Ebook: Design, Analysis and Test of Logic Circuits Under Uncertainty
- Tags: Circuits and Systems, Arithmetic and Logic Structures, Computer Hardware, Performance and Reliability, Logic Design, Symbolic and Algebraic Manipulation
- Series: Lecture Notes in Electrical Engineering 115
- Year: 2013
- Publisher: Springer Netherlands
- Edition: 1
- Language: English
- pdf
Logic circuits are becoming increasingly susceptible to probabilistic behavior caused by external radiation and process variation. In addition, inherently probabilistic quantum- and nano-technologies are on the horizon as we approach the limits of CMOS scaling. Ensuring the reliability of such circuits despite the probabilistic behavior is a key challenge in IC design---one that necessitates a fundamental, probabilistic reformulation of synthesis and testing techniques. This monograph will present techniques for analyzing, designing, and testing logic circuits with probabilistic behavior.
Integrated circuits (ICs) increasingly exhibit uncertain characteristics due to soft errors, inherently probabilistic devices, and manufacturing variability. As device technologies scale, these effects can be detrimental to the reliability of logic circuits. To improve future semiconductor designs, this book describes methods for analyzing, designing, and testing circuits subject to probabilistic effects. The authors first develop techniques to model inherently probabilistic methods in logic circuits and to test circuits for determining their reliability after they are manufactured. Then, they study error-masking mechanisms intrinsic to digital circuits and show how to leverage them to design more reliable circuits. The book describes techniques for:
• Modeling and reasoning about probabilistic behavior in logic circuits, including a matrix-based reliability-analysis framework;
• Accurate analysis of soft-error rate (SER) based on functional-simulation, sufficiently scalable for use in gate-level optimizations;
• Logic synthesis for greater resilience against soft errors, which improves reliability using moderate overhead in area and performance;
• Test-generation and test-compaction methods aimed at probabilistic faults in logic circuits that facilitate accurate and efficient post-manufacture measurement of soft-error susceptibility.
Integrated circuits (ICs) increasingly exhibit uncertain characteristics due to soft errors, inherently probabilistic devices, and manufacturing variability. As device technologies scale, these effects can be detrimental to the reliability of logic circuits. To improve future semiconductor designs, this book describes methods for analyzing, designing, and testing circuits subject to probabilistic effects. The authors first develop techniques to model inherently probabilistic methods in logic circuits and to test circuits for determining their reliability after they are manufactured. Then, they study error-masking mechanisms intrinsic to digital circuits and show how to leverage them to design more reliable circuits. The book describes techniques for:
• Modeling and reasoning about probabilistic behavior in logic circuits, including a matrix-based reliability-analysis framework;
• Accurate analysis of soft-error rate (SER) based on functional-simulation, sufficiently scalable for use in gate-level optimizations;
• Logic synthesis for greater resilience against soft errors, which improves reliability using moderate overhead in area and performance;
• Test-generation and test-compaction methods aimed at probabilistic faults in logic circuits that facilitate accurate and efficient post-manufacture measurement of soft-error susceptibility.
Content:
Front Matter....Pages i-xi
Introduction....Pages 1-19
Probabilistic Transfer Matrices....Pages 21-36
Computing with Probabilistic Transfer Matrices....Pages 37-52
Testing Logic Circuits for Probabilistic Faults....Pages 53-61
Signature-Based Reliability Analysis....Pages 63-91
Design for Robustness....Pages 93-113
Summary and Extensions....Pages 115-120
Back Matter....Pages 121-123
Integrated circuits (ICs) increasingly exhibit uncertain characteristics due to soft errors, inherently probabilistic devices, and manufacturing variability. As device technologies scale, these effects can be detrimental to the reliability of logic circuits. To improve future semiconductor designs, this book describes methods for analyzing, designing, and testing circuits subject to probabilistic effects. The authors first develop techniques to model inherently probabilistic methods in logic circuits and to test circuits for determining their reliability after they are manufactured. Then, they study error-masking mechanisms intrinsic to digital circuits and show how to leverage them to design more reliable circuits. The book describes techniques for:
• Modeling and reasoning about probabilistic behavior in logic circuits, including a matrix-based reliability-analysis framework;
• Accurate analysis of soft-error rate (SER) based on functional-simulation, sufficiently scalable for use in gate-level optimizations;
• Logic synthesis for greater resilience against soft errors, which improves reliability using moderate overhead in area and performance;
• Test-generation and test-compaction methods aimed at probabilistic faults in logic circuits that facilitate accurate and efficient post-manufacture measurement of soft-error susceptibility.
Content:
Front Matter....Pages i-xi
Introduction....Pages 1-19
Probabilistic Transfer Matrices....Pages 21-36
Computing with Probabilistic Transfer Matrices....Pages 37-52
Testing Logic Circuits for Probabilistic Faults....Pages 53-61
Signature-Based Reliability Analysis....Pages 63-91
Design for Robustness....Pages 93-113
Summary and Extensions....Pages 115-120
Back Matter....Pages 121-123
....