Abstract
In this paper, we propose a new circuit level hardening techniques that can decrease the sensitivity of Static Random Access Memory (SRAM) cells to radiation induced Single Event Upsets (SEUs). Five different types of 32 nm double gate (DG)-FinFET-based SRAM cells are analyzed. Proposed SRAM cell outperforms over the unhardened SRAM when exposed to radiation. This is primarily due to the modification of the source potential used to reduce the effect of SEU without affecting normal operation. Static Noise Margin (SNM), Read Noise Margin (RNM), Write Noise Margin (WNM) and Power Delay Product (PDP) are the performance metrics computed for each type of SRAM cell. Effect of back gate voltage and back gate oxide thickness variation on device characteristic show detrimental effects on radiation hardened capabilities of a device. Benchmarking is done against DICE latch and it is found that as compared to DICE latch proposed DG-FinFET SRAM has low transistor count, less area, low recovery time and fault tolerance to internal as well as external nodes.
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