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Performance Comparison of Single Level STT and SOT MRAM Cells for Cache Applications

Ashish Sura, Vikas Nehra

202111 citationsDOI

Abstract

The research on intrinsic spin of electrons results a new type of memory device, Spin-transfer-torque magnetic random access memory (STT-MRAM). The property of non-volatility, high endurance, and highly scalable feature size makes STT-MRAM a strong contender for futuristic memory technologies. The basic storage unit is magnetic tunnel junction (MTJ) device and data is read/write by tunnel magneto resistance (TMR) effect and STT mechanism. The high switching current and read disturb of STT-MRAM has forced researchers to shift to a newer technology spin-orbit-torque (SOT)-MRAM. The spin Hall effect (SHE) based SOT-MRAM provides non-volatility with negligible leakage, high performance and endurance with lower switching current. In this paper, we provide a performance comparison of STT-MRAM and SOT-MRAM cell. Further, array level comparison is performed using NVSIM platform. The simulation results show that the SOT MRAM possess lower write current and energy-efficient as compared to STT MRAM.

Topics & Concepts

Magnetoresistive random-access memorySpin-transfer torqueUniversal memoryTunnel magnetoresistanceScalabilityComputer scienceTorqueNon-volatile memoryCMOSElectrical engineeringMaterials scienceRandom access memoryOptoelectronicsComputer hardwareMagnetizationSemiconductor memoryEngineeringPhysicsMagnetic fieldNanotechnologyComputer memoryMemory refreshThermodynamicsQuantum mechanicsLayer (electronics)DatabaseMagnetic properties of thin filmsQuantum and electron transport phenomenaAdvanced Memory and Neural Computing
Performance Comparison of Single Level STT and SOT MRAM Cells for Cache Applications | Litcius