Advanced Micro Devices Corporation Patent applications |
Patent application number | Title | Published |
20120168957 | METHOD TO REDUCE DEPTH DELTA BETWEEN DENSE AND WIDE FEATURES IN DUAL DAMASCENE STRUCTURES - A method of forming a device is disclosed. The method includes providing a substrate prepared with a dielectric layer having first and second regions. The first region comprises wide features and the second region comprises narrow features. A depth delta exists between bottoms of the wide and narrow features. A non-conformal layer is formed on the substrate and it lines the wide and narrow trenches in the first and second regions. The non-conformal layer is removed. Removing the non-conformal layer reduces the depth delta between the bottoms of the wide and narrow features in the first and second region. | 07-05-2012 |
20120104498 | Semiconductor device having localized extremely thin silicon on insulator channel region - A method of forming a transistor device includes forming a dummy gate stack structure over an SOI starting substrate, comprising a bulk layer, a global BOX layer over the bulk layer, and an SOI layer over the global BOX layer. Self-aligned trenches are formed completely through portions of the SOI layer and the global BOX layer at source and drain regions. Silicon is epitaxially regrown in the source and drain regions, with a local BOX layer re-established in the epitaxially regrown silicon, adjacent to the global BOX layer. A top surface of the local BOX layer is below a top surface of the global BOX layer. Embedded source and drain stressors are formed in the source and drain regions, adjacent a channel region. Silicide contacts are formed on the source and drain regions. The dummy gate stack structure is removed, and a final gate stack structure is formed. | 05-03-2012 |
20090081873 | Methods of Patterning Insulating Layers Using Etching Techniques that Compensate for Etch Rate Variations - Methods of forming integrated circuit devices include forming an integrated circuit substrate having an electrically insulating layer thereon and forming a mask layer pattern having at least first and second openings of different size therein, on the electrically insulating layer. First and second portions of the electrically insulating layer extending opposite the first and second openings, respectively, are simultaneously etched at first and second different etch rates. This etching yields a first trench extending adjacent the first opening that is deeper than a second trench extending adjacent the second opening. Then, the bottoms of the first and second trenches are simultaneously etched to substantially the same depths using an etching process that compensates for the first and second different etch rates. | 03-26-2009 |