This paper studies the problem of transistor sizing of CMOS circuits optimized for energy-delay efficiency, i.e., for optimal Et^n where E is the energy consumption and t is the delay of the circuit, while n is a fixed positive optimization index that reflects the chosen trade-off between energy and delay. We propose a set of analytical formulas that closely approximate the optimal transistor sizes. We then study an efficient iteration procedure that can further improve the original analytical solution. Based on these results, we introduce a novel transistor sizing algorithm for energy-delay efficiency
In Semiconductor world, the design and fabrication of Integrated Circuit (IC) associated with develo...
This paper first presents an accurate and efficient method of estimating the short circuit energy di...
We present the detailed results of the application of mathematical optimization algorithms to transi...
This paper studies the problem of transistor sizing of CMOS circuits optimized for energy-delay effi...
In this paper we introduce an energy-delay efficiency metric that captures any trade-off between the...
We investigate an efficiency metric for VLSI computation that includes energy, E, and time, t, in th...
In this paper we address the problem of optimization of VLSI circuits to minimize power consumptioin...
This paper describes a novel algorithm for automatic transistor sizing which is one technique for im...
In this paper we explore global and local properties of asynchronous circuits sized for the energy e...
This paper introduces an automated transistor sizing tool (ASAP) that incorporates accurate gateleve...
This paper relates the potential energy savings to the energy profile of a circuit. These savings ar...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
This paper presents a unified model for delay estimation in various CMOS logic styles. It also deriv...
Power consumption has become one of the most critical concerns for processor design. Parallelism of...
We present an equation-based transistor size optimizer that minimizes delay of custom circuits. Our ...
In Semiconductor world, the design and fabrication of Integrated Circuit (IC) associated with develo...
This paper first presents an accurate and efficient method of estimating the short circuit energy di...
We present the detailed results of the application of mathematical optimization algorithms to transi...
This paper studies the problem of transistor sizing of CMOS circuits optimized for energy-delay effi...
In this paper we introduce an energy-delay efficiency metric that captures any trade-off between the...
We investigate an efficiency metric for VLSI computation that includes energy, E, and time, t, in th...
In this paper we address the problem of optimization of VLSI circuits to minimize power consumptioin...
This paper describes a novel algorithm for automatic transistor sizing which is one technique for im...
In this paper we explore global and local properties of asynchronous circuits sized for the energy e...
This paper introduces an automated transistor sizing tool (ASAP) that incorporates accurate gateleve...
This paper relates the potential energy savings to the energy profile of a circuit. These savings ar...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
This paper presents a unified model for delay estimation in various CMOS logic styles. It also deriv...
Power consumption has become one of the most critical concerns for processor design. Parallelism of...
We present an equation-based transistor size optimizer that minimizes delay of custom circuits. Our ...
In Semiconductor world, the design and fabrication of Integrated Circuit (IC) associated with develo...
This paper first presents an accurate and efficient method of estimating the short circuit energy di...
We present the detailed results of the application of mathematical optimization algorithms to transi...