In this paper the Simulated Evolution algorithm (SimE) is engineered to solve the optimization problem of multi-objective VLSI netlist bi-partitioning. The multi-objective version of the problem is addressed in which, power dissipation, timing performance, as well as cut-set are optimized while Balance is taken as a constraint. Fuzzy rules are used in order to design the overall multi-objective cost function that integrates the costs of three objectives in a single overall cost value. Fuzzy goodness functions are designed for delay and power, and proved efficient. A series of experiments are performed to evaluate the efficiency of the algorithm. ISCAS-85/89 benchmark circuits are used and experimental results are reported and compared to ea...
A fuzzy simulated evolution algorithm is presented for multi-objective minimization of VLSI cell pla...
In this paper, an algorithm for VLSI standard cell placement for low power and high performance desi...
A Fuzzy Simulated Evolution algorithm is presented for multi-objetive minimization of VLSI cell plac...
In this paper the Simulated Evolution algorithm (SimE) is engineered to solve the optimization probl...
In this paper, the Simulated Evolution algorithm (SimE) is engineered to solve the optimization prob...
Abstract. The problem of partitioning appears in several areas ranging from VLSI, parallel programmi...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming to mole...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
Abstract. The problem of partitioning appears in several areas ranging from VLSI, parallel programmi...
The problem of partitioning appears in several areas ranging from VLSI parallel programming, to mole...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
ABSTRACT In this paper we, present a new heuristic called PowerFM which is a modification of the wel...
A fuzzy simulated evolution algorithm is presented for multi-objective minimization of VLSI cell pla...
In this paper, an algorithm for VLSI standard cell placement for low power and high performance desi...
A Fuzzy Simulated Evolution algorithm is presented for multi-objetive minimization of VLSI cell plac...
In this paper the Simulated Evolution algorithm (SimE) is engineered to solve the optimization probl...
In this paper, the Simulated Evolution algorithm (SimE) is engineered to solve the optimization prob...
Abstract. The problem of partitioning appears in several areas ranging from VLSI, parallel programmi...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming to mole...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
Abstract. The problem of partitioning appears in several areas ranging from VLSI, parallel programmi...
The problem of partitioning appears in several areas ranging from VLSI parallel programming, to mole...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
The problem of partitioning appears in several areas ranging from VLSI, parallel programming, to mol...
ABSTRACT In this paper we, present a new heuristic called PowerFM which is a modification of the wel...
A fuzzy simulated evolution algorithm is presented for multi-objective minimization of VLSI cell pla...
In this paper, an algorithm for VLSI standard cell placement for low power and high performance desi...
A Fuzzy Simulated Evolution algorithm is presented for multi-objetive minimization of VLSI cell plac...