標題: A two-dimensional quantum transport simulation of nanoscale double-gate MOSFETs using parallel adaptive technique
作者: Li, YM
Yu, SM
奈米中心
友訊交大聯合研發中心
Nano Facility Center
D Link NCTU Joint Res Ctr
關鍵字: parallel algorithm;demain decomposition;adaptive computational method;semiconductor device simulation;quantum correction model;nanoscale device;double-gate MOSFETs
公開日期: 1-七月-2004
摘要: In this paper we apply a parallel adaptive solution algorithm to simulate nanoscale double-gate metal-oxide-semiconductor field effect transistors (MOSFETs) on a personal computer (PC)-based Linux cluster with the message passing interface (MPI) libraries. Based on a posteriori error estimation, the triangular mesh generation, the adaptive finite volume method, the monotone iterative method, and the parallel domain decomposition algorithm, a set of two-dimensional quantum correction hydrodynamic (HD) equations is solved numerically on our constructed cluster system. This parallel adaptive simulation methodology with 1-irregular mesh was successfully developed and applied to deep-submicron semiconductor device simulation in our recent work. A 10 nm n-type double-gate MOSFET is simulated with the developed parallel adaptive simulator. In terms of physical quantities and refined adaptive mesh, simulation results demonstrate very good accuracy and computational efficiency. Benchmark results, such as load-balancing, speedup, and parallel efficiency are achieved and exhibit excellent, parallel performance. On a 16 nodes PC-based Linux cluster, the maximum difference among CPUs is less than 6%. A 12.8 times speedup and 80% parallel efficiency are simultaneously attained with respect to different simulation cases.
URI: http://hdl.handle.net/11536/26641
ISSN: 0916-8532
期刊: IEICE TRANSACTIONS ON INFORMATION AND SYSTEMS
Volume: E87D
Issue: 7
起始頁: 1751
結束頁: 1758
顯示於類別:會議論文