Downloads provided by UsageCountsRing Oscillator Clocks and Margins
Cortadella, Jordi; Lupon Navazo, Marc; Moreno Vega, Alberto; Roca Pérez, Antoni; Sapatnekar, Sachin;
Ring Oscillator Clocks and Margins
How much margin do we have to add to the delay lines of a bundled-data circuit? This paper is an attempt to give a methodical answer to this question, taking into account all sources of variability and the existing EDA machinery for timing analysis and sign-off. The paper is based on the study of the margins of a ring oscillator that substitutes a PLL as clock generator. A timing model is proposed that shows that a 12% margin for delay lines can be sufficient to cover variability in a 65nm technology. In a typical scenario, performance and energy improvements between 15% and 35% can be obtained by using a ring oscillator instead of a PLL. The paper concludes that a synchronous circuit with a ring oscillator clock shows similar benefits in performance and energy as those of bundled-data asynchronous circuits.
Peer Reviewed
Spain
- Universitat Polite`cnica de Catalunya Spain
- Open University of Catalonia Spain
- Universitat Politècnica de Catalunya Spain
- University of Minnesota United States
- University of Minnesota System United States
PLL, Clock generator, Delay lines, Phase locked loops, :Enginyeria electrònica::Circuits electrònics [Àrees temàtiques de la UPC], Asynchronous circuits, Oscil·ladors elèctrics, Ring oscillator clocks, Timing analysis, EDA machinery, Àrees temàtiques de la UPC::Enginyeria electrònica::Circuits electrònics, Circuits asíncrons, Oscillators, Electric, Clocks
PLL, Clock generator, Delay lines, Phase locked loops, :Enginyeria electrònica::Circuits electrònics [Àrees temàtiques de la UPC], Asynchronous circuits, Oscil·ladors elèctrics, Ring oscillator clocks, Timing analysis, EDA machinery, Àrees temàtiques de la UPC::Enginyeria electrònica::Circuits electrònics, Circuits asíncrons, Oscillators, Electric, Clocks
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