We present an equation-based transistor size optimizer that minimizes delay of custom circuits. Our method uses static timing analysis to find the critical paths and numerical methods to optimize transistor sizes continuously without using simulation. Consequently, it is faster than simulation-based optimizers, and more general than standard cell optimizers. We demonstrate its efficacy and accuracy on a dynamic adder, where we achieve a 54 % speed-up and final critical path delay that matches Spice within 1%. 1
This paper presents a unified model for delay estimation in various CMOS logic styles. It also deriv...
The relentless push for high performance in custom dig-ital circuits has led to renewed emphasis on ...
In combinatorial blocks of static CMOS circuits transistor sizing can be applied for delay balancing...
This paper describes a novel algorithm for automatic transistor sizing which is one technique for im...
Digital designs can be mapped to different implemen-tations using diverse approaches, with varying c...
[[abstract]]A combined heuristic and mathematical programming approach to transistor sizing is prese...
Copyright © 2013 Kumar Yelamarthi. This is an open access article distributed under the Creative Com...
International audienceThis paper presents a new transistor level design flow where it is possible to...
[[abstract]]A combined heuristic and mathematical programming approach to transistor sizing is prese...
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...
A new transistor sizing algorithm, SEA (Simple Exact Algorithm), for optimizing low-power and high-s...
Optimization of a circuit by transistor sizing is often a slow, tedious and iterative manual process...
International audienceOptimizing digital designs implies a selection of circuit implementation based...
In this paper we address the problem of optimization of VLSI circuits to minimize power consumptioin...
This paper presents a unified model for delay estimation in various CMOS logic styles. It also deriv...
The relentless push for high performance in custom dig-ital circuits has led to renewed emphasis on ...
In combinatorial blocks of static CMOS circuits transistor sizing can be applied for delay balancing...
This paper describes a novel algorithm for automatic transistor sizing which is one technique for im...
Digital designs can be mapped to different implemen-tations using diverse approaches, with varying c...
[[abstract]]A combined heuristic and mathematical programming approach to transistor sizing is prese...
Copyright © 2013 Kumar Yelamarthi. This is an open access article distributed under the Creative Com...
International audienceThis paper presents a new transistor level design flow where it is possible to...
[[abstract]]A combined heuristic and mathematical programming approach to transistor sizing is prese...
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...
A new transistor sizing algorithm, SEA (Simple Exact Algorithm), for optimizing low-power and high-s...
Optimization of a circuit by transistor sizing is often a slow, tedious and iterative manual process...
International audienceOptimizing digital designs implies a selection of circuit implementation based...
In this paper we address the problem of optimization of VLSI circuits to minimize power consumptioin...
This paper presents a unified model for delay estimation in various CMOS logic styles. It also deriv...
The relentless push for high performance in custom dig-ital circuits has led to renewed emphasis on ...
In combinatorial blocks of static CMOS circuits transistor sizing can be applied for delay balancing...