论文信息 - Worst case analysis for evaluating VLSI circuit performance bounds using an optimization method

Worst case analysis for evaluating VLSI circuit performance bounds using an optimization method

The process variations are unavoidable in today's VLSI circuits due to the continuing scaled IC technologies, therefore, the likely behaviors of VLSI circuits with process variations may fail to meet the performance specifications. This paper addresses an efficient method to evaluate the performance bounds of VLSI circuits with process variations in time domain. The described approach proceeds by solving a Nonlinear Programming (NLP) problem to find the upper and lower bounds of the interested outputs, either a node voltage or a branch current, constrained by linearlized equations, circuit equations and parameter variations. The preliminary result shows the performance bounds from the proposed method are sufficiently tight comparing with the bounds obtained from intensive Monte Carlo samplings in SPICE.

[1] L. Nagel,et al. SPICE (Simulation Program with Integrated Circuit Emphasis) , 1973 .

[2] Albert E. Ruehli,et al. The modified nodal approach to network analysis , 1975 .

[3] M. W. Tian,et al. Worst case tolerance analysis of linear analog circuits using sensitivity bands , 2000 .

[4] Andrea Neviani,et al. Impact of unrealistic worst case modeling on the performance of VLSI circuits in deep sub-micron CMOS technologies , 1998, IWSM. 1998 3rd International Workshop on Statistical Metrology (Cat. No.98EX113).

[5] Xuan Zeng,et al. Worst case analysis of linear analog circuit performance based on Kharitonov's rectangle , 2010, 2010 10th IEEE International Conference on Solid-State and Integrated Circuit Technology.

[6] Gerhard Schmeisser,et al. Characterization of the speed of convergence of the trapezoidal rule , 1990 .

[7] C. W. Gear,et al. ODE METHODS FOR THE SOLUTION OF DIFFERENTIAL/ALGEBRAIC SYSTEMS , 1984 .

[8] Andrea Neviani,et al. Impact of unrealistic worst case modeling on the performance of VLSI circuits in deep submicron CMOS technologies , 1999 .

[9] C.-J. Richard Shi,et al. Simulation and sensitivity of linear analog circuits under parameter variations by Robust interval analysis , 1999, TODE.

[10] Sung-Mo Kang,et al. Worst-case analysis and optimization of VLSI circuit performances , 1995, IEEE Trans. Comput. Aided Des. Integr. Circuits Syst..