Collaborative research on emerging technologies and design

Techniques for identifying and mitigating effects of process variation on the electrical performance of integrated circuits are described. These results are from multi-discipline, collaborative university-industry research and emphasize anticipating sources of variation up-stream early in the circuit design phase. The lithography physics research includes design and testing electronic monitors in silicon at 45 nm and fast-CAD tools to identify systematic variations for entire chip layouts. The device research includes the use of a spacer (sidewall transfer) gate fabrication process to suppress random variability components. The Design-for-Manufacturing research includes double pattern decomposition in the presence of bimodal CD behavior, process-aware reticle inspection, tool-aware dose trade-off between leakage and speed, the extension of timing analysis methodology to capture across process-window effects and electrical process-window characterization.