Abstract: Intermediate resolution-enhancement state layouts are generated based upon an original non-resolution enhanced layout of an integrated circuit and an associated resolution-enhanced layout. The intermediate resolution-enhancement state layout includes fragments corresponding to parts of the original layout and biases associated with the fragments, where the biases indicate distances between the fragments and the resolution-enhanced layout. The fragments are also assigned attributes such as fragment type, fragment location, and biases. The intermediate resolution-enhancement state layouts can be combined to generate the layout for a full chip IC. Two or more intermediate resolution-enhancement state layouts are assembled and are locally reconverged to adjust the resolution enhancement associated with the intermediate resolution-enhancement state layouts and obtain the intermediate resolution-enhancement state layouts for the full IC.

Abstract: Phase shifting allows generating very narrow features in a printed features layer. Thus, forming a fabrication layout for a physical design layout having critical features typically includes providing a layout for shifters. Specifically, pairs of shifters can be placed to define critical features, wherein the pairs of shifters conform to predetermined design rules. After placement, phase information for the shifters associated with the set of critical features can be assigned. Complex designs can lead to phase-shift conflicts among shifters in the fabrication layout. An irresolvable conflict can be passed to the design process earlier than in a conventional processes, thereby saving valuable time in the fabrication process for printed circuits.

Abstract: A method of making instances of a reference cell more uniform across an integrated circuit (IC) by providing a nominal cell for the reference cell and modifying an initial IC layout description to create input into an Optical Proximity Correction (OPC) engine, so as to make the cell instances more like the nominal cell during an IC layout process.

Abstract: Intermediate resolution-enhancement state layouts are generated based upon an original non-resolution enhanced layout of an integrated circuit and an associated resolution-enhanced layout. The intermediate resolution-enhancement state layout includes fragments corresponding to parts of the original layout and biases associated with the fragments, where the biases indicate distances between the fragments and the resolution-enhanced layout. The fragments are also assigned attributes such as fragment type, fragment location, and biases. The intermediate resolution-enhancement state layouts can be combined to generate the layout for a full chip IC. Two or more intermediate resolution-enhancement state layouts are assembled and are locally reconverged to adjust the resolution enhancement associated with the intermediate resolution-enhancement state layouts and obtain the intermediate resolution-enhancement state layouts for the full IC.

Abstract: Intermediate resolution-enhancement state layouts are generated based upon an original non-resolution enhanced layout of an integrated circuit and an associated resolution-enhanced layout. The intermediate resolution-enhancement state layout includes fragments corresponding to parts of the original layout and biases associated with the fragments, where the biases indicate distances between the fragments and the resolution-enhanced layout. The fragments are also assigned attributes such as fragment type, fragment location, and biases. The intermediate resolution-enhancement state layouts can be combined to generate the layout for a full chip IC. Two or more intermediate resolution-enhancement state layouts are assembled and are locally reconverged to adjust the resolution enhancement associated with the intermediate resolution-enhancement state layouts and obtain the intermediate resolution-enhancement state layouts for the full IC.

Abstract: Transient edges are used to define shapes in an integrated circuit layout for optical proximity correction. A first variation of the shape includes a first edge, a second edge satisfying an edge transition angle condition in relation to the first edge, and one or more first transition edges connected between the first edge and the second edge. A second variation of the shape includes a third edge, a fourth edge satisfying the same edge transition angle condition in relation to the third edge, and one or more second transition edges connected between the third edge and the fourth edge. Although the first transition edges are different from the second transition edges, both the first and second variations of the shape are identified as having the same shape, thereby allowing flexibility and efficiency in the shape identification process for optical proximity correction.

Abstract: Phase shifting allows generating very narrow features in a printed features layer. Thus, forming a fabrication layout for a physical design layout having critical features typically includes providing a layout for shifters. Specifically, pairs of shifters can be placed to define critical features, wherein the pairs of shifters conform to predetermined design rules. After placement, phase information for the shifters associated with the set of critical features can be assigned. Complex designs can lead to phase-shift conflicts among shifters in the fabrication layout. An irresolvable conflict can be passed to the design process earlier than in a conventional processes, thereby saving valuable time in the fabrication process for printed circuits.

Abstract: Phase shifting allows generating very narrow features in a printed features layer. Thus, forming a fabrication layout for a physical design layout having critical features typically includes providing a layout for shifters. Specifically, pairs of shifters can be placed to define critical features, wherein the pairs of shifters conform to predetermined design rules. After placement, phase information for the shifters associated with the set of critical features can be assigned. Complex designs can lead to phase-shift conflicts among shifters in the fabrication layout. An irresolvable conflict can be passed to the design process earlier than in a conventional processes, thereby saving valuable time in the fabrication process for printed circuits.

Abstract: A method of assigning phases to shifters on a layout is provided. The method includes creating a link between any two shifters within a predetermined distance from each other. In one embodiment, the predetermined distance is larger than a minimum feature size on the layout, and smaller than a combined minimum pitch and regulator width. A weight can be assigned to each created link. Phases can be assigned to the shifters, wherein if a phase-shift conflict exists on the layout, then one or more links can be broken based on their weight.

Abstract: Transient edges are used to define shapes in an integrated circuit layout for optical proximity correction. A first variation of the shape includes a first edge, a second edge satisfying an edge transition angle condition in relation to the first edge, and one or more first transition edges connected between the first edge and the second edge. A second variation of the shape includes a third edge, a fourth edge satisfying the same edge transition angle condition in relation to the third edge, and one or more second transition edges connected between the third edge and the fourth edge. Although the first transition edges are different from the second transition edges, both the first and second variations of the shape are identified as having the same shape, thereby allowing flexibility and efficiency in the shape identification process for optical proximity correction.

Abstract: An automated design for manufacturability platform which provides integrated physical verification and manufacturing enhancement operations. The platform uses an efficient data structure capable of handling and manipulating both layout circuit and geometry characteristics, which permits a wide range of operations such as timing analysis, design-rule checking and optical proximity corrections on a single platform. This feature eliminates the need to translate layout representations between various tools without the requirement of using a common database. Moreover, the platform's common user interface enables encapsulated information exchange between the design and the manufacturing teams, permiting early consideration of manufacturing distortion or enhancement impact on circuit performance.

Abstract: A method of generating simulation reports regarding an integrated circuit layout is provided. The method can include providing a plurality of control points associated with the integrated circuit layout. A single simulation of the plurality of control points can be performed. Detailed information from the single simulation can be stored in a database. Desired information can then be extracted from the database to generate the simulation reports.

Abstract: An automated design for manufacturability platform for integrated physical verification and manufacturing enhancement operations. Given original layouts and one or more associated resolution-enhanced layouts, intermediate resolution-enhancement state layouts are reconstructed, and selective localized resolution-enhancement reconfigurations, modifications, and/or perturbations are introduced on any existing enhancements in order to improve manufacturability and yield.

Abstract: Intermediate resolution-enhancement state layouts are generated based upon an original non-resolution enhanced layout of an integrated circuit and an associated resolution-enhanced layout. The intermediate resolution-enhancement state layout includes fragments corresponding to parts of the original layout and biases associated with the fragments, where the biases indicate distances between the fragments and the resolution-enhanced layout. The fragments are also assigned attributes such as fragment type, fragment location, and biases. The intermediate resolution-enhancement state layouts can be combined to generate the layout for a full chip IC. Two or more intermediate resolution-enhancement state layouts are assembled and are locally reconverged to adjust the resolution enhancement associated with the intermediate resolution-enhancement state layouts and obtain the intermediate resolution-enhancement state layouts for the full IC.

Abstract: A method of assigning phases to shifters on a layout is provided. The method includes creating a link between any two shifters within a predetermined distance from each other. In one embodiment, the predetermined distance is larger than a minimum feature size on the layout, and smaller than a combined minimum pitch and regulator width. A weight can be assigned to each created link. Phases can be assigned to the shifters, wherein if a phase-shift conflict exists on the layout, then one or more links can be broken based on their weight.

Abstract: A method of assigning phases to shifters on a layout is provided. The method includes creating a link between any two shifters within a predetermined distance from each other. In one embodiment, the predetermined distance is larger than a minimum feature size on the layout, and smaller than a combined minimum pitch and regulator width. A weight can be assigned to each created link. Phases can be assigned to the shifters, wherein if a phase-shift conflict exists on the layout, then one or more links can be broken based on their weight.

Abstract: An automated design for manufacturability platform which provides integrated physical verification and manufacturing enhancement operations. The platform uses an efficient data structure capable of handling and manipulating both layout circuit and geometry characteristics, which permits a wide range of operations such as timing analysis, design-rule checking and optical proximity corrections on a single platform. This feature eliminates the need to translate layout representations between various tools without the requirement of using a common database. Moreover, the platform's common user interface enables encapsulated information exchange between the design and the manufacturing teams, permiting early consideration of manufacturing distortion or enhancement impact on circuit performance.

Abstract: A method and system produce alternating phase shift masks using multiple phase shift mask resolution levels for multiple feature classes. In one method, a pattern for a photolithographic mask that defines a layer is processed, The pattern defines features in multiple feature classes in the layer. For various feature resolution levels, layout dimensions for phase shift windows pairs are defined. The phase shift windows pairs are laid out with the layout dimensions. Phase shift values are assigned to the phase shift windows.

Abstract: One embodiment of the invention provides a system that automatically resolves conflicts between phase shifters during creation of a phase shifting mask to be used in an optical lithography process for manufacturing an integrated circuit. Upon receiving a specification of a layout on the integrated circuit, the system identifies critical-dimension features within the layout. Next, the system places phase shifters comprised of phase shifting geometries on the phase shifting mask to precisely define the critical-dimension features. In doing so, the system identifies junctions within and/or between the critical-dimension features, and removes phase shifting geometries associated with the junctions to obviate coloring conflicts between phase shifters on the phase shifting mask. In one embodiment of the invention, the junctions include T-junctions and/or L-junctions.

Abstract: A method and system produce alternating phase shift masks using multiple phase shift mask resolution levels for multiple feature classes.