Add to ORKGThe present article concentrates on the dogleg-free Manhattan model where horizontal and vertical wire segments are positioned on different sides of the board and each net (wire) has at most one horizontal segment. Gallai's classical result on interval packing can be applied in VLS1 routing to find, in linear time, a minimum-width dogleg-free routing in the Manhattan model, provided that all the terminals are on one side of a rectangular (single-row routing). We deal with the generalization of this routing problem when we have the possibility to select another terminal from a corresponding set instead of a terminal to be connected. It will be ...
AbstractThe design of integrated circuits has achieved a great deal of attention in the last decade....
AbstractA common problem in VLSI is automating the routing of wires between pins in a circuit. Sever...
The paper provides an efficient method to find all feasible offsets for a given separation in a VLSI...
The present article concentrates on the dogleg-free Manhattan model where horizontal and ...
Gallai's classical result on interval packing can be applied in VLSI routing to find, in linear time...
The present paper concentrates on one of the most common routing models, on the Manhattan model ...
The present paper concentrates on one of the most common routing models, on the Manhattan model ...
This paper considers the optimal offset, feasible offset, and optimal placement problems for a more ...
Channel routing is one of the basic problems in VLSI routing. While the minimum width can be ...
AbstractThis paper considers the optimal offset, feasible offset, and optimal placement problems for...
We show that channel routing in the Manhattan model remains difficult even when all nets are single-...
AbstractThis paper considers the optimal offset, feasible offset, and optimal placement problems for...
This paper considers the optimal offset, feasible offset, and optimal placement problems for a more ...
AbstractThere are plenty of NP-complete problems in very large scale integrated design, like channel...
AbstractA common problem in VLSI is automating the routing of wires between pins in a circuit. Sever...
AbstractThe design of integrated circuits has achieved a great deal of attention in the last decade....
AbstractA common problem in VLSI is automating the routing of wires between pins in a circuit. Sever...
The paper provides an efficient method to find all feasible offsets for a given separation in a VLSI...
The present article concentrates on the dogleg-free Manhattan model where horizontal and ...
Gallai's classical result on interval packing can be applied in VLSI routing to find, in linear time...
The present paper concentrates on one of the most common routing models, on the Manhattan model ...
The present paper concentrates on one of the most common routing models, on the Manhattan model ...
This paper considers the optimal offset, feasible offset, and optimal placement problems for a more ...
Channel routing is one of the basic problems in VLSI routing. While the minimum width can be ...
AbstractThis paper considers the optimal offset, feasible offset, and optimal placement problems for...
We show that channel routing in the Manhattan model remains difficult even when all nets are single-...
AbstractThis paper considers the optimal offset, feasible offset, and optimal placement problems for...
This paper considers the optimal offset, feasible offset, and optimal placement problems for a more ...
AbstractThere are plenty of NP-complete problems in very large scale integrated design, like channel...
AbstractA common problem in VLSI is automating the routing of wires between pins in a circuit. Sever...
AbstractThe design of integrated circuits has achieved a great deal of attention in the last decade....
AbstractA common problem in VLSI is automating the routing of wires between pins in a circuit. Sever...
The paper provides an efficient method to find all feasible offsets for a given separation in a VLSI...