Patent application number | Description | Published |
20100187611 | Contacts in Semiconductor Devices - Mask sets, layout design, and methods for forming contacts in devices are described. In one embodiment, a semiconductor device includes a plurality of contacts disposed over a substrate, the plurality of contacts being disposed as rows and columns on an orthogonal grid, each row of the plurality of contacts is spaced from an neighboring row of the plurality of contacts by a first distance, and each column of the plurality of contacts is spaced from an neighboring column of the plurality of contacts by a second distance. | 07-29-2010 |
20120070977 | Methods For Forming Contacts in Semiconductor Devices - Mask sets, layout design, and methods for forming contacts in devices are described. In one embodiment, a semiconductor device includes a plurality of contacts disposed over a substrate, the plurality of contacts being disposed as rows and columns on an orthogonal grid, each row of the plurality of contacts is spaced from an neighboring row of the plurality of contacts by a first distance, and each column of the plurality of contacts is spaced from an neighboring column of the plurality of contacts by a second distance. | 03-22-2012 |
Patent application number | Description | Published |
20080286698 | Semiconductor device manufacturing methods - Methods for manufacturing semiconductor devices are disclosed. One preferred embodiment is a method of processing a semiconductor device. The method includes providing a workpiece having a material layer to be patterned disposed thereon. A masking material is formed over the material layer of the workpiece. The masking material includes a lower portion and an upper portion disposed over the lower portion. The upper portion of the masking material is patterned with a first pattern. An additional substance is introduced and the lower portion of the masking material is patterned. The masking material and the additional substance are used to pattern the material layer of the workpiece. | 11-20-2008 |
20090098692 | Method for Fabricating a Semiconductor Gate Structure - A method of making a semiconductor device is disclosed. A mask if formed over a first and a second region of a semiconductor body, and a vertical diffusion barrier is formed in a region between the first and second regions. A mask is then formed over the second region and the first region is left unmasked. The semiconductor body is exposed to a dopant, so that the first region is doped and the second region is blocked from the dopant by the mask and by the vertical diffusion barrier. | 04-16-2009 |
20100120177 | Feature Dimension Control in a Manufacturing Process - A method for manufacturing a semiconductor device is disclosed including determining a dimension or other physical characteristic of a pattern in a layer of material that is disposed on a workpiece, and etching the layer of material using information that is related to the dimension. A system is also disclosed for manufacturing a semiconductor device including a first etch system configured to etch a layer to define a pattern in the layer, and a second etch system configured to measure a physical characteristic of the pattern, determine an etch control parameter based on the physical characteristic, and etch the layer in accordance with the etch control parameter. | 05-13-2010 |
20100283052 | Metrology Systems and Methods for Lithography Processes - Metrology systems and methods for lithography processes are disclosed. In one embodiment, a method of manufacturing a semiconductor device includes providing a mask having a plurality of corner rounding test patterns formed thereon. A first semiconductor device is provided, and a layer of photosensitive material of the first semiconductor device is patterned with a plurality of corner rounding test features using the mask and a lithography process. An amount of corner rounding of the lithography process is measured by analyzing the plurality of corner rounding test features relative to other of the plurality of corner rounding test features formed on the layer of photosensitive material of the semiconductor device. The lithography process or the mask is altered in response to the amount of corner rounding measured, and a second semiconductor device is provided. The second semiconductor device is affected using the altered lithography process or the altered mask. | 11-11-2010 |
20110031563 | Method for Manufacturing a Semiconductor Device Having Doped and Undoped Polysilicon Layers - Various illustrative embodiments of methods for manufacturing a semiconductor device are described. These methods may include, for example, forming a first polysilicon layer above a substrate, wherein the first polysilicon layer comprises a doped portion, and forming a second polysilicon layer over a surface of the first polysilicon layer. Also, various illustrative embodiments of semiconductor devices are described that may be manufactured such as by the various methods described herein. | 02-10-2011 |
20110183266 | Semiconductor Device Manufacturing Methods - Methods for manufacturing semiconductor devices are disclosed. One preferred embodiment is a method of processing a semiconductor device. The method includes providing a workpiece having a material layer to be patterned disposed thereon. A masking material is formed over the material layer of the workpiece. The masking material includes a lower portion and an upper portion disposed over the lower portion. The upper portion of the masking material is patterned with a first pattern. A polymer material is disposed over the masking material. The masking material and the polymer layer are used to pattern the material layer of the workpiece. | 07-28-2011 |
20110250530 | Semiconductor Devices and Methods of Manufacturing Thereof - Semiconductor devices and methods of manufacturing thereof are disclosed. A plurality of features is formed on a workpiece, the plurality of features being located in a first region and a second region of the workpiece. Features in the first region have a first lateral dimension, and features in the second region have a second lateral dimension, wherein the second lateral dimension is greater than the first lateral dimension. The first region is masked, and the second lateral dimension of features in the second region is reduced. | 10-13-2011 |