The power virus problem involves finding input vectors that cause maximum dynamic power dissipation (maximum toggles) in circuits. As the power virus problem is NP-complete the gate-level techniques are less scalable with increasing design size and produce less optimal vectors.
The proposed technique converts the given behavioral model automatically to an integer (word-level) constraint model and employs an integer constraint solver to ...
In this paper, an approach for power virus generation using behavioral models of digital circuits is presented. The proposed technique converts the given ...
In this paper, an approach for power virus generation using behavioral models of digital circuits is presented. The proposed technique converts the given ...
Mar 24, 2023 · Bibliographic details on Power Virus Generation Using Behavioral Models of Circuits.
In this paper, an approach for power virus generation for both combinational and sequential circuits is presented. The basic intuition behind the approach is to ...
The problem of peak power estimation in CMOS circuits is essential for analyzing the reliability and performance of circuits at extreme conditions.
Power management units (PMU) have come into the spotlight with energy efficiency becoming a first order constraint in modern digital computing systems.
Jul 27, 2023 · The BRAIN Working Group 2.0 worked to assess the BRAIN Initiative's progress and advances within the context of the original BRAIN 2025 report.
In this paper, we address the need for a power saving method with emphasis on the energy penalty. ... and V. M. Vedula, “Power Virus Generation Using. Behavioral ...