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	Variación de Procesos Monte Carlo ×	Análisis Estático de Tiempos ×
Campo	Ingeniería eléctrica	Ingeniería eléctrica
Familia	Process / pipeline	Process / pipeline
Año de origen≠	2003	1995
Autor original≠	George S. Fishman, Sani R. Nassif	Harish Bhatnagar
Tipo≠	Probabilistic modeling of semiconductor manufacturing variability	Non-simulation timing verification for digital circuits
Fuente seminal≠	Fishman, G. S. (1996). Monte Carlo: Concepts, Algorithms, and Applications. Springer-Verlag. DOI ↗	Bhatnagar, H., & Bhatnagar, R. (1995). Static timing analysis: A primer. In VLSI Handbook (pp. 1-25). CRC Press. link ↗
Alias	Monte Carlo simulation, Process variation analysis, PVT analysis	STA, Timing verification, Path-based timing
Relacionados	3	3
Resumen≠	Monte Carlo Process Variation analysis quantifies the impact of manufacturing uncertainties on circuit performance using statistical sampling. As semiconductor technology scales, process variations (gate length, oxide thickness, dopant fluctuations) create significant uncertainties in delay, power, and leakage. Monte Carlo methods sample the random variation space, enabling statistical characterization of yield, timing margins, and reliability. Essential for modern technology nodes.	Static Timing Analysis (STA) is a non-simulation method for verifying that digital circuits meet timing constraints (clock frequencies, setup/hold times, propagation delays). Introduced systematically by Bhatnagar et al. in the 1990s, STA computes worst-case and best-case path delays by analyzing logic paths without simulating vectors. STA is essential for modern VLSI design, enabling fast timing closure before silicon and identifying critical paths for optimization.
ScholarGateConjunto de datos ↗	v1 3 Fuentes PUBLISHED	v1 3 Fuentes PUBLISHED

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