We consider the gate matrix layout problem for VLSI design, and improve the time and space complexities of an existing dynamic programming algorithm for its exact solution. Experimental study indicates the requirement of enormous computation time for exact solutions of even small size matrices. We derive an expression for the expected number of tracks required to layout in gate matrix style based on a probabilistic model. A local search approximation algorithm is studied experimentally and found to perform reasonably well on average
The problem of wire layout (or routing) in VLSI design can be written as a large scale linear progra...
Abstract — Process variations cause design performance to become unpredictable in deep sub-micron te...
AbstractGate matrix layout is a well-known NP-complete problem that arises at the heart of a number ...
This paper addresses a Very Large Scale Integrated (VLSI) design problem that belongs to the NP-hard...
This paper deals with a Very Large Scale Integrated (VLSI) design problem that belongs to the NP-har...
AbstractWe are concerned with the k-Gate Matrix Layout (k-GML) problem in a very large scale integra...
Abstract In this paper, we approach the gate sizing problem in VLSI circuits in the context of incr...
In this paper, a new algorithm is proposed for solving the Gate Matrix Layout Problem (GMLP). This c...
In many applications, a sequencing of patterns (electronic circuit nodes, cutting patterns, product ...
This research investigates the application of the Genetic Algorithm for four VLSI layout problems, G...
We consider the development of practical algorithms based on the theory of graph minors. Although an...
In many applications, a suitable permutation of patterns (electronic circuit nodes, cutting patterns...
The problem of automatically obtaining the layout of a circuit starting with a purely behavioural sp...
Advances in technology for the manufacturing of integrated circuits have resulted in ex-tremely larg...
Gate sizing is used to scale the drive capability of CMOS-gates in order to improve the timing or to...
The problem of wire layout (or routing) in VLSI design can be written as a large scale linear progra...
Abstract — Process variations cause design performance to become unpredictable in deep sub-micron te...
AbstractGate matrix layout is a well-known NP-complete problem that arises at the heart of a number ...
This paper addresses a Very Large Scale Integrated (VLSI) design problem that belongs to the NP-hard...
This paper deals with a Very Large Scale Integrated (VLSI) design problem that belongs to the NP-har...
AbstractWe are concerned with the k-Gate Matrix Layout (k-GML) problem in a very large scale integra...
Abstract In this paper, we approach the gate sizing problem in VLSI circuits in the context of incr...
In this paper, a new algorithm is proposed for solving the Gate Matrix Layout Problem (GMLP). This c...
In many applications, a sequencing of patterns (electronic circuit nodes, cutting patterns, product ...
This research investigates the application of the Genetic Algorithm for four VLSI layout problems, G...
We consider the development of practical algorithms based on the theory of graph minors. Although an...
In many applications, a suitable permutation of patterns (electronic circuit nodes, cutting patterns...
The problem of automatically obtaining the layout of a circuit starting with a purely behavioural sp...
Advances in technology for the manufacturing of integrated circuits have resulted in ex-tremely larg...
Gate sizing is used to scale the drive capability of CMOS-gates in order to improve the timing or to...
The problem of wire layout (or routing) in VLSI design can be written as a large scale linear progra...
Abstract — Process variations cause design performance to become unpredictable in deep sub-micron te...
AbstractGate matrix layout is a well-known NP-complete problem that arises at the heart of a number ...