Patent application number | Description | Published |
20140097892 | DOUBLE PATTERNING COMPATIBLE COLORLESS M1 ROUTE - A method for enabling functionality in circuit designs utilizing colorless DPT M1 route placement that maintains high routing efficiency and guarantees M1 decomposability of a target pattern and the resulting circuit are disclosed. Embodiments include: determining a boundary abutting first and second cells in an IC; determining a side of a first edge pin in the first cell facing a side of a second edge pin in the second cell; determining a first vertical segment of at least a portion of the side of the first edge pin and a second vertical segment of at least a portion of the side of the second edge pin; designating an area between the first vertical segment and the boundary as a first portion of a routing zone; and designating an area between the second vertical segment and the boundary as a second portion of the routing zone. | 04-10-2014 |
20140282345 | VIA INSERTION IN INTEGRATED CIRCUIT (IC) DESIGNS - A method and apparatus for insertion of a via improving a manufacturability of a resulting device while ensuring compliance with DRC rules are disclosed. Embodiments include: determining a layer of a substrate of an IC design having a first via and a plurality of routes, the plurality of routes extending horizontally on the substrate and placed on one of a plurality of equally spaced vertical positions; comparing a region of the layer extending vertically between a first set of the plurality of routes and extending horizontally between a second set of the plurality of the routes with one or more threshold values, the region being adjacent to the first via and being separated from the plurality of routes; and inserting a second via based on the comparison. | 09-18-2014 |
20140289695 | EVALUATION OF PIN GEOMETRY ACCESSIBILITY IN A LAYER OF CIRCUIT - Evaluation of electrical accessibility within a layer of a circuit to pin geometries residing within a cell boundary of the circuit is provided. The evaluating includes, for instance, checking along substantially parallel pin geometry access paths of the layer to determine possible points at which a respective pin geometry of the pin geometries within the cell boundary may be accessed. The evaluating also includes identifying which points of the possible points are accessible access points by any route of the possible routes for electrically connecting to a respective pin geometry of the pin geometries from a first side or a second side of the cell boundary, wherein at least one point of the possible points is identified as not being an accessible access point based on the at least one point being inaccessible by the possible routes. | 09-25-2014 |
20140327146 | METHODS FOR IMPROVING DOUBLE PATTERNING ROUTE EFFICIENCY - A design methodology for routing for an integrated circuit is disclosed. The method includes placement of cells having double diffusion breaks, which create an extended intercell region. Metal layer prohibit zones are defined to prohibit any M1 structures in the prohibit zones. Metal layer allow zones are placed adjacent to outer metal lines, and jogs are formed in the metal layer allow zones. Vias and viabars may then be applied on the jogs. | 11-06-2014 |
20140327153 | STANDARD CELL CONNECTION FOR CIRCUIT ROUTING - Embodiments described herein provide approaches for improving a standard cell connection for circuit routing. Specifically, provided is an IC device having a plurality of cells, a first metal layer (M | 11-06-2014 |
20140346662 | FORMING MODIFIED CELL ARCHITECTURE FOR FINFET TECHNOLOGY AND RESULTING DEVICE - Methods for accommodating a non-integer multiple of the M2 pitch for the cell height of a semiconductor cell and the resulting devices are disclosed. Embodiments may include forming a cell within an integrated circuit (IC) with a height of a first integer and a remainder times a track pitch of a metal track layer, and forming power rails within the metal track layer at boundaries of the cell accommodating for the remainder. | 11-27-2014 |
20140353842 | WIDE PIN FOR IMPROVED CIRCUIT ROUTING - Embodiments described herein provide approaches for improved circuit routing using a wide-edge pin. Specifically, provided is an integrated circuit (IC) device comprising a standard cell having a first metal layer (M1) pin coupled to a second metal layer (M2) wire at a via. The M1 pin has a width greater than a width of the via sufficient to satisfy an enclosure rule for the via, while the M1 pin extends vertically past the via a distance substantially equal to or greater than zero. This layout increases the number of available pin access points within the standard cell and thus improves routing efficiency and chip size. | 12-04-2014 |
20150028489 | METHOD FOR OFF-GRID ROUTING STRUCTURES UTILIZING SELF ALIGNED DOUBLE PATTERNING (SADP) TECHNOLOGY - A method for efficient off-track routing and the resulting device are disclosed. Embodiments include: providing a hardmask on a substrate; providing a plurality of first mandrels on the hardmask; providing a first spacer on each side of each of the first mandrels; providing a plurality of first non-mandrel regions of the substrate being separated from the first mandrels and between two of the first spacers, each of the first mandrels, first non-mandrel regions, and first spacers having a width equal to a distance; and providing a second mandrel having a width of at least twice the distance and being separated from one of the first non-mandrel regions by a second spacer. | 01-29-2015 |
20150067633 | COLOR-INSENSITIVE RULES FOR ROUTING STRUCTURES - Methodologies and an apparatus enabling a generation of color undeterminable polygons in IC designs are disclosed. Embodiments include: determining a plurality of first routes extending horizontally in an IC design, each of the plurality of first routes being placed on one of a plurality of equally spaced vertical positions of the IC design; determining whether a second route overlaps one of the vertical positions of the plurality of equally spaced vertical positions; and selecting a design rule for the second route based on the determination of whether the second route overlaps. | 03-05-2015 |