACO EDA Expert，用于使用0.18um技术进行布局。结果表明，与VMSA相比，CMSA具有更高的速度、更低的延迟和更低的功耗。但VMSA的小区面积比CMSA小，噪声裕度比CMSA高。CMSA更适合高速性能和低功耗电路，VMSA最适合稳定性和较小的设计。

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Comparative study on 8T SRAM with different type of sense amplifier

This paper presents the comparative study on 8T SRAM with different type of sense amplifier. These sense amplifiers are voltage-mode sense amplifier (VMSA) and current-mode sense amplifier (CMSA). The first objective of this research is to design the 8T SRAM and sense amplifier and the next objective is to identify which design has better performance in term of power, speed, stability and area. Sense amplifiers are one of the most critical circuits in the periphery of CMOS memories that plays an important role to reduce the overall sensing delay and voltage. Earlier voltage mode sense amplifiers sense the voltage difference at bit and bit lines bar but as the memory size increase the bit line and date line capacitances increases. The tools used for simulation is SILVACO EDA Gateway and SILVACO EDA Expert for layout using 0.18um technology. The results show that the CMSA has higher speed with lower delay, and low power dissipation than VMSA. But, VMSA has smaller cell area and higher noise margin than CMSA. CMSA is more suitable for high speed performance and low power circuitry and VMSA is best suited for stability and smaller design.

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来源期刊

2014 IEEE International Conference on Semiconductor Electronics (ICSE2014)

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