International audienceIn classical synchronous designs, supply voltage droops can be handled by accounting for them in clock margins. However, this results in a significant performance hit even if droops are rare. By contrast, adaptive strategies detect such potentially hazardous events and either initiate a rollback to a previous state or proactively reduce clock speed in order to prevent timing violations. The performance of such solutions critically depends on a very fast response to droops. State-ofthe-art solutions incur synchronization delays in the order of several clock cycles to avoid, with sufficient probability, that the clock signal is affected by metastability. We present an all-digital circuit that can respond to droops within...
As FPGAs grow in size and speed, so too does their power consumption. Power reduction techniques suc...
Over the last few years, considerable variability in deep submicron integrated circuits has become a...
Uniprocessor designs have always assumed worst-case operating conditions to set the operating clock ...
International audienceIn classical synchronous designs, supply voltage droops can be handled by acco...
Clock generation and distribution are getting difficult due to increased die size and increased numb...
The Smartphone revolution and the Internet of Things (IoTs) have triggered rapid advances in complex...
A strong dl/dt event in a VLSI circuit can induce a temporary voltage drop and consequent malfunctio...
textA digital logic circuit tends to become slower if the voltage (VDD) level drops below the normal...
Communication across unsynchronized clock domains is inherently vulnerable to metastable upsets; no ...
Abstract—A 65 nm resilient circuit test-chip is implemented with timing-error detection and recovery...
Abstract—The periodic nature of the global clock in traditional synchronous designs forces circuits ...
Metastability causes unpredictable behavior in circuits, and can cause circuit failure. Any binary v...
Designing synchronous sequential circuits consisting of clocked storage elements such as flip-flops ...
Technology scaling has paved way for complex systems such as heterogeneous multi core processors, co...
Clock generation and distribution are getting difficult due to increased die size and increased numb...
As FPGAs grow in size and speed, so too does their power consumption. Power reduction techniques suc...
Over the last few years, considerable variability in deep submicron integrated circuits has become a...
Uniprocessor designs have always assumed worst-case operating conditions to set the operating clock ...
International audienceIn classical synchronous designs, supply voltage droops can be handled by acco...
Clock generation and distribution are getting difficult due to increased die size and increased numb...
The Smartphone revolution and the Internet of Things (IoTs) have triggered rapid advances in complex...
A strong dl/dt event in a VLSI circuit can induce a temporary voltage drop and consequent malfunctio...
textA digital logic circuit tends to become slower if the voltage (VDD) level drops below the normal...
Communication across unsynchronized clock domains is inherently vulnerable to metastable upsets; no ...
Abstract—A 65 nm resilient circuit test-chip is implemented with timing-error detection and recovery...
Abstract—The periodic nature of the global clock in traditional synchronous designs forces circuits ...
Metastability causes unpredictable behavior in circuits, and can cause circuit failure. Any binary v...
Designing synchronous sequential circuits consisting of clocked storage elements such as flip-flops ...
Technology scaling has paved way for complex systems such as heterogeneous multi core processors, co...
Clock generation and distribution are getting difficult due to increased die size and increased numb...
As FPGAs grow in size and speed, so too does their power consumption. Power reduction techniques suc...
Over the last few years, considerable variability in deep submicron integrated circuits has become a...
Uniprocessor designs have always assumed worst-case operating conditions to set the operating clock ...