3-D Monolithic Stacking of Complementary-FET on CMOS for Next Generation Compute-In-Memory SRAM

Md Aftab Baig, Cheng Jui Yeh, Shu Wei Chang, Bo Han Qiu, Xiao Shan Huang, Cheng Hsien Tsai, Yu Ming Chang, Po Jung Sung, Chun Jung Su, Ta Chun Cho, Sourav De, Darsen Lu, Yao Jen Lee, Wen Hsi Lee, Wen Fa Wu, Wen Kuan Yeh

Research output: Contribution to journalArticlepeer-review

Abstract

Monolithic 3D stacking of complementary FET (CFET) SRAM arrays increases integration density multi-fold while supporting the inherent SRAM advantages of low write power and near-infinite endurance. We propose stacking multiple 8-transistor CFET-SRAM layers on regular CMOS periphery to achieve an ultra-high-density array for computing-in-memory (CIM). CFET and regular CMOS (FinFET) devices are measured and calibrated with BSIM-CMG compact model. SPICE simulations are performed to evaluate the delay of CIM operation, power consumption, and analog computational error due to device non-linearity. The impact of device non-linearity on neural network inference accuracy is evaluated using the CIMulator simulation platform. Lower CFET current drive due to amorphous (deposited) silicon channel is shown to have negligible impact on CIM operational delay in many cases, as the maximum allowable current is limited by wiring resistance, not transistor drive strength while maintaining accurate weighted sum. Compared to regular 2D CMOS FinFET array. CFET SRAM cells show an improvement up to 57.19% in TOPS/W. Furthermore, the performance in TOPS/W mm 2 is improved up to 19×. A factor proportional to the number of stacked layers for monolithically stacked CFET SRAM cells, makes it highly promising for future edge intelligence.

Original languageEnglish
Pages (from-to)107-113
Number of pages7
JournalIEEE Journal of the Electron Devices Society
Volume11
DOIs
Publication statusPublished - 2023

All Science Journal Classification (ASJC) codes

  • Biotechnology
  • Electronic, Optical and Magnetic Materials
  • Electrical and Electronic Engineering

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