Abstract
Buffer insertion has successfully been applied to reduce delay in global interconnect paths: however, existing techniques only optimize delay and timing slack. With the increasing ratio of coupling to total capacitance and the use of aggressive dynamic logic circuit families, noise is becoming a major design bottleneck. We present comprehensive buffer insertion techniques for noise and delay optimisation. Our experiments on a microprocessor design show that our approach fixes all noise violations that were identified by a detailed, simulation-based noise analysis tool. Further, we show that the performance penalty induced by optimizing both delay and noise as opposed to only delay is 2%.
Cite
CITATION STYLE
Alpert, H. J., Devgan, A., & Quay, S. T. (1998). Buffer insertion for noise and delay optimization. In Proceedings - Design Automation Conference (pp. 362–367). Institute of Electrical and Electronics Engineers Inc. https://doi.org/10.1145/277044.277145
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