← Back to VOLUME 3, ISSUE 3, MARCH 2015
This work is licensed under a Creative Commons Attribution 4.0 International License.
Design And Implementation of 8T SRAM cell for Analysis of DC Noise Margin during Write Operation
π 1 viewπ₯ 0 downloads
Abstract: This paper focuses on the DC noise margin analysis and read/write failure analysis of the proposed 8T low power SRAM cell. In the proposed structure two voltage sources, one connected with the Bit line and the other connected with the Bit bar line for reducing the voltage swing during the switching activity. These two extra voltage sources will control the voltage swing on the output node and improve the stability. DC noise margin has been calculated by using loop gain technique and comparison made with that of conventional 6T SRAM justify the efficiency of the superiority of the proposed SRAM structure. Read and Write failure analyses are also done by using Monte-Carlo simulation. Simulation has been done in 65nm CMOS technology with 1 volt of power supply. Analog and schematic simulations have been done in 65nm environment with the help of Microwind3.1 by using BSimM4 model.
Keywords: CMOS; Dynamic power; DC noise margin; SRAM; Static Noise Margin; Voltage Swing
Keywords: CMOS; Dynamic power; DC noise margin; SRAM; Static Noise Margin; Voltage Swing
How to Cite:
[1] Santhosh BG, Sowmya, Praveen J, Raghavengra Rao R, βDesign And Implementation of 8T SRAM cell for Analysis of DC Noise Margin during Write Operation,β International Journal of Innovative Research in Electrical, Electronics, Instrumentation and Control Engineering (IJIREEICE), DOI: 10.17148/IJIREEICE.2015.3320
This work is licensed under a Creative Commons Attribution 4.0 International License.