NEST: A Quadruple-Node Upset Recovery Latch Design and Algorithm-Based Recovery Optimization
Multinode upset induced by radiation on integrated circuits has caused many circuit reliability issues. This article proposes a single-event quadruple-node upset (QNU) recovery latch (NEST), based on four circular feedback loops that are formed by 25 C-elements to realize high robustness. NEST achie...
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| Vydané v: | IEEE transactions on aerospace and electronic systems Ročník 60; číslo 4; s. 4590 - 4600 |
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| Hlavní autori: | , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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New York
IEEE
01.08.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| ISSN: | 0018-9251, 1557-9603 |
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| Abstract | Multinode upset induced by radiation on integrated circuits has caused many circuit reliability issues. This article proposes a single-event quadruple-node upset (QNU) recovery latch (NEST), based on four circular feedback loops that are formed by 25 C-elements to realize high robustness. NEST achieves 29.02% reduction in power consumption compared to the latch design and algorithm-based verification protected against multiple-node upset (LDAVPM) latch and 51.44% reduction in setup time compared to the quadruple-node upset recoverable and high-impedance-state insensitive latch (QRHIL) latch. NEST also achieves a 99.29% QNU recovery rate. Furthermore, a high-speed, high-precision optimization algorithm for multinode upset recovery is also proposed and implemented. This algorithm achieves 99.84 reduction in simulation time for exhaustive fault injections having equivalent accuracy with high performance simulation program with integrated circuit emphasis (HSPICE). |
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| AbstractList | Multinode upset induced by radiation on integrated circuits has caused many circuit reliability issues. This article proposes a single-event quadruple-node upset (QNU) recovery latch (NEST), based on four circular feedback loops that are formed by 25 C-elements to realize high robustness. NEST achieves 29.02% reduction in power consumption compared to the latch design and algorithm-based verification protected against multiple-node upset (LDAVPM) latch and 51.44% reduction in setup time compared to the quadruple-node upset recoverable and high-impedance-state insensitive latch (QRHIL) latch. NEST also achieves a 99.29% QNU recovery rate. Furthermore, a high-speed, high-precision optimization algorithm for multinode upset recovery is also proposed and implemented. This algorithm achieves 99.84 reduction in simulation time for exhaustive fault injections having equivalent accuracy with high performance simulation program with integrated circuit emphasis (HSPICE). |
| Author | Lu, Yingchun Wang, Xu Liang, Huaguo Wen, Xiaoqing Pan, Jun Sun, Liting Huang, Zhengfeng Yan, Aibin |
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| Snippet | Multinode upset induced by radiation on integrated circuits has caused many circuit reliability issues. This article proposes a single-event quadruple-node... |
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| SubjectTerms | Aerospace and electronic systems Algorithms Circuit reliability Design optimization Feedback loops High impedance Integrated circuits Inverters Latches Logic gates Nodes Optimization Optimization algorithm Power demand quadruple-node upset (QNU) recovery Radiation hardening (electronics) radiation hardening by design Recovery recovery rate |
| Title | NEST: A Quadruple-Node Upset Recovery Latch Design and Algorithm-Based Recovery Optimization |
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