Title :
HS3-DPG: Hierarchical Simulation for 3-D P/G Network
Author :
Yu Wang ; Song Yao ; Shuai Tao ; Xiaoming Chen ; Yuchun Ma ; Yiyu Shi ; Huazhong Yang
Author_Institution :
Dept. of Electron. Eng., Tsinghua Univ., Beijing, China
Abstract :
As different tiers are stacked together in 3-D integrated circuits, the power/ground (P/G) network simulation becomes more challenging than that of 2-D cases. In this brief, we propose a hierarchical simulation method suitable for 3-D P/G network (HS3-DPG), which takes advantage of the inherent hierarchical structure of 3-D P/G network. The port equivalent model (PEM) is introduced to mask the details of P/G grid in each tier. Besides, we introduce the locality property to further simplify the simulation. Some 3-D P/G network benchmarks extracted from industrial designs are used to verify the correctness of our method. Experimental results show that, HS3-DPG can achieve considerable speedup, while maintaining high accuracy. Simplified PEMs considering the locality property can save nearly 80% memory allocation compared with the full PEMs when the number of through-silicon-vias between the adjacent tiers becomes quite large.
Keywords :
integrated circuit modelling; three-dimensional integrated circuits; 3D P-G network; 3D integrated circuits; HS3-DPG; hierarchical simulation; inherent hierarchical structure; memory allocation; port equivalent model; power-ground network; through-silicon-vias; Computational modeling; Integrated circuit modeling; Jacobian matrices; Ports (Computers); Solid modeling; Through-silicon vias; Transient analysis; 3-D power/ground (P/G) network; hierarchical simulation; locality property; port equivalent model (PEM); port equivalent model (PEM).;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2014.2358582
