Patent application number | Description | Published |
20110223753 | Hard Mask Removal for Semiconductor Devices - A method of removing a hard mask during fabrication of semiconductor devices is provided. A protective layer, such as a bottom anti-reflective coating (BARC) layer or other dielectric layer, is formed over structures formed on a substrate, wherein spacers are formed alongside the structures. In an embodiment, the structures are gate electrodes having a hard mask formed thereon and the spacers are spacers formed alongside the gate electrodes. A photoresist layer is formed over the protective layer, and the photoresist layer may be patterned to remove a portion of the photoresist layer over portions of the protective layer. Thereafter, an etch-back process is performed, such that the protective layer adjacent to the spacers remains to substantially protect the spacers. The hard mask is then removed while the protective layer protects the spacers. | 09-15-2011 |
20120248550 | PLASMA DOPING TO REDUCE DIELECTRIC LOSS DURING REMOVAL OF DUMMY LAYERS IN A GATE STRUCTURE - The embodiments of methods and structures disclosed herein provide mechanisms of performing doping an inter-level dielectric film, ILD | 10-04-2012 |
20120322246 | FABRICATION METHODS OF INTEGRATED SEMICONDUCTOR STRUCTURE - A method for manufacturing the integrated circuit device including, providing a substrate having a first region and a second region. Forming a dielectric layer over the substrate in the first region and the second region. Forming a sacrificial gate layer over the dielectric layer. Patterning the sacrificial gate layer and the dielectric layer to form gate stacks in the first and second regions. Forming an ILD layer within the gate stacks in the first and second regions. Removing the sacrificial gate layer in the first and second regions. Forming a protector over the dielectric layer in the first region; and thereafter removing the dielectric layer in the second region. | 12-20-2012 |
20130228871 | PLASMA DOPING TO REDUCE DIELECTRIC LOSS DURING REMOVAL OF DUMMY LAYERS IN A GATE STRUCTURE - A semiconductor device which includes a first gate structure on a substrate and a second gate structure on the substrate is provided. The semiconductor device further includes an inter-level dielectric (ILD) layer on the substrate between the first gate structure and the second gate structure, wherein a top portion of the ILD layer has a different etch selectivity than a bottom portion of the ILD layer. | 09-05-2013 |
20160063166 | Cell Layout and Structure - A post placement abutment treatment for cell row design is provided. In an embodiment a first cell and a second cell are placed in a first cell row and a third cell and a fourth cell are placed into a second cell row. After placement vias connecting power and ground rails to the underlying structures are analyzed to determine if any can be merged or else removed completely. By merging and removing the closely placed vias, the physical limitations of photolithography may be by-passed, allowing for smaller structures to be formed. | 03-03-2016 |
20160078164 | METHOD OF FORMING LAYOUT DESIGN - A method of forming a layout design for fabricating an integrated circuit (IC) is disclosed. The method includes identifying one or more areas in the layout design occupied by one or more segments of a plurality of gate structure layout patterns of the layout design; and generating a set of layout patterns overlapping the identified one or more areas. The plurality of gate structure layout patterns has a predetermined pitch smaller than a spatial resolution of a predetermined lithographic technology. A first layout pattern of the set of layout patterns has a width less than twice the predetermined pitch. | 03-17-2016 |
20160079162 | SEMICONDUCTOR DEVICE, LAYOUT OF SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes a substrate having an active area, a gate structure over the active area, a lower conductive layer over and electrically coupled to the active area, and an upper conductive layer over and electrically coupled to the lower conductive layer. The lower conductive layer is at least partially co-elevational with the gate structure. The lower conductive layer includes first and second conductive segments spaced from each other. The upper conductive layer includes a third conductive segment overlapping the first and second conductive segments. The third conductive segment is electrically coupled to the first conductive segment, and electrically isolated from the second conductive segment. | 03-17-2016 |
20160093603 | SYSTEM AND METHOD OF PROCESSING CUTTING LAYOUT AND EXAMPLE SWITCHING CIRCUIT - A method of processing a gate electrode cutting (CUT) layout usable for fabricating an integrated circuit (IC) is disclosed. The method includes determining if a first CUT layout pattern and a second CUT layout pattern are in compliance with a predetermined spatial resolution requirement. If the first CUT layout pattern and the second CUT layout pattern are not in compliance with the predetermined spatial resolution requirement, a merged CUT layout pattern is generated based on the first CUT layout pattern, the second CUT layout pattern, and a stitching layout pattern, and a remedial connecting layout pattern is added to a conductive layer layout. The stitching layout pattern corresponds to a carved-out portion of a third gate electrode structure. The remedial connecting layout pattern corresponds to fabricating a conductive feature electrically connecting two portions of the third gate electrode structure that are separated by the corresponding carved-out portion. | 03-31-2016 |
20160104674 | INTEGRATED CIRCUIT WITH ELONGATED COUPLING - An integrated circuit comprises a first layer on a first level. The first layer comprises a set of first lines. The first lines each have a length and a width. The length of each of the first lines is greater than the width. The integrated circuit also comprises a second layer on a second level different from the first level. The second layer comprises a set of second lines. The second lines each have a length and a width. The length of each of the second lines is greater than the width. The integrated circuit further comprises a coupling configured to connect at least one first line of the set of first lines with at least one second line of the set of second lines. The coupling has a length and a width. The set of second lines has a pitch measured between the lines of the set of second lines in the first direction. The length of the first coupling is greater than or equal to the pitch. | 04-14-2016 |
20160111370 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes a substrate having an active region, a first gate structure over a top surface of the substrate, a second gate structure over the top surface of the substrate, a pair of first spacers on each sidewall of the first gate structure, a pair of second spacers on each sidewall of the second gate structure, an insulating layer over at least the first gate structure, a first conductive feature over the active region and a second conductive feature over the substrate. Further, the second gate structure is adjacent to the first gate structure and a top surface of the first conductive feature is coplanar with a top surface of the second conductive feature. | 04-21-2016 |