Title :
An Augmented Lagrangian Optimization Method for VLSI Global Placement
Author :
Weiguo Li ; Jianli Chen ; Wenxing Zhu
Author_Institution :
Center for Discrete Math. & Theor. Comput. Sci., Fuzhou Univ., Fuzhou, China
Abstract :
Ignoring some cell overlaps, global placement computes the best position for each cell to minimize some cost metric (e.g., total wire length, density overflow). It is a crucial step in very large scale integration (VLSI) physical design, because it affects rout ability, performance, and power consumption of a circuit. In this paper, we propose an Augmented Lagrangian method to solve the VLSI global placement. In this method, a cautious dynamic density weight increasing strategy is used to balance the wire length and density constraint. We incorporated our method into NTUplace3´s global placement framework, and tested it on the IBM mixed-size benchmark circuits. Experimental results show that it obtains high-quality results in a reasonable running time.
Keywords :
Lagrangian field theory; VLSI; integrated circuit design; optimisation; IBM mixed-size benchmark circuits; NTUplace3 global placement framework; VLSI global placement; augmented Lagrangian optimization method; cautious dynamic density weight increasing strategy; density constraint; very large scale integration physical design; Benchmark testing; Density functional theory; Minimization; Optimization methods; Runtime; Very large scale integration; Augmented Lagrangian Multiplier; Global placement; VLSI; nonlinear optimization;
Conference_Titel :
Parallel and Distributed Computing, Applications and Technologies (PDCAT), 2012 13th International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-0-7695-4879-1
DOI :
10.1109/PDCAT.2012.41
