Reference Calibration of Body-Voltage Sensing Circuit for High-Speed STT-RAMs
IEEE Trans. on Circuits and Systems(2013)
摘要
With the continuing scaling of MTJ, the high-speed reading of STT-RAM becomes increasingly difficult. Recently, a body-voltage sensing circuit (BVSC) has been proposed for boosting the sensing speed. This paper analyzes the effectiveness of using the reference calibration technique to compensate for the device mismatches and improve the read margin of BVSC. HSPICE simulation results show that a 2-bit reference calibration can improve the worst-case read margin in a 1-Mb memory by over 3 times. This leads to up to 30% higher yield across all process corners. In order to maintain the yield improvement even in the worst-case corner, independent calibration circuitry has to be deployed for each memory array.
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关键词
stt-ram,body-voltage sensing circuit,calibration,magnetic tunnel junction (mtj),memory size 1 mbyte,random-access storage,readout electronics,sensing margin,independent calibration circuitry,mtj,memory array,bvsc,nonvolatile memory,electric sensing devices,word length 2 bit,device mismatches,detector circuits,body-voltage sensing,spin-transfer torque random access memory (stt-ram),reference calibration,magnetic tunnelling,cmos,read margin,reference calibration technique,hspice simulation,cmos memory circuits
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