Abstract: The present disclosure provides a method of performing optical proximity correction (OPC). An integrated circuit (IC) design layout is received. The design layout contains a plurality of IC layout patterns. Two or more of the plurality of IC layout patterns are grouped together. The grouped IC layout patterns are dissected, or target points are set for the grouped IC layout patterns. Thereafter, an OPC process is performed based on the grouped IC layout patterns.

Abstract: A multiple patterning decomposition method for IC is provided. Features of layout of IC are decomposed into a plurality of nodes. The nodes are classified to assign a plurality of first and second links between the nodes. First and second pseudo colors are assigned to a pair of nodes of each first link. The second links having a pair of nodes both corresponding to the first or second pseudo color are identified. The nodes of the first links are uncolored. A first real color is assigned to the two uncolored nodes of the identified second links in each of the networks. A second real color is assigned to the uncolored nodes connected to the nodes corresponding to the first real color through the first links. First and second masks are formed according to the nodes corresponding to the first and second real colors, respectively.

Abstract: A method of manufacturing an integrated circuit (IC) includes receiving a design layout of the IC, wherein the design layout includes two abutting blocks, the two blocks include target patterns, and the target patterns have different pitches in the two blocks. The method further includes generating mandrel pattern candidates in spaces between adjacent target patterns, and assigning first and second colors to the mandrel pattern candidates according to their priorities. The method further includes removing the mandrel pattern candidates assigned with the second color, and outputting a mandrel pattern in computer-readable format for mask fabrication. The mandrel pattern includes the mandrel pattern candidates that are colored with the first color.

Abstract: A method of manufacturing an integrated circuit (IC) includes receiving a design layout of the IC, wherein the design layout includes two abutting blocks, the two blocks include target patterns, and the target patterns have different pitches in the two blocks. The method further includes generating mandrel pattern candidates in spaces between adjacent target patterns, and assigning first and second colors to the mandrel pattern candidates according to their priorities. The method further includes removing the mandrel pattern candidates assigned with the second color, and outputting a mandrel pattern in computer-readable format for mask fabrication. The mandrel pattern includes the mandrel pattern candidates that are colored with the first color.

Abstract: The present disclosure provides a method of performing optical proximity correction (OPC). An integrated circuit (IC) design layout is received. The design layout contains a plurality of IC layout patterns. Two or more of the plurality of IC layout patterns are grouped together. The grouped IC layout patterns are dissected, or target points are set for the grouped IC layout patterns. Thereafter, an OPC process is performed based on the grouped IC layout patterns.

Abstract: Disclosed is a method of fabricating an integrated circuit (IC) using a multiple (N>2) patterning technique. The method provides a layout of the IC having a set of IC features. The method further includes deriving a graph from the layout, the graph having vertices connected by edges, the vertices representing the IC features, and the edges representing spacing between the IC features. The method further includes selecting vertices, wherein the selected vertices are not directly connected by an edge, and share at least one neighboring vertex that is connected by N edges. The method further includes using a computerized IC tool to merge the selected vertices, thereby reducing a number of edges connecting the neighboring vertex to be below N. The method further includes removing a portion of the vertices that are connected by less than N edges.

Abstract: The present disclosure provides a method of performing optical proximity correction (OPC). An integrated circuit (IC) design layout is received. The design layout contains a plurality of IC layout patterns. Two or more of the plurality of IC layout patterns are grouped together. The grouped IC layout patterns are dissected, or target points are set for the grouped IC layout patterns. Thereafter, an OPC process is performed based on the grouped IC layout patterns.

Abstract: The present disclosure provides a method of performing optical proximity correction (OPC). An integrated circuit (IC) design layout is received. The design layout contains a plurality of IC layout patterns. Two or more of the plurality of IC layout patterns are grouped together. The grouped IC layout patterns are dissected, or target points are set for the grouped IC layout patterns. Thereafter, an OPC process is performed based on the grouped IC layout patterns.

Abstract: A method of determining whether a layout is colorable includes assigning nodes to polygon features of the layout. The method includes designating nodes as being adjacent nodes for nodes separated by less than a minimum pitch. The method includes iteratively removing nodes having less than three adjacent nodes from consideration to identify a node arrangement, wherein all nodes in the node arrangement have at least three adjacent nodes. The method includes determining whether the layout is colorable based on the node arrangement. Determining whether the layout is colorable includes independently assessing each internal node of node arrangement to determine whether each internal node of the node arrangement is colorable. The method includes generating a colored layout design for fabrication of the semiconductor device if each internal node of the node arrangement is colorable; and modifying the layout if at least one internal node of the node arrangement is not colorable.

Abstract: A method of determining whether a layout is colorable includes assigning nodes to polygon features of the layout. The method includes designating nodes as being adjacent nodes for nodes separated by less than a minimum pitch. The method includes iteratively removing nodes having less than three adjacent nodes from consideration to identify a node arrangement, wherein all nodes in the node arrangement have at least three adjacent nodes. The method includes determining whether the layout is colorable based on the node arrangement. Determining whether the layout is colorable includes independently assessing each internal node of node arrangement to determine whether each internal node of the node arrangement is colorable. The method includes generating a colored layout design for fabrication of the semiconductor device if each internal node of the node arrangement is colorable; and modifying the layout if at least one internal node of the node arrangement is not colorable.

Abstract: Methods and systems for design of integrated circuits including performing OPC are discussed. In one embodiment, design data having a geometric feature is provided. A base feature is formed from the geometric feature, which has a substantially linear edge. A pseudo dissection point is determined on the base feature. Add or trim a polygon from the base feature to form a modified feature. An OPC process is performed on the modified feature to generate an output design. The output design is used to fabricate a semiconductor device on a semiconductor substrate.

Abstract: A system and method of decomposing a single photoresist mask pattern to three photoresist mask patterns. The system and method assign nodes to polygon features on the single photoresist mask pattern, designate nodes as being adjacent nodes for those nodes that are less than a predetermined distance apart, iteratively remove nodes having 2 or less adjacent nodes until no nodes having 2 or less adjacent nodes remain, identify one or more internal nodes, map photoresist mask pattern designations (colors) to the internal nodes, and replace and map a color to each of the nodes removed by the temporarily removing nodes, such that each node does not have an adjacent node of the same color.

Abstract: A method performed by a computer processing system includes receiving a design pattern for an integrated circuit, applying a function to the design pattern to generate a model contour, generating a plurality of Optical Proximity Correction (OPC) target points along the model contour, adjusting the design pattern to create an adjusted pattern, and performing a simulation on the adjusted pattern to create a simulated contour.

Abstract: Methods and systems for design of integrated circuits including performing OPC are discussed. In one embodiment, design data having a geometric feature is provided. A base feature is formed from the geometric feature, which has a substantially linear edge. A pseudo dissection point is determined on the base feature. Add or trim a polygon from the base feature to form a modified feature. An OPC process is performed on the modified feature to generate an output design. The output design is used to fabricate a semiconductor device on a semiconductor substrate.

Abstract: A method performed by a computer processing system includes receiving a design pattern for an integrated circuit, applying a function to the design pattern to generate a model contour, generating a plurality of Optical Proximity Correction (OPC) target points along the model contour, adjusting the design pattern to create an adjusted pattern, and performing a simulation on the adjusted pattern to create a simulated contour.

Abstract: The present disclosure relates to a method and apparatus for forming a multiple patterning lithograph (MPL) compliant integrated circuit layout by operating a construction validation check on unassembled IC cells to enforce design restrictions that prevent MPL conflicts after assembly. In some embodiments, the method is performed by generating a plurality of unassembled integrated circuit (IC) cells having a multiple patterning design layer. A construction validation check is performed on the unassembled IC cells to identify violating IC cells having shapes disposed in patterns comprising potential multiple patterning coloring conflicts. Design shapes within a violating IC cell are adjusted to achieve a plurality of violation free IC cells. The plurality of violation free IC cells are then assembled to form an MPL compliant IC layout. Since the MPL compliant IC layout is free of coloring conflicts, a decomposition algorithm can be operated without performing a post assembly color conflict check.

Abstract: A system and method of decomposing a single photoresist mask pattern to three photoresist mask patterns. The system and method assign nodes to polygon features on the single photoresist mask pattern, designate nodes as being adjacent nodes for those nodes that are less than a predetermined distance apart, iteratively remove nodes having 2 or less adjacent nodes until no nodes having 2 or less adjacent nodes remain, identify one or more internal nodes, map photoresist mask pattern designations (colors) to the internal nodes, and replace and map a color to each of the nodes removed by the temporarily removing nodes, such that each node does not have an adjacent node of the same color.

Abstract: The present disclosure provides one embodiment of an integrated circuit (IC) method. The method includes building a pattern bank including a pattern having an area of interest. The method further includes recognizing that the pattern of the pattern bank corresponds to a pattern of an IC design layout. The method further includes identifying an area of interest of the pattern of the IC design layout that corresponds to the area of interest of the pattern of the pattern bank. The method further includes performing pattern recognition dissection on the area of interest of the pattern of the IC design layout to dissect the area of interest of the pattern of the IC design layout into a plurality of segments. The method further includes after performing pattern recognition dissection, producing a modified IC design layout.

Abstract: The present disclosure provides one embodiment of an integrated circuit (IC) method. The method includes building a pattern bank including a pattern having an area of interest. The method further includes recognizing that the pattern of the pattern bank corresponds to a pattern of an IC design layout. The method further includes identifying an area of interest of the pattern of the IC design layout that corresponds to the area of interest of the pattern of the pattern bank. The method further includes performing pattern recognition dissection on the area of interest of the pattern of the IC design layout to dissect the area of interest of the pattern of the IC design layout into a plurality of segments. The method further includes after performing pattern recognition dissection, producing a modified IC design layout.

Abstract: The present disclosure provides one embodiment of an integrated circuit (IC) method. The method includes receiving an IC design layout having an main feature, the main feature including two corners and an edge spanning between the two corners; performing a feature adjustment to the edge; performing a dissection to the edge such that the edge is divided to include two corner segments and one center segment between the two corner segments; performing a first optical proximity correction (OPC) to the main feature for a center target associated with the center segment; thereafter, performing a second OPC to the main feature for two corner targets associated with the corner segments; and thereafter, performing a third OPC to main feature for the center target, resulting in a modified design layout.