Patent application number | Description | Published |
20080263492 | 3-Dimensional Device Design Layout - A method for defining a layout of 3-D devices, such as a finFET, is provided. The method includes determining an area required by a desired 3-D device and designing a circuit using planar devices having an equivalent area. The planar device corresponding to the desired 3-D device is used to layout a circuit design, thereby allowing circuit and layout designers to work at a higher level without the need to specify each individual fin or 3-D structure. Thereafter, the planar design may be converted to a 3-D design by replacing planar active areas with 3-D devices occupying an equivalent area. | 10-23-2008 |
20090007035 | Accurate Parasitic Capacitance Extraction for Ultra Large Scale Integrated Circuits - A system and method for extracting the parasitic contact/via capacitance in an integrated circuit are provided. Parasitic extraction using this system can lead to an improved accuracy on contact/via parasitic capacitance extraction by taking into account of the actual contact/via shape and size variation. The common feature of the various embodiments includes the step of generating a technology file, in which the contact/via capacitance in the capacitance table is derived from an effective contact/via width table. Each element of the effective contact/via width table is calibrated to have a parasitic capacitance matching to that of an actual contact/via configuration occurring in an IC. | 01-01-2009 |
20090077507 | Method of Generating Technology File for Integrated Circuit Design Tools - A method and system for extracting the parasitic capacitance in an IC and generating a technology file for at least one or more IC design tools are provided. Parasitic extraction using the preferred method can significantly reduce field solver computational intensity and save technology file preparation cycle time. The network-based technology file generation system enables circuit designers to obtain a desired technology file in a timely manner. The common feature of the various embodiments includes identifying common conductive feature patterns for a given technology generation. Capacitance models created from the identified patterns are used to assemble the required technology files for IC design projects using different technology node and different process flows. | 03-19-2009 |
20100065913 | Performance-Aware Logic Operations for Generating Masks - A method for forming masks for manufacturing a circuit includes providing a design of the circuit, wherein the circuit comprises a device; performing a first logic operation to determine a first region for forming a first feature of the device; and performing a second logic operation to expand the first feature to a second region greater than the first region. The pattern of the second region may be used to form the masks. | 03-18-2010 |
20110023003 | Accurate Parasitic Capacitance Extraction for Ultra Large Scale Integrated Circuits - A system and method for extracting the parasitic contact/via capacitance in an integrated circuit are provided. Parasitic extraction using this system can lead to an improved accuracy on contact/via parasitic capacitance extraction by taking into account of the actual contact/via shape and size variation. The common feature of the various embodiments includes the step of generating a technology file, in which the contact/via capacitance in the capacitance table is derived from an effective contact/via width table. Each element of the effective contact/via width table is calibrated to have a parasitic capacitance matching to that of an actual contact/via configuration occurring in an IC. | 01-27-2011 |
20110193234 | Methods for Double-Patterning-Compliant Standard Cell Design - A semiconductor chip includes a row of cells, with each of the cells including a VDD line and a VSS line. All VDD lines of the cells are connected as a single VDD line, and all VSS lines of the cells are connected as a single VSS line. No double-patterning full trace having an even number of G0 paths exists in the row of cells, or no double-patterning full trace having an odd number of G0 paths exists in the row of cells. | 08-11-2011 |
20120043618 | Performance-Aware Logic Operations for Generating Masks - Stress engineering for PMOS and NMOS devices is obtained with a compressive stressor layer over the PMOS device, wherein the compressive stressor layer has the shape of a polygon when viewed from a top down perspective, and wherein the polygon includes a recess defined in its periphery. The NMOS device has a tensile stress layer wherein the tensile stressor layer has the shape of a polygon when viewed from the top down perspective, wherein the polygon includes a protrusion in its periphery, the protrusion extending into the recess of the first stressor layer. Thus, stress performance for both devices can be improved without violating design rules. | 02-23-2012 |
20120260225 | Accurate Parasitic Capacitance Extraction for Ultra Large Scale Integrated Circuits - A system and method for extracting the parasitic contact/via capacitance in an integrated circuit are provided. Parasitic extraction using this system can lead to an improved accuracy on contact/via parasitic capacitance extraction by taking into account of the actual contact/via shape and size variation. The common feature of the various embodiments includes the step of generating a technology file, in which the contact/via capacitance in the capacitance table is derived from an effective contact/via width table. Each element of the effective contact/via width table is calibrated to have a parasitic capacitance matching to that of an actual contact/via configuration occurring in an IC. | 10-11-2012 |
20140353731 | Tuning Strain in Semiconductor Devices - A Fin Field-Effect Transistor (FinFET) includes a semiconductor layer over a substrate, wherein the semiconductor layer forms a channel of the FinFET. A first silicon germanium oxide layer is over the substrate, wherein the first silicon germanium oxide layer has a first germanium percentage. A second silicon germanium oxide layer is over the first silicon germanium oxide layer. The second silicon germanium oxide layer has a second germanium percentage greater than the first germanium percentage. A gate dielectric is on sidewalls and a top surface of the semiconductor layer. A gate electrode is over the gate dielectric. | 12-04-2014 |
20150021697 | Thermally Tuning Strain in Semiconductor Devices - A method includes performing a first epitaxy to grow a silicon germanium layer over a semiconductor substrate, performing a second epitaxy to grow a silicon layer over the silicon germanium layer, and performing a first oxidation to oxidize the silicon germanium layer, wherein first silicon germanium oxide regions are generated. A strain releasing operation is performed to release a strain caused by the first silicon germanium oxide regions. A gate dielectric is formed on a top surface and a sidewall of the silicon layer. A gate electrode is formed over the gate dielectric. | 01-22-2015 |