论文信息 - 28-nm FD-SOI Dual-Port SRAM with MSB-Based Inversion Logic for Low-Power Deep Learning

28-nm FD-SOI Dual-Port SRAM with MSB-Based Inversion Logic for Low-Power Deep Learning

This paper presents low-power and low-energy 8T dual-port SRAM with a novel MSB-based (most-significant-bit-based) inversion logic for an image processor such a deep-learning processor. Our proposed SRAM is suitable for real-time and low-power image processing, in which data have statistical correlation and data bit reordering are exploited. The proposed MSB-based inversion logic eliminates an additional flag bit in a majority logic; the MSB digit in an input datum judges whether or not to invert the datum. Thus, the area overhead of 12.5% for the 8-bit conventional majority logic is dramatically saved. The area overhead of the proposed SRAM is merely 0.6% for the MSB-based inversion logic. We verified that, with the proposed technique, 14.76% of total energy can be saved in a 28-nm 64-kb FD-SOI SRAM when a set of images are read out. Furthermore, the saving factor is extended to 17.31% when image processing in the VGG-F convolutional neural network (CNN) is considered, where 304.81 fJ/cycle in the read operation is achieved.

Shintaro Izumi | Masahiko Yoshimoto | Hiroshi Kawaguchi | Haruki Mori

[1] Masahiko Yoshimoto,et al. Novel Video Memory Reduces 45% of Bitline Power Using Majority Logic and Data-Bit Reordering , 2008, IEEE Transactions on Very Large Scale Integration (VLSI) Systems.

[2] Hidehiro Fujiwara,et al. A 28 nm Dual-Port SRAM Macro With Screening Circuitry Against Write-Read Disturb Failure Issues , 2010, IEEE Journal of Solid-State Circuits.

[3] Koji Nii,et al. A 6.05-Mb/mm2 16-nm FinFET double pumping 1W1R 2-port SRAM with 313 ps read access time , 2016, 2016 IEEE Symposium on VLSI Circuits (VLSI-Circuits).

[4] Jaydeep Kulkarni,et al. 5.6 Mb/mm $^{2}$ 1R1W 8T SRAM Arrays Operating Down to 560 mV Utilizing Small-Signal Sensing With Charge Shared Bitline and Asymmetric Sense Amplifier in 14 nm FinFET CMOS Technology , 2017, IEEE Journal of Solid-State Circuits.

[5] Harold Pilo,et al. A 64Mb SRAM in 22nm SOI technology featuring fine-granularity power gating and low-energy power-supply-partition techniques for 37% leakage reduction , 2013, 2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers.

[6] Geoffrey E. Hinton,et al. ImageNet classification with deep convolutional neural networks , 2012, Commun. ACM.

[7] Sudhakar Yalamanchili,et al. Power Modeling for GPU Architectures Using McPAT , 2014, TODE.