In combinatorial blocks of static CMOS circuits transistor sizing can be applied for delay balancing as to guarantee synchronously arriving signal slopes at the input of logic gates, thereby avoiding glitches. Since the delay of logic gates depends directly on transistor sizes, their variation allows equalizing different path delays without influencing the total delay of the circuit. Unfortunately, not only the delay, but also power consumption circuits depend on the transistor sizes. To achieve optimal results, transistor lengths have to be increased, which results in both increased gate capacitances and area. Splitting the long transistors counteracts this negative influence
We present an equation-based transistor size optimizer that minimizes delay of custom circuits. Our ...
The problem of sizing gates for power-delay tradeos is of great interest to designers. In this work,...
Gate sizing is one of the most flexible and powerful methods available for the timing and power opti...
With the growing scale of integration and the increased use of battery operated devices the power di...
This paper describes a novel algorithm for automatic transistor sizing which is one technique for im...
This paper presents a unified model for delay estimation in various CMOS logic styles. It also deriv...
[[abstract]]We considered a post-layout transistor sizing problem in a static CMOS module layout. Th...
This paper introduces an automated transistor sizing tool (ASAP) that incorporates accurate gateleve...
This paper studies the problem of transistor sizing of CMOS circuits optimized for energy-delay effi...
Abstract — The goal of transistor reordering for a logic gate is to reduce the propagation delay as ...
International audienceIn this paper we address the problem of delay constraint distribution on CMOS ...
International audienceIn this paper we address the problem of delay constraint distribution on a CMO...
The authors present a tool for transistor sizing for the purpose of speed optimization. The tool, ca...
In this paper, we present an algorithm for gate sizing with controlled displacement to improve the o...
Copyright © 2013 Kumar Yelamarthi. This is an open access article distributed under the Creative Com...
We present an equation-based transistor size optimizer that minimizes delay of custom circuits. Our ...
The problem of sizing gates for power-delay tradeos is of great interest to designers. In this work,...
Gate sizing is one of the most flexible and powerful methods available for the timing and power opti...
With the growing scale of integration and the increased use of battery operated devices the power di...
This paper describes a novel algorithm for automatic transistor sizing which is one technique for im...
This paper presents a unified model for delay estimation in various CMOS logic styles. It also deriv...
[[abstract]]We considered a post-layout transistor sizing problem in a static CMOS module layout. Th...
This paper introduces an automated transistor sizing tool (ASAP) that incorporates accurate gateleve...
This paper studies the problem of transistor sizing of CMOS circuits optimized for energy-delay effi...
Abstract — The goal of transistor reordering for a logic gate is to reduce the propagation delay as ...
International audienceIn this paper we address the problem of delay constraint distribution on CMOS ...
International audienceIn this paper we address the problem of delay constraint distribution on a CMO...
The authors present a tool for transistor sizing for the purpose of speed optimization. The tool, ca...
In this paper, we present an algorithm for gate sizing with controlled displacement to improve the o...
Copyright © 2013 Kumar Yelamarthi. This is an open access article distributed under the Creative Com...
We present an equation-based transistor size optimizer that minimizes delay of custom circuits. Our ...
The problem of sizing gates for power-delay tradeos is of great interest to designers. In this work,...
Gate sizing is one of the most flexible and powerful methods available for the timing and power opti...