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A dynamic method for efficient random mismatch characterization of standard cells

Wangyang Zhang,Amith Singhee,Jinjun Xiong,Peter Habitz,Amol Joshi,Chandu Visweswariah,James Sundquist

ICCAD(2012)

引用 6|浏览51
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摘要
To enable statistical static timing analysis, for each cell in a digital library, a timing model that considers variations must be characterized. In this paper, we propose a dynamic method to accurately and efficiently characterize a cell's delay and output slew as a function of random mismatch variations. Based on a tight error bound for characterization using partial devices, our method sequentially performs simulations based on decreasing importance of devices and stops when the error requirement is met. Results on an industrial 32nm library demonstrate that the proposed method achieves significantly better accuracy-efficiency trade-off compared to other partial finite differencing approaches.
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关键词
tight error,standard cell,digital library,timing circuits,statistical static timing analysis,partial devices,random mismatch characterization,timing model,standard cells,delay circuits,cell delay,partial device,efficient random mismatch characterization,size 32 nm,error requirement,dynamic method,cellular arrays,industrial library,partial finite differencing approach,method sequentially,error statistics,accuracy,statistical distance,finite difference methods,criticality,transistors,logic gates,sensitivity
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