ABSTRACT: Charge recycling has been proposed as a strategy to reduce the power dissipation in data buses. Previous work in this area was based on simplified bus models that ignored the coupling between the lines. Here we propose a new Charge Recycling Tech-nique (CRT) appropriate for sub-micron technologies. CRT is ana-lyzed mathematically using a bus energy model that captures the energy loss due to strong line to line capacitive coupling. In theory CRT can result to energy reduction of a factor of 2. It becomes even more energy efficient when combined with Bus Invert coding (Stan ‘97, [6]). A circuit has been designed and simulated with all parasitic elements extracted from the layout. Taking into account the circuit energy overhead the n...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
We present a comprehensive mathematical analysis of the energy dissipation in deep submicron technol...
Modern VLSI systems are under strict power and performance constraints, and the trade-offs between t...
© 2018 American Scientific Publishers All rights reserved. This paper reviews a number of single vol...
Abstract The charge recovery databus is a scheme which reduces energy consumption through the applic...
We propose charge recycling (CR) to reduce power con-sumption in FPGAs. We take advantage of the pro...
Abstract The energy dissipation associated with driving long wires accounts for a significant fracti...
In this paper we present a simplified model for deep submicron, on-chip, parallel data buses. Using ...
Copyright © 2014 ISSR Journals. This is an open access article distributed under the Creative Common...
The coupling capacitances between on-chip bus lines become dominant in deep-submicron technologies. ...
Multi-threshold voltage CMOS (MTCMOS) has emerged as an increasingly popular technique for reducing ...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
The two main sources of power dissipation in CMOS circuits are static current, which results from re...
Abstruct- Technology trends and especially portable applications drive the quest for low-power VLSI ...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
We present a comprehensive mathematical analysis of the energy dissipation in deep submicron technol...
Modern VLSI systems are under strict power and performance constraints, and the trade-offs between t...
© 2018 American Scientific Publishers All rights reserved. This paper reviews a number of single vol...
Abstract The charge recovery databus is a scheme which reduces energy consumption through the applic...
We propose charge recycling (CR) to reduce power con-sumption in FPGAs. We take advantage of the pro...
Abstract The energy dissipation associated with driving long wires accounts for a significant fracti...
In this paper we present a simplified model for deep submicron, on-chip, parallel data buses. Using ...
Copyright © 2014 ISSR Journals. This is an open access article distributed under the Creative Common...
The coupling capacitances between on-chip bus lines become dominant in deep-submicron technologies. ...
Multi-threshold voltage CMOS (MTCMOS) has emerged as an increasingly popular technique for reducing ...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
The two main sources of power dissipation in CMOS circuits are static current, which results from re...
Abstruct- Technology trends and especially portable applications drive the quest for low-power VLSI ...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
In very deep sub-micron designs, cross coupling capacitances become the dominant factor of the total...
We present a comprehensive mathematical analysis of the energy dissipation in deep submicron technol...
Modern VLSI systems are under strict power and performance constraints, and the trade-offs between t...