Title :
Delay modeling for buffered RLY/RLC trees
Author :
Wang, Sheng-Lung ; Yao-Wen Chang
Author_Institution :
Synopsys Inc., Taipei, Taiwan
Abstract :
For deep-submicron, high-performance circuits, the inductive effect plays a very important role in determining the circuit delay. In this paper, the authors derived accurate formulae for modeling the delays of buffered RLY/RLC wires and trees. The formulae could handle balanced and unbalanced trees and consider buffer insertion. Extensive simulations with HSPICE show that the formulae have high fidelity, with an average error of within 5.51% based on the 180 nm technology. The simulations show that the formulae are more accurate than previous works.
Keywords :
SPICE; circuit simulation; delays; integrated circuit interconnections; integrated circuit modelling; synchronisation; HSPICE; buffer insertion; buffered RLY/RLC trees; circuit delay modeling; deep submicron circuits; high performance circuits; Circuit simulation; Delay effects; Inductance; Integrated circuit interconnections; Integrated circuit modeling; Propagation delay; RLC circuits; Semiconductor device modeling; Timing; Wires;
Conference_Titel :
VLSI Design, Automation and Test, 2005. (VLSI-TSA-DAT). 2005 IEEE VLSI-TSA International Symposium on
Print_ISBN :
0-7803-9060-1
DOI :
10.1109/VDAT.2005.1500064
