ISBN 978-1-61284-646-0International audienceSelf-timed rings (STR) are promising approach for designing high-speed serial links and clock generators. Indeed, the architecture of STRs presents well-suited characteristics for managing process variability and offering an appropriate structure to limit the phase noise. Therefore, STRs are considered as promising solution for generating Multiphase clocks. Moreover, Self-Timed Rings can easily be configured to change their frequency by controlling their initialization at reset time. A test chip has been designed and fabricated in STMicroelectonics CMOS65nm technology to verify the theoretical claims and validate the simulation results
Self-Timed Rings (STR) are oscillating structures derived from asynchronous design techniques. Contr...
International audienceThis paper proposes a new architecture of a time-to-digital converter (TDC) ba...
International audienceThis paper presents an ASIC test chip designed and fabricated in 0.35μm CMO...
International audienceA high-speed multi-phase oscillator based on self-timed ring is proposed. Self...
ISBN : 978-2-84813-175-7Oscillators are essential building blocks in many applications. For instance...
International audienceSelf-timed rings are promising for designing highspeed serial links and system...
Oscillators are essential building blocks in many applications. For instance, they arebasic blocks i...
International audienceOn-chip digital oscillators are ubiquitous in every communication applications...
International audienceMulti-phase oscillators are often required to generate multiple clock phases w...
ISBN : 978-0-7695-3107-6International audienceSelf-timed rings are now considered as a promising sol...
ISBN :978-3-642-17751-4Self-timed rings are a promising approach for designing high-speed serial lin...
ISBN: 978-1-4244-3933-1International audienceIn this paper a Programmable/Stoppable oscillator is de...
Asynchronous self-timed rings are now considered as a promising solution for generating high-resolut...
Les oscillateurs sont des blocs qui figurent dans presque tous les circuits. En effet,ils sont utili...
This paper compares two realisations of a self-timed ring arithmetic operator for division and squar...
Self-Timed Rings (STR) are oscillating structures derived from asynchronous design techniques. Contr...
International audienceThis paper proposes a new architecture of a time-to-digital converter (TDC) ba...
International audienceThis paper presents an ASIC test chip designed and fabricated in 0.35μm CMO...
International audienceA high-speed multi-phase oscillator based on self-timed ring is proposed. Self...
ISBN : 978-2-84813-175-7Oscillators are essential building blocks in many applications. For instance...
International audienceSelf-timed rings are promising for designing highspeed serial links and system...
Oscillators are essential building blocks in many applications. For instance, they arebasic blocks i...
International audienceOn-chip digital oscillators are ubiquitous in every communication applications...
International audienceMulti-phase oscillators are often required to generate multiple clock phases w...
ISBN : 978-0-7695-3107-6International audienceSelf-timed rings are now considered as a promising sol...
ISBN :978-3-642-17751-4Self-timed rings are a promising approach for designing high-speed serial lin...
ISBN: 978-1-4244-3933-1International audienceIn this paper a Programmable/Stoppable oscillator is de...
Asynchronous self-timed rings are now considered as a promising solution for generating high-resolut...
Les oscillateurs sont des blocs qui figurent dans presque tous les circuits. En effet,ils sont utili...
This paper compares two realisations of a self-timed ring arithmetic operator for division and squar...
Self-Timed Rings (STR) are oscillating structures derived from asynchronous design techniques. Contr...
International audienceThis paper proposes a new architecture of a time-to-digital converter (TDC) ba...
International audienceThis paper presents an ASIC test chip designed and fabricated in 0.35μm CMO...