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A Fokker-Planck Solver to Model MTJ Stochasticity.

, , и . ESSDERC, стр. 263-266. IEEE, (2021)

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Prabhat Kumar

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Prabhat Kumar

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Prabhat Jain

 

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Design challenges for near and sub-threshold operation: A case study with an ARM Cortex-M0+ based WSN subsystem., , , , и . PATMOS, стр. 56-63. IEEE, (2016)A Fokker-Planck Solver to Model MTJ Stochasticity., , и . ESSDERC, стр. 263-266. IEEE, (2021)A 65nm switched source line sub-threshold ROM using data encoding, with 0.3V Vmin and 47fJ/b access energy., , , и . ISLPED, стр. 1-6. IEEE, (2019)27.2 M0N0: A Performance-Regulated 0.8-to-38MHz DVFS ARM Cortex-M33 SIMD MCU with 10nW Sleep Power., , , , , , , , , и 1 other автор(ы). ISSCC, стр. 422-424. IEEE, (2020)A 0.98-nW/kHz 33-kHz Fully Integrated Subthreshold-Region Operation RC Oscillator With Forward-Body-Biasing., , , , и . ESSCIRC, стр. 1-4. IEEE, (2019)A Supply Voltage Control Method for Performance Guaranteed Ultra-Low-Power Microcontroller., , , , , и . IEEE J. Solid State Circuits, 56 (2): 601-611 (2021)Evaluation and analysis of single-phase clock flip-flops for NTV applications., , , , , и . PATMOS, стр. 1-6. IEEE, (2017)Unconventional Layout Techniques for a High Performance, Low Variability Subthreshold Standard Cell Library., , , и . ISVLSI, стр. 19-24. IEEE Computer Society, (2017)8.1 An 80nW retention 11.7pJ/cycle active subthreshold ARM Cortex-M0+ subsystem in 65nm CMOS for WSN applications., , , , , и . ISSCC, стр. 1-3. IEEE, (2015)A bulk 65nm Cortex-M0+ SoC with All-Digital Forward Body Bias for 4.3X Subthreshold Speedup., , , , и . A-SSCC, стр. 183-186. IEEE, (2018)