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Article Dans Une Revue IEEE Magnetics Letters Année : 2017

Normally-Off Computing and Checkpoint/Rollback for Fast, Low-Power, and Reliable Devices

Sophiane Senni
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Lionel Torres
Pascal Benoit
Abdoulaye Gamatié
Gilles Sassatelli

Résumé

Since the advent of complementary metal oxide semiconductors (CMOS), the number of transistors per die has continued to increase, reaching today several billion transistors. As a result, it has been possible to design and fabricate smart devices able to run at high speed. However, the power consumption of systems-on-chip has significantly increased due to the high density integration and the high leakage power of current CMOS transistors. As a result, the limits of heat dissipation make further improvement in performance difficult. A high level of autonomy for battery-powered devices is a real challenge. To deal with these issues, spin-transfer-torque magnetic random-access memory (STT-MRAM) technology is seen as a promising solution. In addition to its attractive performance features, STT-MRAM can bring nonvolatility to a system to allow full data retention after a complete shutdown while maintaining a fast wake-up time. Considering two 32-bit embedded processors, this letter shows how STT-MRAM can improve energy efficiency and reliability of future embedded systems thanks to normally-off computing and checkpointing/rollback techniques. A detailed analysis is performed to evaluate the cost related to the backup/recovery of the system. Index Terms—Spintronic memory and logic, embedded processor, spin-transfer-torque, magnetic random-access memory.
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Dates et versions

hal-01767897 , version 1 (18-04-2018)

Identifiants

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Sophiane Senni, Lionel Torres, Pascal Benoit, Abdoulaye Gamatié, Gilles Sassatelli. Normally-Off Computing and Checkpoint/Rollback for Fast, Low-Power, and Reliable Devices. IEEE Magnetics Letters, 2017, 8, pp.1-5. ⟨10.1109/LMAG.2017.2712780⟩. ⟨hal-01767897⟩
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