مرکز منطقه ای اطلاع رساني علوم و فناوري - Efficient design-specific worst-case corner extraction for integrated circuits

DocumentCode :

500857

Title :

Efficient design-specific worst-case corner extraction for integrated circuits

Author :

Zhang, Hong ; Chen, Tsung-Hao ; Ting, Ming-Yuan ; Li, Xin

Author_Institution :

Mentor Graphics Corp., San Jose, CA, USA

fYear :

2009

fDate :

26-31 July 2009

Firstpage :

386

Lastpage :

389

Abstract :

While statistical analysis has been considered as an important tool for nanoscale integrated circuit design, many IC designers would like to know the design-specific worst-case corners for circuit debugging and failure diagnosis. In this paper, we propose a novel algorithm to efficiently extract the worst-case corners for nanoscale ICs. Our proposed approach mathematically formulates a quadratically constrained quadratic programming (QCQP) problem for corner extraction. Next, it applies the Lagrange duality theory to convert the non-convex QCQP problem to a convex semi-definite programming (SDP) problem that is easier to solve. Our circuit example designed in a commercial CMOS process demonstrates that the proposed SDP formulation can find the worst-case corners both efficiently and robustly, while the traditional QCQP fails to achieve global convergence.

Keywords :

CMOS integrated circuits; convex programming; failure analysis; fault diagnosis; integrated circuit design; nanoelectronics; quadratic programming; statistical analysis; CMOS process; Lagrange duality theory; circuit debugging diagnosis; circuit failure diagnosis; convex semidefinite programming; corner extraction; design-specific worst-case corner extraction; design-specific worst-case corners; integrated circuit design; nanoscale integrated circuit design; nonconvex QCQP problem; quadratically constrained quadratic programming problem; statistical analysis; Debugging; Graphics; Integrated circuit modeling; Integrated circuit synthesis; Lagrangian functions; Permission; Quadratic programming; Response surface methodology; Robustness; Statistical analysis; Integrated Circuit; Process Variation; Worst-Case Corner;

fLanguage :

English

Publisher :

ieee

Conference_Titel :

Design Automation Conference, 2009. DAC '09. 46th ACM/IEEE

Conference_Location :

San Francisco, CA

ISSN :

0738-100X

Print_ISBN :

978-1-6055-8497-3

Type :

conf

Filename :

5227114

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=500857