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VLSID
2004
IEEE
2004
IEEE
Evaluating the Reliability of Defect-Tolerant Architectures for Nanotechnology with Probabilistic Model Checking
As we move from deep submicron technology to nanotechnology for device manufacture, the need for defect-tolerant architectures is gaining importance. This is because, at the nanoscale, devices will be prone to errors due to manufacturing defects, ageing, and transient faults. Micro-architects will be required to design their logic around defect tolerance through redundancy. However, measures of reliability must be quantified in order for such design methodologies to be acceptable. We propose a CAD framework based on probabilistic model checking which provides efficient evaluation of the reliability/redundancy trade-off for defecttolerant architectures. This framework can model probabilistic assumptions about defects, easily compute reliability figures and help designers make the right decisions. We demonstrate the power of our framework by evaluating the reliability/redundancy trade-off of a canonical example, namely NAND multiplexing. We not only find errors in analytically computed ...
Real-time TrafficCAD Framework | Computer Architecture | Design Trade-off | Reliability/redundancy Trade-off | VLSID 2004 |
| Added | 01 Dec 2009 |
| Updated | 01 Dec 2009 |
| Type | Conference |
| Year | 2004 |
| Where | VLSID |
| Authors | Gethin Norman, David Parker, Marta Z. Kwiatkowska, Sandeep K. Shukla |
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