Title :
Timing yield estimation from static timing analysis
Author :
Gattiker, Anne ; Nassif, Sani ; Dinakar, Rashmi ; Long, Chris
Author_Institution :
IBM Austin Res. Lab., TX, USA
Abstract :
This paper presents a means for estimating parametric timing yield and guiding robust design for-quality in the presence of manufacturing and operating environment variations. Dual emphasis is on computational efficiency and providing meaningful robust-design guidance. Computational efficiency is achieved by basing the proposed methodology on a post-processing step applied to the report generated as a by-product of static timing analysis. Efficiency is also ensured by exploiting the fact that for small processing/environment variations, a linear model is adequate for capturing the resulting delay change. Meaningful design guidance is achieved by analyzing the timing-related influence of variations on a path-by-path basis, allowing designers perform a quality-oriented design pass focused on key paths. A coherent strategy is provided to handle both die-to-die and within-die variations. Examples from a PowerPC microprocessor illustrate the methodology and its capabilities
Keywords :
circuit CAD; circuit simulation; delays; design for manufacture; integrated circuit design; integrated circuit yield; timing; PowerPC microprocessor; computational efficiency; delay change; die-to-die variations; linear model; operating environment variations; parametric timing yield; path-by-path basis; post-processing step; processing/environment variations; quality-oriented design pass; robust design for-quality; robust-design guidance; static timing analysis; timing yield estimation; timing-related influence; within-die variations; Circuit simulation; Delay estimation; Dielectrics; Fluctuations; Microprocessors; Pulp manufacturing; Robustness; Temperature; Timing; Yield estimation;
Conference_Titel :
Quality Electronic Design, 2001 International Symposium on
Conference_Location :
San Jose, CA
Print_ISBN :
0-7695-1025-6
DOI :
10.1109/ISQED.2001.915268
