In this work we propose a self-adaptive clock based on a ring oscillator as the solution for the increasing uncertainty in the critical path delay. This increase in uncertainty forces to add more safety margins to the clock period which produces a circuit performance downgrade. We evaluate three self-adaptive clock systems: free running ring oscillator, infinite impulse response filter controlled RO and TEAtime controlled ring oscillator. The safety margin reduction of the three alternatives is investigated under different clock distribution delay conditions, dynamic variation frequencies and the presence of mismatch between the ring oscillator and the critical paths and the delay sensors
Asynchronous self-timed rings are now considered as a promising solution for generating high-resolut...
This work presents a novel CMOS behavior of self stabilization of ring oscillators using collective ...
Oscillators are essential building blocks in many applications. For instance, they arebasic blocks i...
This project proposes to substitute the Clock of a circuit for a Ring Oscillator. This Ring Oscillat...
International audienceOn-chip digital oscillators are ubiquitous in every communication applications...
Simultaneous switching noise has become an important issue due to its signal integrity and timing im...
ISBN : 978-0-7695-3107-6International audienceSelf-timed rings are now considered as a promising sol...
An all-digital self-adaptive clock generation system capable of adapt the clock frequency to compens...
An all-digital self-adaptive clock generation system capable of autonomously adapt the clock frequen...
International audienceA self-sufficient Giga-Hertz digitally controlled ring oscillator for clock di...
International audienceA high-speed multi-phase oscillator based on self-timed ring is proposed. Self...
International audienceMulti-phase oscillators are often required to generate multiple clock phases w...
ISBN: 978-1-4244-3933-1International audienceIn this paper a Programmable/Stoppable oscillator is de...
Report - Departament Ciències de la ComputacióThe growing variability in nanoelectronic devices due ...
International audienceSelf-timed rings are promising for designing highspeed serial links and system...
Asynchronous self-timed rings are now considered as a promising solution for generating high-resolut...
This work presents a novel CMOS behavior of self stabilization of ring oscillators using collective ...
Oscillators are essential building blocks in many applications. For instance, they arebasic blocks i...
This project proposes to substitute the Clock of a circuit for a Ring Oscillator. This Ring Oscillat...
International audienceOn-chip digital oscillators are ubiquitous in every communication applications...
Simultaneous switching noise has become an important issue due to its signal integrity and timing im...
ISBN : 978-0-7695-3107-6International audienceSelf-timed rings are now considered as a promising sol...
An all-digital self-adaptive clock generation system capable of adapt the clock frequency to compens...
An all-digital self-adaptive clock generation system capable of autonomously adapt the clock frequen...
International audienceA self-sufficient Giga-Hertz digitally controlled ring oscillator for clock di...
International audienceA high-speed multi-phase oscillator based on self-timed ring is proposed. Self...
International audienceMulti-phase oscillators are often required to generate multiple clock phases w...
ISBN: 978-1-4244-3933-1International audienceIn this paper a Programmable/Stoppable oscillator is de...
Report - Departament Ciències de la ComputacióThe growing variability in nanoelectronic devices due ...
International audienceSelf-timed rings are promising for designing highspeed serial links and system...
Asynchronous self-timed rings are now considered as a promising solution for generating high-resolut...
This work presents a novel CMOS behavior of self stabilization of ring oscillators using collective ...
Oscillators are essential building blocks in many applications. For instance, they arebasic blocks i...