A novel high-speed multi-phase oscillator using self-timed rings

A high-speed multi-phase oscillator based on self-timed ring is proposed. Self-Timed Rings (STR) are promising approach for designing high-speed serial links and clock generators. The architecture of STR allows us to achieve a maximum frequency with a multiphase outputs since the oscillation frequen...

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Hauptverfasser:	Elissati, Oussama, Yahya, Eslam, Rieubon, Sébastien, Fesquet, Laurent
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Artificial neural networks Clocks CMOS integrated circuits CMOS technology Frequency control Niobium Signal resolution
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creator	Elissati, Oussama Yahya, Eslam Rieubon, Sébastien Fesquet, Laurent
description	A high-speed multi-phase oscillator based on self-timed ring is proposed. Self-Timed Rings (STR) are promising approach for designing high-speed serial links and clock generators. The architecture of STR allows us to achieve a maximum frequency with a multiphase outputs since the oscillation frequency is not only depending on the number of stages but on the number of "tokens" and "bubbles" circulating in the ring. In this paper, we propose a method to design STR able to generate high-speed multi-phase outputs. All the electrical simulations and results have been performed using a CMOS 65nm technology from STMicroelectronics.
doi_str_mv	10.1109/ICM.2010.5696117
format	Conference Proceeding
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subjects	Artificial neural networks Clocks CMOS integrated circuits CMOS technology Frequency control Niobium Signal resolution
title	A novel high-speed multi-phase oscillator using self-timed rings
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