Archivio Istituzionale della RicercaThe decreasing feature size of VLSI circuits has led to a rise in Single Event Transients (SETs), making them the dominant cause of errors in modern VLSI devices, especially Flash-based FPGAs. The combinational logic in these devices is particularly vulnerable to SETs, making efficient SET hardening techniques essential. Given the demanding performance requirements for vision-oriented benchmarks, finding an efficient hardening technique that does not exceed area and performance limitations is challenging. This paper presents a SET hardening workflow based on an accurate SET analysis aimed at identifying vulnerable circuit nodes for selectively applying hardening techniques to Microchip RTG4 radiation-hardened Flash-based FPGAs. Results from experiments comparing plain, Global hardening, and proposed selective hardening techniques show the high efficiency of the proposed solution.
High-Performance SET Hardening Technique for Vision-Oriented Applications / DE SIO, Corrado; Sterpone, Luca. - (2023), pp. 1-4. (Intervento presentato al convegno International Conference on Synthesis, Modeling, Analysis and Simulation Methods, and Applications to Circuit Design (SMACD) tenutosi a Funchal (PRT) nel 03-05 July 2023) [10.1109/SMACD58065.2023.10192201].
High-Performance SET Hardening Technique for Vision-Oriented Applications
Corrado De Sio;Luca Sterpone
2023
Abstract
The decreasing feature size of VLSI circuits has led to a rise in Single Event Transients (SETs), making them the dominant cause of errors in modern VLSI devices, especially Flash-based FPGAs. The combinational logic in these devices is particularly vulnerable to SETs, making efficient SET hardening techniques essential. Given the demanding performance requirements for vision-oriented benchmarks, finding an efficient hardening technique that does not exceed area and performance limitations is challenging. This paper presents a SET hardening workflow based on an accurate SET analysis aimed at identifying vulnerable circuit nodes for selectively applying hardening techniques to Microchip RTG4 radiation-hardened Flash-based FPGAs. Results from experiments comparing plain, Global hardening, and proposed selective hardening techniques show the high efficiency of the proposed solution.
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https://hdl.handle.net/11583/2978003