Title :
Fast performance-driven optimization for buffered clock trees based on Lagrangian relaxation
Author :
Chen, Chung-Ping ; Chang, Yao-Wen ; Wong, D.F.
Author_Institution :
Dept. of Comput. Sci., Texas Univ., Austin, TX, USA
Abstract :
Delay, power, skew, area, and sensitivity are the most important concerns in current clock-tree design. We present in this paper an algorithm for simultaneously optimizing the above objectives by sizing wires and buffers in clock trees. Our algorithm, based on Lagrangian relaxation method, can optimally minimize delay, power, and area simultaneously with very low skew and sensitivity. With linear storage overall and linear runtime per iteration, our algorithm is extremely economical, fast, and accurate; for example, our algorithm can solve a 6201-wire-segment clock-free problem using about 1-minute runtime and 1.3-MB memory and still achieve pico-second precision on an IBM RS/6000 workstation
Keywords :
circuit CAD; optimisation; relaxation theory; trees (mathematics); Lagrangian relaxation; area; buffered clock trees; buffers; clock-tree design; delay; linear runtime; linear storage; performance-driven optimization; power; sensitivity; sizing wires; skew; Clocks; Delay; Lagrangian functions; Minimization; Permission; Power dissipation; Relaxation methods; Runtime; Wire; Workstations;
Conference_Titel :
Design Automation Conference Proceedings 1996, 33rd
Conference_Location :
Las Vegas, NV
Print_ISBN :
0-7803-3294-6
DOI :
10.1109/DAC.1996.545610
