Pre-Layout Decoupling Capacitance Estimation and Allocation for Noise-Aware Crypto-System on Chip Applications
Estimation of decoupling capacitance allocation for noise suppression at pre layout level is the objective of our paper. The experiment is based on the module wise estimation of voltage drop and decoupling capacitance placement. Present trends in VLSI design are inclined towards system
on chip (SoC) design. Hence, efficient design plans and CAD approaches should be developed in the SoC domain. We investigate multi-core circuits in our work and consider the custom crypto-cores as example circuits, because they are well used as hardware accelerators in many of the present
day application circuits. The novelty in our work lies in the fact that by using our approaches noise can be reduced by 87.23% in an average at the pre-layout stage.
Keywords: DECOUPLING CAPACITANCE; MULTI-CORE ARCHITECTURE; POWER DISTRIBUTION NETWORK; POWER SUPPLY NOISE
Document Type: Research Article
Publication date: 01 September 2015
- The electronic systems that can operate with very low power are of great technological interest. The growing research activity in the field of low power electronics requires a forum for rapid dissemination of important results: Journal of Low Power Electronics (JOLPE) is that international forum which offers scientists and engineers timely, peer-reviewed research in this field.
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