A low store energy, low VDDmin, nonvolatile 8T2R SRAM with 3D stacked RRAM devices for low power mobile applications

A low store energy, low VDDmin, nonvolatile 8T2R SRAM with 3D stacked RRAM devices for low power mobile applications

This work demonstrates the first fabricated macro-level RRAM-based nonvolatile SRAM (nvSRAM) that use a new 8T2R (Rnv8T) cell to achieve fast NVM storage and low VDDmin read/write operations. The Rnv8T cell uses two fast-write low-current RRAM devices, 3D stacked over the 8T, to achieve low store en...

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Hauptverfasser: Chiu, Pi-Feng, Chang, Meng-Fan, Sheu, Shyh-Shyuan, Lin, Ku-Feng, Chiang, Pei-Chia, Wu, Che-Wei, Lin, Wen-Pin, Lin, Chih-He, Hsu, Ching-Chih, Chen, Frederick T., Su, Keng-Li, Kao, Ming-Jer, Tsai, Ming-Jinn
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Mobile communication
Nonvolatile memory
Random access memory
Resistance
SONOS devices
Three dimensional displays
Voltage control
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Zusammenfassung:This work demonstrates the first fabricated macro-level RRAM-based nonvolatile SRAM (nvSRAM) that use a new 8T2R (Rnv8T) cell to achieve fast NVM storage and low VDDmin read/write operations. The Rnv8T cell uses two fast-write low-current RRAM devices, 3D stacked over the 8T, to achieve low store energy with a compact cell area (1.6x that of a 6T cell). A 2T RRAM-switch provides both RRAM control and write-assist functions. This write assist feature enables Rnv8T cell to use read favored transistor sizing against read/write failure at a lower VDD. The fabricated 16Kb Rnv8T macro achieves the lowest store energy and R/W VDDmin (0.45V) than other nvSRAM and "SRAM+NVM" solutions.
ISSN:2158-5601
2158-5636
DOI:10.1109/VLSIC.2010.5560286