Submitted to IEEE Transactions on Parallel and Distributed Systems Special Issue on CMP Architectures

Yi, Ma; Gao, Hongliang; Dimitrov, Martin; Zhou, Huiyang

doi:10.1109/tpds.2007.1080

IEEE Trans. Parallel Distrib. Syst.

2015

DOI: 10.1109/tpds.2007.1080

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Submitted to IEEE Transactions on Parallel and Distributed Systems Special Issue on CMP Architectures

Ma Yi

Hongliang Gao

Martin Dimitrov

et al.

Abstract: Dual-core execution (DCE) is an execution paradigm proposed to utilize chip multiprocessors to improve the performance of single-threaded applications. Previous research has shown that DCE provides a complexity-effective approach to building a highly scalable instruction window and achieves significant latency-hiding capabilities. In this paper, we propose to optimize DCE for power efficiency and/or transient-fault recovery. In DCE, a program is first processed (speculatively) in the front processor and then r… Show more

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Supervised Triple Macrosynchronized Lockstep (STMLS) Architecture for Multicore Processors

Aviles,

Belloch,

Entrena

et al. 2023

IEEE Access

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In various fields, such as those with high reliability requirements, there is a growing demand for high-performance microprocessors. Whereas commercial microprocessors offer a good trade-off between cost, size, and performance, they often need to be adapted to meet the reliability demands of safety-critical applications. To address this challenge, a Supervised Triple Macrosynchronized Lockstep architecture for multicore processors is presented in this work. Multiple recovery mechanisms, including rollback and rollforward, have been implemented to harden the system. By integrating these mechanisms, the microprocessor becomes more robust and capable of mitigating potential errors or failures that may occur during operation. A quad-core ARM Cortex-A53 processor has been used as a case study and an extensive fault injection campaign in register file has been conducted to evaluate the effectiveness of our proposed approach. The results show that the hardened system exhibits high reliability, with 100% error coverage and error correction capabilities of up to 86.40%.

show abstract

Supervised Triple Macrosynchronized Lockstep (STMLS) Architecture for Multicore Processors

Aviles,

Belloch,

Entrena

et al. 2023

IEEE Access

View full text Add to dashboard Cite

show abstract

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Submitted to IEEE Transactions on Parallel and Distributed Systems Special Issue on CMP Architectures

Cited by 1 publication

References 53 publications

Supervised Triple Macrosynchronized Lockstep (STMLS) Architecture for Multicore Processors

Supervised Triple Macrosynchronized Lockstep (STMLS) Architecture for Multicore Processors

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