Patent application number | Description | Published |
20080235635 | SYSTEM ON CHIP DEVELOPMENT WITH RECONFIGURABLE MULTI-PROJECT WAFER TECHNOLOGY - A method is disclosed for designing a semiconductor circuit on a multi-project wafer (MPW). One or more standard modules designed by one or more vendors with verified functions are first identified. Some of the standard modules are charged based on usage. At least one reconfigurable module of the MPW is programmed by making one or more connections through one or more connection layers. The standard modules are further connected with the programmed reconfigurable module according to the predetermined design of the circuit. The completed circuit is then verified for final uses. | 09-25-2008 |
20090315079 | Layout Architecture for Improving Circuit Performance - An integrated circuit structure includes an integrated circuit structure including a PMOS transistor including a first gate electrode; a first source region; and a first drain region; an NMOS transistor including a second gate electrode, wherein the first gate electrode and the second gate electrode are portions of a gate electrode strip; a second source region; and a second drain region. No additional transistors are formed between the PMOS transistor and the NMOS transistor. The integrated circuit further includes a VDD power rail connected to the first source region; a VSS power rail connected to the second source region; and an interconnection port electrically connected to the gate electrode strip. The interconnection port is on an outer side of a MOS pair region including the PMOS transistor, the NMOS transistor, and the region between the PMOS transistor and the NMOS transistor. The portion of the gate electrode strip in the MOS pair region is substantially straight. | 12-24-2009 |
20090326873 | INTEGRATED CIRCUIT DESIGN IN OPTICAL SHRINK TECHNOLOGY NODE - Disclosed is a system, method, and computer-readable medium for designing a circuit and/or IC chip to be provided using an optical shrink technology node. Initial design data may be provided in a first technology node and through the use of embedding scaling factors in one or more EDA tools of the design flow, a design (e.g., mask data) can be generated for the circuit in an optical shrink technology node. Examples of EDA tools in which embedded scaling factors may be provided are simulation models and extraction tools including LPE decks and RC extraction technology files. | 12-31-2009 |
20100078725 | Standard Cell without OD Space Effect in Y-Direction - An integrated circuit structure includes a semiconductor substrate; a first active region in the semiconductor substrate; and a second active region in the semiconductor substrate and of an opposite conductivity type than the first active region. A gate electrode strip is over the first and the second active regions and forms a first MOS device and a second MOS device with the first active region and the second active region, respectively. A first spacer bar is in the semiconductor substrate and connected to the first active region. At least a portion of the first spacer bar is adjacent to and spaced apart from a portion of the first active region. A second spacer bar is in the semiconductor substrate and connected to the second active region. At least a portion of the second spacer bar is adjacent to and spaced apart from a portion of the second active region. | 04-01-2010 |
20100095253 | TABLE-BASED DFM FOR ACCURATE POST-LAYOUT ANALYSIS - Disclosed is a system and method for integrated circuit designs and post layout analysis. The integrated circuit design method includes providing a plurality of IC devices with various design dimensions; collecting electrical performance data of the IC devices; extracting equivalent dimensions of the IC devices; generating a shape related model to relate the equivalent dimensions to the electrical performance data of the IC devices; and creating a data refinement table using the equivalent dimensions and the electrical performance data. | 04-15-2010 |
20100127333 | NOVEL LAYOUT ARCHITECTURE FOR PERFORMANCE ENHANCEMENT - The present disclosure provides an integrated circuit. The integrated circuit includes an active region in a semiconductor substrate; a first field effect transistor (FET) disposed in the active region; and an isolation structure disposed in the active region. The FET includes a first gate; a first source formed in the active region and disposed on a first region adjacent the first gate from a first side; and a first drain formed in the active region and disposed on a second region adjacent the first gate from a second side. The isolation structure includes an isolation gate disposed adjacent the first drain; and an isolation source formed in the active region and disposed adjacent the isolation gate such that the isolation source and the first drain are on different sides of the isolation gate. | 05-27-2010 |
20100164614 | Structure and System of Mixing Poly Pitch Cell Design under Default Poly Pitch Design Rules - An integrated circuit including type-1 cells and a type-2 cell is presented. The type-1 cells have poly lines with a default poly pitch. The type-2 cell has poly lines with a non-default poly pitch. A first boundary region has at least one isolation area that lies between the type-1 cells and the type-2 cell in the X-direction. The first boundary region includes at least one merged dummy poly line, wherein the at least one merged dummy poly line has a first portion that complies with the default poly pitch of the type-1 cells and a second portion that complies with the non-default poly pitch of the type-2 cell. | 07-01-2010 |
20100196803 | Methods for Cell Boundary Isolation in Double Patterning Design - A method of designing a double patterning mask set for a layout of a chip includes designing standard cells. In each of the standard cells, all left-boundary patterns are assigned with one of a first indicator and a second indicator, and all right-boundary patterns are assigned with an additional one of the first indicator and the second indicator. The method further includes placing the standard cells in a row of the layout of the chip. Starting from one of the standard cells in the row, indicator changes to the standard cells are propagated throughout the row. All patterns in the standard cells having the first indicator are transferred to a first mask of the double patterning mask set. All patterns in the standard cells having the second indicator are transferred to a second mask of the double patterning mask set. | 08-05-2010 |
20100269081 | Standard Cells Having Flexible Layout Architecture/Boundaries - An integrated circuit layout includes a standard cell, which includes a first gate strip and a second gate strip parallel to each other and having a gate pitch; a first boundary and a second boundary on opposite ends of the first standard cell; and a third boundary and a fourth boundary on opposite ends of the first standard cell and parallel to the first gate strip and the second gate strip. A cell pitch between the third boundary and the fourth boundary is not equal to integer times the gate pitch. A PMOS transistor is formed of the first gate strip and a first active region. An NMOS transistor is formed of the first gate strip and a second active region. | 10-21-2010 |
20100281446 | Integrated Circuit Design using DFM-Enhanced Architecture - Integrated circuit libraries include a first standard cell having a first left boundary and a first right boundary, and a second standard cell having a second left boundary and a second right boundary. The first standard cell and the second standard cell are of a same cell variant. A first active region in the first standard cell has a different length of diffusion than a second active region in the second standard cell. The first active region and the second active region are corresponding active regions represented by a same component of a same circuit diagram representing both the first standard cell and the second standard cell. | 11-04-2010 |
20110140203 | NOVEL CONTACT IMPLEMENT STRUCTURE FOR HIGH DENSITY DESIGN - The present disclosure provides a device in an integrated circuit. The device includes an active region in a semiconductor substrate; an isolation region adjacent the active region; a gate disposed on the active region and extending to the isolation region in a first direction; and a gate contact disposed within the isolation region, having a portion directly overlying and contacting the gate, and having a geometry horizontally extending to a first dimension in the first direction and a second dimension in a second direction approximately perpendicular to the first direction. The first dimension is greater than the second dimension. | 06-16-2011 |
20110289466 | Table-Based DFM for Accurate Post-Layout Analysis - Disclosed is a system and method for integrated circuit designs and post layout analysis. The integrated circuit design method includes providing a plurality of IC devices with various design dimensions; collecting electrical performance data of the IC devices; extracting equivalent dimensions of the IC devices; generating a shape related model to relate the equivalent dimensions to the electrical performance data of the IC devices; and creating a data refinement table using the equivalent dimensions and the electrical performance data. | 11-24-2011 |
20110291200 | INTEGRATED CIRCUITS AND MANUFACTURING METHODS THEREOF - An integrated circuit includes a first diffusion area for a first type transistor. The first type transistor includes a first drain region and a first source region. A second diffusion area for a second type transistor is separated from the first diffusion area. The second type transistor includes a second drain region and a second source region. A gate electrode continuously extends across the first diffusion area and the second diffusion area in a routing direction. A first metallic structure is electrically coupled with the first source region. A second metallic structure is electrically coupled with the second drain region. A third metallic structure is disposed over and electrically coupled with the first and second metallic structures. A width of the first metallic structure is substantially equal to or larger than a width of the third metallic structure. | 12-01-2011 |
20120032268 | Layout and Process of Forming Contact Plugs - A device includes a semiconductor substrate including an active region, a gate electrode directly over the active region, and a gate contact plug over and electrically coupled to the gate electrode. The gate contact plug includes at least a portion directly over, and vertically overlapping, the active region. | 02-09-2012 |
20120084745 | Design Method for Non-Shrinkable IP Integration - A method of designing integrated circuits includes providing a design of an integrated circuit at a first scale, wherein the integrated circuit includes a shrinkable circuit including a first intellectual property (IP); and a non-shrinkable circuit including a second IP having a hierarchical structure. A marker layer is formed to cover the non-shrinkable circuit, wherein the shrinkable circuit is not covered by the marker layer. The electrical performance of the non-shrinkable circuit is simulated using a simulation tool, wherein the simulated non-shrinkable circuit is at a second scale smaller than the first scale. | 04-05-2012 |
20120226479 | Method of Generating RC Technology File - A method of generating resistance-capacitance (RC) technology files is disclosed. The method comprises receiving a plurality of metal schemes from an IC foundry and dividing the plurality of metal schemes into one or more modular RC groups. The method further comprises identifying a modular RC structure; calculating capacitance values of the modular RC structure by means of a field solver; calculating an equivalent dielectric constant and an equivalent height of the RC structure based upon a variety of interconnect layers not having interconnects; calculating an equivalent dielectric constant and an equivalent height for each of the plurality of metal schemes; and deriving capacitance values of each of the plurality of metal schemes from the capacitance values of the modular RC structure. | 09-06-2012 |
20120280287 | Integrated Circuit Layouts with Power Rails under Bottom Metal Layer - A circuit includes a semiconductor substrate; a bottom metal layer over the semiconductor substrate, wherein no additional metal layer is between the semiconductor substrate and the bottom metal layer; and a cell including a plug-level power rail under the bottom metal layer. | 11-08-2012 |
20130227514 | Method of Generating RC Technology File - A method of generating resistance-capacitance (RC) technology files is disclosed. The method comprises receiving a plurality of metal schemes from an IC foundry and dividing the plurality of metal schemes into one or more modular RC groups. The method further comprises identifying a modular RC structure; calculating capacitance values of the modular RC structure by means of a field solver; calculating an equivalent dielectric constant and an equivalent height of the RC structure based upon a variety of interconnect layers not having interconnects; calculating an equivalent dielectric constant and an equivalent height for each of the plurality of metal schemes; and deriving capacitance values of each of the plurality of metal schemes from the capacitance values of the modular RC structure. | 08-29-2013 |