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A Review of Low-Power Static Random Access Memory (SRAM) Designs

Neetu Rathi, Anil Kumar, Neeraj Gupta, Sanjay Kumar Singh

202318 citationsDOI

Abstract

The growing demand for low-power static random access memory (SRAM) cells in Internet of Things (IoT) devices has led to the development of various SRAM cell topologies that minimize power consumption while maintaining performance and stability. In this paper, we have analyzed various SRAM designs based on different parameters, such as power dissipation, delay, area, energy, and stability. It is observed that 6T SRAM cell, consisting of six transistors, is the most widely used topology due to its simplicity and low area requirements. However, larger cells such as 8T,9T, and 10T have been developed to improve stability and reduce power consumption, although they require more area. It has been observed8 T work better for read delay while 9T works better for 9 Scaling down SRAM cells to smaller feature sizes presents challenges in maintaining stability and reliability while minimizing power consumption.

Topics & Concepts

Static random-access memoryComputer scienceNetwork topologyPower (physics)Energy consumptionElectronic engineeringRandom accessReliability (semiconductor)Power consumptionTransistorDissipationTopology (electrical circuits)Stability (learning theory)Electrical engineeringEngineeringComputer networkComputer hardwareVoltagePhysicsMachine learningQuantum mechanicsThermodynamicsLow-power high-performance VLSI designRadiation Effects in ElectronicsAdvanced Memory and Neural Computing
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