This paper presents a comprehensive investigation of how transistor level optimizations can be used to increase design quality of CMOS logic gate networks. Different properties of transistor networks are used to explain features and limitations of different methods. We describe which figures of merit, including the logical effort, affect the design quality of cell transistor networks. Further, we compare six different approaches that generate transistor networks, including two with guaranteed theoretical minimum length transistor chains. This comparison shows that minimum length chains reduce the logical effort of the networks
Thispaper proposes a method for achieving low-power control-logic modules using a combination of CMO...
[[abstract]]A fast algorithm is proposed for the optimal transistor-chaining problem in CMOS functio...
Growth in the speed and integration density of CMOS digital systems far outpaces the growth in batte...
Due to the character of the original source materials and the nature of batch digitization, quality ...
textLogic optimization and clock network optimization for power, performance and area trade-off have...
The logic networks that can be put on a single chip continues to grow in size and complexity. There ...
In this paper we present an efficient technique to reduce the switching activity in a CMOS combinati...
This paper presents a method for optimizing BiCMOS logic networks that exploits the fact that such n...
International audienceThis paper presents a new transistor level design flow where it is possible to...
This dissertation focuses on optimal generation of design-specific cell libraries. In cell-based int...
As VLSI integration size and chip complexity keep increasing, logic design is becoming more complex ...
This thesis spans two levels of the design process by examining optimization at both the register-tr...
The paper addresses some insights into the Euler path approach to find out the optimum gate ordering...
[[abstract]]A fast algorithm is produced for the optimal transistor chaining problem in CMOS functio...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
Thispaper proposes a method for achieving low-power control-logic modules using a combination of CMO...
[[abstract]]A fast algorithm is proposed for the optimal transistor-chaining problem in CMOS functio...
Growth in the speed and integration density of CMOS digital systems far outpaces the growth in batte...
Due to the character of the original source materials and the nature of batch digitization, quality ...
textLogic optimization and clock network optimization for power, performance and area trade-off have...
The logic networks that can be put on a single chip continues to grow in size and complexity. There ...
In this paper we present an efficient technique to reduce the switching activity in a CMOS combinati...
This paper presents a method for optimizing BiCMOS logic networks that exploits the fact that such n...
International audienceThis paper presents a new transistor level design flow where it is possible to...
This dissertation focuses on optimal generation of design-specific cell libraries. In cell-based int...
As VLSI integration size and chip complexity keep increasing, logic design is becoming more complex ...
This thesis spans two levels of the design process by examining optimization at both the register-tr...
The paper addresses some insights into the Euler path approach to find out the optimum gate ordering...
[[abstract]]A fast algorithm is produced for the optimal transistor chaining problem in CMOS functio...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
Thispaper proposes a method for achieving low-power control-logic modules using a combination of CMO...
[[abstract]]A fast algorithm is proposed for the optimal transistor-chaining problem in CMOS functio...
Growth in the speed and integration density of CMOS digital systems far outpaces the growth in batte...