Title :
Constraint abstraction for vectorless power grid verification
Author :
Xuanxing Xiong ; Jia Wang
Author_Institution :
Dept. of Electr. & Comput. Eng., Illinois Inst. of Technol., Chicago, IL, USA
fDate :
May 29 2013-June 7 2013
Abstract :
Vectorless power grid verification is a formal approach to analyze power supply noises across the chip without detailed current waveforms. It is typically formulated and solved as linear programs, which demand intensive computational power, especially for large-scale power grids. In this paper, we propose a constraint abstraction technique to reduce the computation cost of vectorless verification. The boundary condition of a subgrid is modeled by boundary constraints, which enable efficient calculation of conservative bounds of power supply noises in a divide-and-conquer manner. Experimental results show that the proposed approach achieves significant speedup over prior art while maintaining good solution quality.
Keywords :
boundary-value problems; divide and conquer methods; formal verification; power engineering computing; power grids; boundary condition; boundary constraint; conservative bounds; constraint abstraction; divide and conquer; linear program; power supply noise; vectorless power grid verification; vectorless verification; Mathematical model; Noise; Power grids; Power supplies; Runtime; Upper bound; Vectors; Power grid; vectorless verification; voltage drop;
Conference_Titel :
Design Automation Conference (DAC), 2013 50th ACM/EDAC/IEEE
Conference_Location :
Austin, TX
