Free Online Productivity Tools
i2Speak
i2Symbol
i2OCR
iTex2Img
iWeb2Print
iWeb2Shot
i2Type
iPdf2Split
iPdf2Merge
i2Bopomofo
i2Arabic
i2Style
i2Image
i2PDF
iLatex2Rtf
Sci2ools
ISQED
2007
IEEE
2007
IEEE
Optimizing Checking-Logic for Reliability-Agnostic Control of Self-Calibrating Designs
Abstract— Self-calibrating designs have recently gained momentum as an alternative to methods relying on worst-case characterisation of silicon [2], [4], [8]. So far, reliable operation of existing link checkers—double sampling flip-flops or codebased—is not ensured over the whole range of bit error rate. Therefore, bit error rates where the checker reliability is poor are avoided either by worst-case characterisation of the link error rate (such as for double sampling flip-flops), or by constraining the operating point controller to avoid such regions (such as for code-based checkers). This paper proposes a novel checker architecture that bridges the gap between low overhead and high robustness over the whole error rate range. Specifically, we show how to combine optimally double sampling flip-flops with a code-based checker (in point of reliability). The resulting checker enables simple, efficient, and reliability-agnostic operating point control policies.
Real-time Traffic| Added | 04 Jun 2010 |
| Updated | 04 Jun 2010 |
| Type | Conference |
| Year | 2007 |
| Where | ISQED |
| Authors | Frederic Worm, Patrick Thiran, Paolo Ienne |
Comments (0)
Researcher Info
|
