A Reliable 8T SRAM for High-Speed Searching and Logic-in-Memory Operations | IEEE Journals & Magazine | IEEE Xplore

A Reliable 8T SRAM for High-Speed Searching and Logic-in-Memory Operations


Abstract:

To efficiently implement searching and logic functions with the SRAM-based in-memory computing (IMC), we need to perform computations on bitlines (BLs) (called compute ac...Show More

Abstract:

To efficiently implement searching and logic functions with the SRAM-based in-memory computing (IMC), we need to perform computations on bitlines (BLs) (called compute access) via multiple wordline (WL) activations. However, this may cause prominent read disturbance when the IMC is implemented with the standard 6 T SRAM. To address this reliability issue, existing solutions adopt either auxiliary assistance circuits or alternative bitcell topologies, but they lead to substantial overheads of the access speed or array density. In this article, we propose a novel 8T compute SRAM (CSRAM) for reliable and high-speed in-memory searching and compound logic-in-memory computations. Our 8T CSRAM features a pair of pMOS access transistors and split-WLs dedicated to the compute access. A thorough circuit-level analysis reveals that the pMOS-based compute access port is essential for significantly mitigating the read disturbance. Moreover, we propose an elevated precharge voltage scheme and a low-skewed inverter-based sensing amplifier to improve the sensing speed. We have validated the proposed 8T CSRAM design in a 16 Kb array with a 28-nm CMOS technology. Compared to the state-of-the-art 8 T CSRAM, results show that our design is not only reliable but also 3.1 times faster, with a maximum operating frequency upping to 2.44 GHz.
Page(s): 769 - 780
Date of Publication: 20 April 2022

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