Title :
A computational geometry based cell migration technique for VLSI placement problem
Author :
Sengupta, Subhasree ; Sinharay, Arindam ; Bakshi, Tuli
Abstract :
The movement of preplaced cells among a prescribed existing placement to solve a set of worst designed placement related facts - for example, routing problems, timings, integrity of signals and distribution of heat. To solve this design related problems one has to prefer to translate the design. The translation should be as small as possible while retaining the originality of the placement integrity. The current paper proposes a new algorithmic treatment of the above problem through computational geometry. Our theoretical proposals established through experimental proofs.
Keywords :
VLSI; computational geometry; electronic engineering computing; integrated circuit design; VLSI placement problem; cell migration technique; computational geometry; design translation; placement integrity; very large scale integrated circuits; Arrays; Computational geometry; Layout; Optimization; Pins; Routing; Very large scale integration; Placement migration; VLSI design; computational geometry; legalization;
Conference_Titel :
Recent Trends in Information Systems (ReTIS), 2015 IEEE 2nd International Conference on
Conference_Location :
Kolkata
DOI :
10.1109/ReTIS.2015.7232931
