Nonvolatile Logic-in-Memory LSI Using Cycle-Based Power Gating and its Application to Motion-Vector Prediction

Nonvolatile Logic-in-Memory LSI Using Cycle-Based Power Gating and its Application to Motion-Vector Prediction

A magnetic tunnel junction (MTJ)-based logic-in-memory hardware accelerator LSI with cycle-based power gating is fabricated using a 90 nm MTJ/MOS process on a 300 mm wafer fabrication line for practical-scale, fully parallel motion-vector prediction, without wasted power dissipation. The proposed no...

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Veröffentlicht in:IEEE journal of solid-state circuits 2015-02, Vol.50 (2), p.476-489
Hauptverfasser: Natsui, Masanori, Suzuki, Daisuke, Sakimura, Noboru, Nebashi, Ryusuke, Tsuji, Yukihide, Morioka, Ayuka, Sugibayashi, Tadahiko, Miura, Sadahiko, Honjo, Hiroaki, Kinoshita, Keizo, Ikeda, Shoji, Endoh, Tetsuo, Ohno, Hideo, Hanyu, Takahiro
Format: Artikel
Sprache:eng
Schlagworte:
Automated design environment
Computer architecture
Educational institutions
Integrated circuit modeling
Large scale integration
magnetic tunnel junction (MTJ)
Magnetic tunneling
Microprocessors
motion-vector prediction
nonvolatile logic-in-memory (NV-LIM)
Nonvolatile memory
power gating
spin-transfer torque random access memory (STT-RAM)
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Zusammenfassung:A magnetic tunnel junction (MTJ)-based logic-in-memory hardware accelerator LSI with cycle-based power gating is fabricated using a 90 nm MTJ/MOS process on a 300 mm wafer fabrication line for practical-scale, fully parallel motion-vector prediction, without wasted power dissipation. The proposed nonvolatile LSI is designed by establishing an automated design environment with MTJ-based logic-circuit IPs and peripheral assistant tools, as well as a precise MTJ device model produced by the fabricated test chips. Through the measurement results of the fabricated LSI, this study shows both the impact of the power-gating technique in a fine temporal granularity utilizing the non-volatility of the MTJ device and the effectiveness of the established automated design environment for designing random logic LSI using nonvolatile logic-in-memory.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2014.2362853