We present a novel genetic algorithm-based partitioning scheme for multichip modules (MCM's) which integrates four performance constraints simultaneously: pin count, area, heat dissipation, and timing. We also present a similar partitioning algorithm based on evolutionary programming. Experimental studies demonstrate the superiority of these methods over deterministic Fiduccia-Mattheyes (FM) algorithm and simulated annealing (SA) technique. Our approach performs better than another genetic algorithm-based method recently reported. The adaptive change of crossover and mutation probabilities results in better convergence of the partitioning algorith
This paper presents a Priority-Based Genetic Algorithm (PGA) based method for the simultaneously tac...
An important stage in circuit design is placement, where components are assigned to physical locatio...
This paper aims at defining an adaptive genetic algorithm tailored for the allocation of dynamically...
Multichip Modules (MCMs) is a packaging technology gaining importance, because it reduces the interc...
The partitioning of complex processor models on the gate and register-transfer level for parallel fu...
[[abstract]]The authors propose an efficient and effective algorithm for system partitioning under t...
[[abstract]]Efficient and effective algorithms for multichip module (MCM) system partitioning under ...
The partitioning of complex processor models on the gate and register-transfer level for parallel fu...
In this paper, a new two-level bipartitioning algorithm TLP, combining a hybrid clustering technique...
We present three genetic algorithms (GAs) for allocating irregular data sets to multiprocessors. The...
The implementation and evaluation of several algorithms for the solution of the partitioning pro...
Genetic Algorithms (GAs) are robust techniques based on natural selection that can be used to solve ...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
A new self-organizing neural network model is presented, which can get rid of some fatal defects fac...
Abstract. The problem of partitioning appears in several areas ranging from VLSI, parallel programmi...
This paper presents a Priority-Based Genetic Algorithm (PGA) based method for the simultaneously tac...
An important stage in circuit design is placement, where components are assigned to physical locatio...
This paper aims at defining an adaptive genetic algorithm tailored for the allocation of dynamically...
Multichip Modules (MCMs) is a packaging technology gaining importance, because it reduces the interc...
The partitioning of complex processor models on the gate and register-transfer level for parallel fu...
[[abstract]]The authors propose an efficient and effective algorithm for system partitioning under t...
[[abstract]]Efficient and effective algorithms for multichip module (MCM) system partitioning under ...
The partitioning of complex processor models on the gate and register-transfer level for parallel fu...
In this paper, a new two-level bipartitioning algorithm TLP, combining a hybrid clustering technique...
We present three genetic algorithms (GAs) for allocating irregular data sets to multiprocessors. The...
The implementation and evaluation of several algorithms for the solution of the partitioning pro...
Genetic Algorithms (GAs) are robust techniques based on natural selection that can be used to solve ...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
A new self-organizing neural network model is presented, which can get rid of some fatal defects fac...
Abstract. The problem of partitioning appears in several areas ranging from VLSI, parallel programmi...
This paper presents a Priority-Based Genetic Algorithm (PGA) based method for the simultaneously tac...
An important stage in circuit design is placement, where components are assigned to physical locatio...
This paper aims at defining an adaptive genetic algorithm tailored for the allocation of dynamically...