A novel memristor-based rSRAM structure for multiple-bit upsets immunity

Liyun Wang; Chun Zhang; Liguang Chen; Jinmei Lai; Jiarong Tong

doi:10.1587/elex.9.861

Liyun Wang, Chun Zhang, Liguang Chen, Jinmei Lai, Jiarong Tong

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Keywords: MBUs, memory, radiation hardened, memristors, FPGA

JOURNAL FREE ACCESS

2012 Volume 9 Issue 9 Pages 861-867

DOI https://doi.org/10.1587/elex.9.861

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Abstract

A radiation hardened resistive SRAM structure (rSRAM) is proposed for the SRAM-based FPGAs in this paper. The rSRAM extends the conventional 6T SRAM structure by connecting memristors between the information nodes and drains of the transistors which compose cross-coupled invertors. With memristors connected to drains of OFF transistors configured to high resistance state while others configured to low resistance state forming stable voltage dividing path, the rSRAM structure is immune to both multiple-node upsets and multiple-bit upsets (MBUs). The simulation result demonstrates that rSRAM cell can tolerate simultaneous disruptions affecting all sensitive nodes with an LET (Liner Energy Transfer) of 100Mev-cm²/mg.

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