Eitan N. Shauly scite author profile

Eitan N. Shauly

4Publications

40Citation Statements Received

90Citation Statements Given

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Affiliations

Tower Semiconductor (Israel), Technion – Israel Institute of Technology

Publications

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CMOS Leakage and Power Reduction in Transistors and Circuits: Process and Layout Considerations

Shauly

2012

JLPEA

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Power reduction in CMOS platforms is essential for any application technology. This is a direct result of both lateral scaling—smaller features at higher density, and vertical scaling—shallower junctions and thinner layers. For achieving this power reduction, solutions based on process-device and process-integration improvements, on careful layout modification as well as on circuit design are in use. However, the drawbacks of these solutions, in terms of greater manufacturing complexity (and higher cost) and speed degradation, call for “optimized” solutions. This paper reviews the issues associated with transistor scaling and related solutions for leakage and power reduction in terms of topological design rules and layout optimization for digital and analog transistors. For standard cells and SRAMs cells, leakage aware layout optimization techniques considering transistor configuration, stressors, line-edge-roughness and more are presented. Finally, different techniques for leakage and power reduction at the circuit level are discussed

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The effect of deposition process parameters and post-deposition treatments on the poly- and amorphous-silicon morphology

Edrei

Shauly

Roizin

et al. 2002

Applied Surface Science

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Accurate device simulations through CD-SEM-based edge-contour extraction

Shauly

Menadeva

Drori

et al. 2008

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A new methodology to predict changes in device performances due to systematic lithography and etch effects is described in this paper. Our methodology consists on Automatic Edge-Contour-Extraction (ECE) on Poly Over Active Layer, taking along the manufacturing variability. In general, the AMAT SEM (Scanning Electron Microscopy) ECE algorithm is based on CAD (GDS) to SEM pattern recognition, followed by CD based 2D edge extraction. Device modeling (using SPICE simulation) is used, to predict the nominal values as well as the device performances variability of the transistors drive current (Ion) and leakage current (Ioff). We used our method to compare a classical (simple rectangular) transistors and "UShape AA" transistors, both manufactured using Tower TS013LL (0.13um Low-Leakage) Platform. It was found, as predicted, that U-shape transistors have larger W distribution. However, "U-shape" also showed much tighter L distribution and the overall Ion spread is lower comparing to classical transistors. Also, UShape transistors found to have lower Lstdev (gate length distribution of each individual transistor). We also used the ECE methodology, to compare transistors of single side dog-bone to double-side dog-bone. Based on our work, we can predict that single-side dog-bone transistors, will have higher and larger Ioff distributions, and the overall Ioff speared along the wafer, will go up to a factor of x2.5.

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Monitoring and characterization of metal-over-contact based edge-contour extraction measurement followed by electrical simulation

Shauly

Rotstein

Schwarzband

et al. 2010

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Eitan N. Shauly

CMOS Leakage and Power Reduction in Transistors and Circuits: Process and Layout Considerations

The effect of deposition process parameters and post-deposition treatments on the poly- and amorphous-silicon morphology

Accurate device simulations through CD-SEM-based edge-contour extraction

Monitoring and characterization of metal-over-contact based edge-contour extraction measurement followed by electrical simulation

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