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Survey of Soft Error Mitigation Techniques Applied to LEON3 Soft Processors on SRAM-Based FPGAs

Survey of Soft Error Mitigation Techniques Applied to LEON3 Soft Processors on SRAM-Based FPGAs
Survey of Soft Error Mitigation Techniques Applied to LEON3 Soft Processors on SRAM-Based FPGAs
Soft-core processors implemented in SRAM-based FPGAs are an attractive option for applications to be employed in radiation environments due to their flexibility, relatively-low application development costs, and reconfigurability features enabling them to adapt to the evolving mission needs. Despite the advantages soft-core processors possess, they are seldom used in critical applications because they are more sensitive to radiation than their hard-core counterparts. For instance, both the logic and signal routing circuitry of a soft-core processor as well as its user memory are susceptible to radiation-induced faults. Therefore, soft-core processors must be appropriately hardened against ionizing-radiation to become a feasible design choice for harsh environments and thus to reap all their benefits. This survey henceforth discusses various techniques to protect the configuration and user memories of an LEON3 soft processor, which is one of the most widely used soft-core processors in radiation environments, as reported in the state-of-the-art literature, with the objective of facilitating the choice of right fault-mitigation solution for any given soft-core processor.
LEON3 soft-core processor, fault tolerance, spatial redundancy, temporal redundancy, software redundancy, SEE, SEU, soft errors
2169-3536
28646-28658
Kasap, Server
e49310e0-96aa-42e1-8259-6ad34cc1b025
Wachter, Eduardo Weber
bdacc537-b1ac-4241-a6fc-b67f1e6a6ce8
Zhai, Xiaojun
93ee3dbb-e10e-472b-adec-78acfcd4cbc7
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
Mcdonald-Maier, Klaus
4429a771-384b-4cc6-8d45-1813c3792939
Kasap, Server
e49310e0-96aa-42e1-8259-6ad34cc1b025
Wachter, Eduardo Weber
bdacc537-b1ac-4241-a6fc-b67f1e6a6ce8
Zhai, Xiaojun
93ee3dbb-e10e-472b-adec-78acfcd4cbc7
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
Mcdonald-Maier, Klaus
4429a771-384b-4cc6-8d45-1813c3792939

Kasap, Server, Wachter, Eduardo Weber, Zhai, Xiaojun, Ehsan, Shoaib and Mcdonald-Maier, Klaus (2020) Survey of Soft Error Mitigation Techniques Applied to LEON3 Soft Processors on SRAM-Based FPGAs. IEEE Access, 8, 28646-28658. (doi:10.1109/ACCESS.2020.2969714).

Record type: Article

Abstract

Soft-core processors implemented in SRAM-based FPGAs are an attractive option for applications to be employed in radiation environments due to their flexibility, relatively-low application development costs, and reconfigurability features enabling them to adapt to the evolving mission needs. Despite the advantages soft-core processors possess, they are seldom used in critical applications because they are more sensitive to radiation than their hard-core counterparts. For instance, both the logic and signal routing circuitry of a soft-core processor as well as its user memory are susceptible to radiation-induced faults. Therefore, soft-core processors must be appropriately hardened against ionizing-radiation to become a feasible design choice for harsh environments and thus to reap all their benefits. This survey henceforth discusses various techniques to protect the configuration and user memories of an LEON3 soft processor, which is one of the most widely used soft-core processors in radiation environments, as reported in the state-of-the-art literature, with the objective of facilitating the choice of right fault-mitigation solution for any given soft-core processor.

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More information

Accepted/In Press date: 17 January 2020
Published date: 27 January 2020
Keywords: LEON3 soft-core processor, fault tolerance, spatial redundancy, temporal redundancy, software redundancy, SEE, SEU, soft errors
Learn more about Agents, Interactions and Complexity research Learn more about Cyber Physical Systems research

Identifiers

Local EPrints ID: 478947
URI: http://eprints.soton.ac.uk/id/eprint/478947
DOI: doi:10.1109/ACCESS.2020.2969714
ISSN: 2169-3536
PURE UUID: 80f40bac-ea03-4e26-b835-6d7356fc72bf
ORCID for Shoaib Ehsan: ORCID iD orcid.org/0000-0001-9631-1898

Catalogue record

Date deposited: 14 Jul 2023 17:08
Last modified: 17 Mar 2024 04:16

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Contributors

Author: Server Kasap
Author: Eduardo Weber Wachter
Author: Xiaojun Zhai
Author: Shoaib Ehsan ORCID iD
Author: Klaus Mcdonald-Maier

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