International audienceTo deal with variations, statistical methodologies can be completed by monitoring techniques implemented to cope with dynamic variations while keeping optimized operating points. This paper proposes a new monitoring structure, located in parallel of a pre-defined observable flip-flop. This structure, coupled with a specific detection window generation, embedded within the clock-tree, can anticipate timing violations to prevent system failures in real-time. Performances simulated in a 45 nm technology demonstrate a scalable, low power and low area cell which can be easily inserted in a standard CAD flow
There is much focus on timing error resilience for the speed critical paths of processors. In the co...
In-situ delay monitoring is an advanced technique to monitor the robustness of digital circuits. Con...
Abstract—Timing error tolerance turns to be an important design parameter in nanometer technology, h...
International audiencePVT information is mandatory to control specific knobs to compen-sate the vari...
International audiencePVT monitors are mandatory to use tunable knobs designed to compensate the var...
International audienceTo compensate the variability effects in advanced technologies, Process, Volta...
Conference of 20th IEEE International On-Line Testing Symposium, IOLTS 2014 ; Conference Date: 7 Jul...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Slack-time reduction is a way to improve the performance of synchronous sequential circuits. In the ...
In this paper, a timing speculation technique with low-overhead in situ delay monitors placed along ...
In the current context of strict low-power requirements, complex dynamic frequency and voltage scale...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
Interconnection reliability threats dependability of highly critical electronic systems. One of most...
There is much focus on timing error resilience for the speed critical paths of processors. In the co...
In-situ delay monitoring is an advanced technique to monitor the robustness of digital circuits. Con...
Abstract—Timing error tolerance turns to be an important design parameter in nanometer technology, h...
International audiencePVT information is mandatory to control specific knobs to compen-sate the vari...
International audiencePVT monitors are mandatory to use tunable knobs designed to compensate the var...
International audienceTo compensate the variability effects in advanced technologies, Process, Volta...
Conference of 20th IEEE International On-Line Testing Symposium, IOLTS 2014 ; Conference Date: 7 Jul...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Slack-time reduction is a way to improve the performance of synchronous sequential circuits. In the ...
In this paper, a timing speculation technique with low-overhead in situ delay monitors placed along ...
In the current context of strict low-power requirements, complex dynamic frequency and voltage scale...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
Interconnection reliability threats dependability of highly critical electronic systems. One of most...
There is much focus on timing error resilience for the speed critical paths of processors. In the co...
In-situ delay monitoring is an advanced technique to monitor the robustness of digital circuits. Con...
Abstract—Timing error tolerance turns to be an important design parameter in nanometer technology, h...