Design of Single Node Upset Resilient Latch for Low Power, Low Cost and Highly Robust Applications

Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/4066

Title:	Design of Single Node Upset Resilient Latch for Low Power, Low Cost and Highly Robust Applications
Authors:	Samal, Anwesh Kumar Kumar, Sandeep Mukherjee, Atin
Keywords:	Single node upset radiation hardened latch robustness robustness single event upset
Issue Date:	Sep-2023
Citation:	7th IEEE International Test Conference in Asia (ITC-Asia) 2023, Matsue, Shimane, Japan, September 12-14, 2023
Abstract:	This paper proposes a soft error-resilient latch (SERL), which is capable of self-recovering of all possible single event upsets (SEU). The latch mainly uses two 1-output Celements and a 2-output C-element to create interlocked feedback loops. Simulation results from Mentor Graphics TSPICE show that proposed SERL is complete resilient to SEU from all of its internal nodes and the output node. Compared to the existing SEU resilient latches, the proposed latch shows the least power dissipation and area overhead, and the lowest cost in terms of power delay area product (PDAP). The proposed latch saves on average approximately 24.29% power, 10.24% area, improves 12% delay and 40% PDAP in comparision to other existing resilient latches.
Description:	Copyright belongs to proceeding publisher
URI:	http://hdl.handle.net/2080/4066
Appears in Collections:	Conference Papers

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