SICTA: A Superimposed In-Circuit Fault Tolerant Architecture for SRAM-based FPGAs

机译：SICTA：基于SRAM的FPGA的叠加的内电阻容错架构

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Reassuring fault tolerance in computing systems that contain FPGA devices is the most important problem for mission critical space components. With the rise in interest of commercial SRAM-based FPGAs, it is crucial to provide runtime reconfigurable recovery from a failure. In this paper, we propose a superimposed virtual coarse-grained reconfigurable architecture, embedded with on-demand three level fault-mitigation technique. The proposed method performs run-time recovery via discrete microscrubbing. This approach can provide up to 3× faster run-time recovery with 10.2× less resources in FPGA devices, by providing integrated layers of fault mitigation.

机译：放心在包含FPGA设备的计算系统中的容错是关键任务空间组件的最重要问题。随着基于商业SRAM的FPGA兴趣的兴趣，至关重要，提供从失败的运行时可重新配置。在本文中，我们提出了一种叠加的虚拟粗粒粒度可重配置架构，嵌入了按需三级故障缓解技术。该方法通过离散的微晶执行运行时恢复。通过提供集成的故障减轻层，这种方法可以提供高达3倍的运行时间恢复，在FPGA器件中提供10.2倍的资源。

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《IEEE International Symposium on On-Line Testing and Robust System Design》|2017年|276p|共4页
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Alexandra Kourfali; Amit Kulkarni; Dirk Stroobandt;
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中图分类 TP393.06-53;
关键词
FPGA; Fault-Tolerance; Parameterised Configuration; Radiation-Hardening; Scrubbing; TMR;

机译：FPGA;容错;参数化配置;辐射硬化;擦洗;TMR;

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专利

1. An Efficient BIST Architecture for Delay Faults in the Logic Cells of Symmetrical SRAM-Based FPGAs [J] . PATRICK GIRARD, OLIVIER HERON, SERGE PRAVOSSOUDOVITCH, Journal of Electronic Testing: Theory and Applications: Theory and Applications . 2006,第2期

机译：基于对称SRAM的FPGA逻辑单元中延迟故障的高效BIST架构
2. An Efficient BIST Architecture for Delay Faults in the Logic Cells of Symmetrical SRAM-Based FPGAs [J] . Patrick Girard, Olivier Héron, Serge Pravossoudovitch, Journal of Electronic Testing . 2006,第2期

机译：基于对称SRAM的FPGA逻辑单元中延迟故障的高效BIST架构
3. Evaluating Different Solutions to Design Fault Tolerant Systems with SRAM-based FPGAs [J] . L. STERPONE, M. SONZA REORDA, M. VIOLANTE, Journal of Electronic Testing: Theory and Applications: Theory and Applications . 2007,第1期

机译：使用基于SRAM的FPGA评估设计容错系统的不同解决方案
4. SICTA: A Superimposed In-Circuit Fault Tolerant Architecture for SRAM-based FPGAs [C] . Alexandra Kourfali, Amit Kulkarni, Dirk Stroobandt IEEE International Symposium on On-Line Testing and Robust System Design . 2017

机译：SICTA：基于SRAM的FPGA的叠加的内电阻容错架构
5. A fault tolerant FPGA architecture. [D] . Anwar, Md. Tanveer. 2008

机译：容错FPGA体系结构。
6. Fault-Tolerant Network-On-Chip Router Architecture Design for Heterogeneous Computing Systems in the Context of Internet of Things [O] . Muhammad Rashid, Naveed Khan Baloch, Muhammad Akmal Shafique, 2020

机译：容错网络上环路路由器架构在内容互联网上的异构计算系统
7. On the design of tunable fault tolerant circuits on sram-based fpgas for safety critical applications [O] . L. Sterpone, M. Aguirre, J. Tombs, 2014

机译：基于sram的fpgas可调谐容错电路的设计，用于安全关键应用

SICTA: A Superimposed In-Circuit Fault Tolerant Architecture for SRAM-based FPGAs

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