Patent application number | Description | Published |
20130246981 | DISSECTION SPLITTING WITH OPTICAL PROXIMITY CORRECTION TO REDUCE CORNER ROUNDING - 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. | 09-19-2013 |
20130275925 | Pattern Correction With Location Effect - The present disclosure provides one embodiment of an integrated circuit (IC) method. The method includes receiving an IC design layout having a plurality of IC regions each including an IC pattern; performing a dissection process to the IC design layout; and performing a correction process to the IC design layout using a correction model that includes proximity effect and location effect. The correction process includes performing a first correction step to a first IC region of the IC regions, resulting in a first corrected IC pattern in the first IC region; and performing a second correction step to a second IC region of the IC regions, starting with the first corrected IC pattern, resulting in a second corrected IC pattern. | 10-17-2013 |
20130275926 | NOVEL METHODOLOGY OF OPTICAL PROXIMITY CORRECTION OPTIMIZATION - A method for performing OPC and evaluating OPC solutions is disclosed. An exemplary method includes receiving a design database corresponding to an IC circuit mask. A first lithography simulation and evaluation is performed on the design database utilizing a first set of performance indexes. A modification is made to the design database based on a result of performing the first lithography simulation and evaluation. A second lithography simulation and evaluation is performed on the design database utilizing a second set of performance indexes to verify the modification. If necessary, the design database is modified again based on a result of the second lithography simulation and evaluation. The modified design database is provided to a mask manufacturer for manufacturing the mask corresponding to the modified design database. | 10-17-2013 |
20130285246 | Semiconductor Device With Self-Aligned Interconnects and Blocking Portions - A device and method for fabricating a device is disclosed. An exemplary device includes a first conductive layer disposed over a substrate, the first conductive layer including a first plurality of conductive lines extending in a first direction. The device further includes a second conductive layer disposed over the first conductive layer, the second conductive layer including a second plurality of conductive lines extending in a second direction. The device further includes a self-aligned interconnect formed at an interface where a first conductive line of the first plurality of conductive lines is in electrical contact with a first conductive line of the second plurality of conductive lines. The device further includes a blocking portion interposed between a second conductive line of the first plurality of conductive lines and a second conductive line of the second plurality of conductive lines. | 10-31-2013 |
20130292836 | VIA-FREE INTERCONNECT STRUCTURE WITH SELF-ALIGNED METAL LINE INTERCONNECTIONS - The present disclosure provides a semiconductor device. The semiconductor device includes a first conductive line disposed over a substrate. The first conductive line is located in a first interconnect layer and extends along a first direction. The semiconductor device includes a second conductive line and a third conductive line each extending along a second direction different from the first direction. The second and third conductive lines are located in a second interconnect layer that is different from the first interconnect layer. The second and third conductive lines are separated by a gap that is located over or below the first conductive line. The semiconductor device includes a fourth conductive line electrically coupling the second and third conductive lines together. The fourth conductive line is located in a third interconnect layer that is different from the first interconnect layer and the second interconnect layer. | 11-07-2013 |
20130292841 | SEMICONDUCTOR INTERCONNECT STRUCTURE - The present disclosure provides an interconnect structure for a semiconductor device. The interconnect structure includes a first metal layer that contains a first metal line. The interconnect structure includes a dielectric layer located over the first metal layer. The dielectric layer contains a first sub-via electrically coupled to the first metal line and a second sub-via electrically coupled to the first sub-via. The second sub-via is different from the first sub-via. The interconnect structure includes a second metal layer located over the dielectric layer. The second metal layer contains a second metal line electrically coupled to the second sub-via. No other metal layer is located between the first metal layer and the second metal layer. | 11-07-2013 |
20130316289 | Electron Beam Data Storage System and Method for High Volume Manufacturing - The present disclosure provides for many different embodiments of a charged particle beam data storage system and method. In an example, a method includes dividing a design layout into a plurality of units; creating a lookup table that maps each of the plurality of units to its position within the design layout and a data set, wherein the lookup table associates any repeating units in the plurality of units to a same data set; and exposing an energy sensitive layer to a charged particle beam based on the lookup table. | 11-28-2013 |
20140013287 | FRACTURE AWARE OPC - The present disclosure describes an OPC method of preparing data for forming a mask. The method includes setting a plurality of dissection points at the main feature and further includes setting a target point at the main feature. The method includes arranging the two dissection points crossing the main feature symmetrically each other. The method includes separating two adjacent dissection points at one side of the main feature by a maximum resolution of the mask writer. The method includes dividing the main feature into a plurality of segments using the dissection points. The method includes performing an OPC convergence simulation to a target point. The method includes correcting the segments belonging to an ambit of the target point and further includes correcting the segment shared by two ambits. | 01-09-2014 |
20140033144 | PROVIDING ELECRON BEAM PROXIMITY EFFECT CORRECTION BY SIMULATING WRITE OPERATIONS OF POLYGONAL SHAPES - A method for writing a design to a material using an electron beam includes assigning a first dosage to a first polygonal shape. The first polygonal shape occupies a first virtual layer and includes a first set of pixels. The method also includes simulating a first write operation using the first polygonal shape to create the design, discerning an error in the simulated first write operation, and assigning a second dosage to a second polygonal shape to reduce the error. The second polygonal shape occupies a second virtual layer. The method further includes creating a data structure that includes the first and second polygonal shapes and saving the data structure to a non-transitory computer-readable medium. | 01-30-2014 |
20140040838 | Methods For Making A Mask For An Integrated Circuit Design - A method for making a mask for an integrated circuit (IC) design includes receiving an IC design layout having a plurality IC features and performing a targeted-feature-surrounding (TFS) checking operation to identify a targeted-feature-surrounding-location (TFSL) in the IC design layout. The method also includes inserting a phase-bar (PB) to the TFSL, performing an optical proximity correction (OPC) to the IC design layout having the PB to form a modified IC design layout and providing the modified IC design layout for fabrication of the mask. | 02-06-2014 |
20140101624 | CONTOUR ALIGNMENT SYSTEM - The present disclosure describes a method of calibrating a contour. The method includes designing an anchor pattern, printing the anchor pattern on a substrate, collecting scanning electron microscope (SEM) data of the printed anchor pattern on the substrate, wherein the SEM data includes a SEM image of the printed anchor pattern on the substrate, converting the SEM image of the printed anchor pattern on the substrate into a SEM contour of the printed anchor pattern, analyzing the SEM contour of the printed anchor pattern, and aligning the SEM contour of the anchor pattern to form the calibrated SEM contour. | 04-10-2014 |
20140115546 | Layout Design for Electron-Beam High Volume Manufacturing - The present disclosure relates to a method and apparatus to create a physical layout for electron-beam lithography, comprising defining a layout grid for a physical design, the layout grid further comprising vertical grid lines which coincide with stitching lines resulting from partitioning the physical design into a plurality of subfields. The physical design is assembled in accordance with design restrictions regarding interaction between design shapes and the layout grid. In some embodiments, the design restrictions are realized though layout restrictions. In some embodiments, the design restrictions are realized by shifting standard cells to minimize design shape interaction with the layout grid in a post-layout step. In some embodiments, the design restrictions are realized by exchanging positions between a plurality of standard cells for an exchange permutation which minimizes the number of interactions in a post-layout step. In some embodiments a routing grid is refined to rule out interactions between a subset of design constructs and the layout grid. Remaining design shape placement is then optimized along the routing grid relative to the stitching lines. | 04-24-2014 |
20140119638 | SYSTEM, METHOD AND COMPUTER PROGRAM PRODUCT TO EVALUATE A SEMICONDUCTOR WAFER FABRICATION PROCESS - Systems, methods and computer program products for computerized evaluation of a semiconductor wafer fabrication process are described. An exemplary method comprises receiving an SEM image of a printed semiconductor wafer area and a reference image reflecting a circuit design pattern, enhancing the SEM image to produce a feature image, and comparing the feature image to the reference image to determine whether the positions of the images are the same. Based upon this analysis, evaluation of the fabrication process used to print the circuit on the SEM image can be conducted in an efficient and uniform manner. | 05-01-2014 |
20140189611 | Method Of Decomposable Checking Approach For Mask Alignment In Multiple Patterning - The present disclosure provides one embodiment of an integrated circuit (IC) design method. The method includes receiving an IC design layout having a first plurality of features defined in a first layer and a second plurality of features defined in a second layer; converting the IC design layout to a topological diagram having nodes, chains and arrows; and identifying alignment conflict based on the topological diagram using rules associated with loop and path count. | 07-03-2014 |
20140189614 | METHOD AND SYSTEM OF MASK DATA PREPARATION FOR CURVILINEAR MASK PATTERNS FOR A DEVICE - A method comprises: (a) transforming a layout of a layer of an integrated circuit (IC) or micro electro-mechanical system (MEMS) to a curvilinear mask layout; (b) replacing at least one pattern of the curvilinear mask layout with a previously stored fracturing template having approximately the same shape as the pattern, to form a fractured IC or MEMS layout; and (c) storing, in a non-transitory storage medium, an e-beam generation file including a representation of the fractured IC or MEMS layout, to be used for fabricating a photomask. | 07-03-2014 |
20140193981 | PHOTO RESIST TRIMMED LINE END SPACE - One or more techniques or systems for forming a line end space structure are provided herein. In some embodiments, a first patterned second hard mask (HM) region is formed above a first HM region. Additionally, at least some of the first patterned second HM region is removed. In some embodiments, a first sacrificial HM region and a second sacrificial HM region are formed above at least one of the first patterned second HM region or the first HM region. Photo resist (PR) is patterned above the second sacrificial HM region, and a spacer region is deposited above the patterned PR and second sacrificial HM region. In some embodiments, at least some of at least one of the spacer region, the PR, or the respective sacrificial HMs is removed. In this way, a line end space structure associated with an end-to-end space is formed. | 07-10-2014 |
20140203378 | Adaptive Fin Design for FinFETs - A method of designing a standard cell includes determining a minimum fin pitch of semiconductor fins in the standard cell, wherein the semiconductor fins are portions of FinFETs; and determining a minimum metal pitch of metal lines in a bottom metal layer over the standard cell, wherein the minimum metal pitch is greater than the minimum fin pitch. The standard cell is placed in an integrated circuit and implemented on a semiconductor wafer. | 07-24-2014 |
20140215421 | SELF-ALIGNED MULTIPLE PATTERNING LAYOUT DESIGN - Among other things, one or more techniques and systems for performing design layout are provided. An initial design layout is associated with an electrical component, such as a standard cell. The initial design layout comprises a first pattern, such as a mandrel pattern, and a second pattern, such as a passive fill pattern. An initial cut pattern is generated for the initial design layout. Responsive to identifying a design rule violation associated with the initial cut pattern, the initial design layout is modified to generate a modified initial design layout. An updated cut pattern, not resulting in the design rule violation, is generated based upon the modified initial design layout. The updated cut pattern is applied to the modified initial design layout to generate a final design layout. The final design layout can be verified as self-aligned multiple patterning (SAMP) compliant. | 07-31-2014 |
20140220493 | Self Aligned Patterning With Multiple Resist Layers - A method for using self aligned multiple patterning with multiple resist layers includes forming a first patterned resist layer onto a substrate, forming a spacer layer on top of the first patterned resist layer such that spacer forms on side walls of features of the first resist layer, and forming a second patterned resist layer over the spacer layer and depositing a masking layer. The method further includes performing a planarizing process to expose the first patterned resist layer, removing the first resist layer, removing the second resist layer, and exposing the substrate. | 08-07-2014 |
20140248768 | Mask Assignment Optimization - A method for optimizing mask assignment for multiple pattern processes includes, through a computing system, defining which of a number of vias to be formed between two metal layers are critical based on metal lines interacting with the vias, determining overlay control errors for an alignment tree that defines mask alignment for formation of the two metal layers and the vias, and setting both the alignment tree and mask assignment for the vias so as to maximize the placement of critical vias on masks that have less overlay control error to the masks forming the relevant metal lines. | 09-04-2014 |
20140252433 | Multi-Layer Metal Contacts - A method for forming metal contacts within a semiconductor device includes forming a first-layer contact into a first dielectric layer that surrounds at least one gate electrode, the first-layer contact extending to a doped region of an underlying substrate. The method further includes forming a second dielectric layer over the first dielectric layer and forming a second-layer contact extending through the second dielectric layer to the first-layer contact. | 09-11-2014 |
20140273442 | Spacer Etching Process For Integrated Circuit Design - A method of forming a target pattern includes forming a first material layer on a substrate; performing a first patterning process using a first layout to form a first plurality of trenches in the first material layer; performing a second patterning process using a second layout to form a second plurality of trenches in the first material layer; forming spacer features on sidewalls of both the first plurality of trenches and the second plurality of trenches, the spacer features having a thickness; removing the first material layer; etching the substrate using the spacer features as an etch mask; and thereafter removing the spacer features. The target pattern is to be formed with the first layout and the second layout. | 09-18-2014 |
20140273446 | Method of Patterning a Feature of a Semiconductor Device - A method including forming a first pattern having a first and second feature is described. A masking layer is formed over the first and second features. An opening is patterned in the masking layer. The opening can extend over at least one of the first and second features. The patterned opening is then used to form a third feature (filled trench) between the first and second features. A second pattern is then formed that includes a fourth feature and fifth feature each having an edge defined by the third feature. The first, second, fourth and fifth features may then be used to pattern an underlying layer over the semiconductor substrate. | 09-18-2014 |
20140273456 | Method for Integrated Circuit Patterning - A method of forming a target pattern includes forming a mandrel pattern on a substrate, the mandrel pattern having a line with a first dimension in a first direction and a second dimension in a second direction; forming a spacer around the mandrel pattern, the spacer having a first width; forming a cut pattern over the mandrel pattern and the spacer wherein the cut pattern partially overlaps the spacer on both sides of the line in the first direction; etching the mandrel pattern using the cut pattern as an etch mask, thereby defining a plurality of openings with sidewalls of the spacer, the cut pattern, and a portion of the mandrel pattern underneath the cut pattern; and reducing the first width of the spacer thereby to enlarge the plurality of openings. | 09-18-2014 |
20140282306 | Layout Optimization for Integrated Design - A method for laying out a target pattern includes assigning a keep-out zone to an end of a first feature within a target pattern, and positioning other features such that ends of the other features of the target pattern do not have an end within the keep-out zone. The target pattern is to be formed with a corresponding main feature and cut pattern. | 09-18-2014 |
20140377962 | PHOTO RESIST TRIMMED LINE END SPACE - One or more techniques or systems for forming a line end space structure are provided herein. In some embodiments, a first patterned second hard mask (HM) region is formed above a first HM region. Additionally, at least some of the first patterned second HM region is removed. In some embodiments, a first sacrificial HM region and a second sacrificial HM region are formed above at least one of the first patterned second HM region or the first HM region. Photo resist (PR) is patterned above the second sacrificial HM region, and a spacer region is deposited above the patterned PR and second sacrificial HM region. In some embodiments, at least some of at least one of the spacer region, the PR, or the respective sacrificial HMs is removed. In this way, a line end space structure associated with an end-to-end space is formed. | 12-25-2014 |
20150040082 | LAYOUT DECOMPOSITION METHOD - A method of assigning layout patterns includes identifying a first set of layout patterns of a current layout design that is new or has been modified in comparison with a reference layout design. A second set of layout patterns of the current layout design is identified. A member of the second set of layout patterns that is not a member of the first set of layout patterns has a distance, less than a predetermined threshold distance, to at least another member of the second set of layout patterns. A third set of layout patterns is not modified in comparison with the reference layout design. The third set of layout patterns is assigned to a plurality of masks according to the reference pattern-assigning result. | 02-05-2015 |
20150040083 | SYSTEM AND METHOD FOR DECOMPOSITION OF A SINGLE PHOTORESIST MASK PATTERN INTO 3 PHOTORESIST MASK PATTERNS - 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. | 02-05-2015 |
20150048457 | Mask Optimization for Multi-Layer Contacts - A method for mask optimization, the method including moving any features of a gate contact mask that are in violation of a spacing rule to a second layer contact mask, splitting an elongated feature of the second layer mask that is too close to a feature moved to the second layer mask from the gate contact mask, and connecting two split features of a first layer contact mask, the split features corresponding to the elongated feature of the second layer mask. | 02-19-2015 |
20150056724 | INTEGRATED CIRCUIT LAYOUT AND METHOD WITH DOUBLE PATTERNING - The present disclosure provides one embodiment of a method for an integrated circuit (IC). The method includes forming a mandrel pattern on a substrate by a first lithography process; forming a first spacer pattern on sidewalls of the mandrel pattern; removing the mandrel pattern; forming a second spacer pattern on sidewalls of the first spacer pattern; removing the first spacer pattern; and etching the substrate using the second spacer pattern as an etch mask. | 02-26-2015 |
20150064916 | Method For Integrated Circuit Patterning - A method of forming a target pattern includes forming a first trench in a substrate with a cut mask; forming a first plurality of lines over the substrate with a first main mask, wherein the first main mask includes at least one line that overlaps the first trench and is thereby cut into at least two lines by the first trench; forming a spacer layer over the substrate and the first plurality of lines and over sidewalls of the first plurality of lines; forming a patterned material layer over the spacer layer with a second main mask thereby the patterned material layer and the spacer layer collectively define a second plurality of trenches; removing at least a portion of the spacer layer to expose the first plurality of lines; and removing the first plurality of lines thereby resulting a patterned spacer layer over the substrate. | 03-05-2015 |
20150072527 | METHOD FOR PATTERNING A PLURALITY OF FEATURES FOR FIN-LIKE FIELD-EFFECT TRANSISTOR (FINFET) DEVICES - Methods for patterning fins for fin-like field-effect transistor (FinFET) devices are disclosed. An exemplary method includes providing a semiconductor substrate, forming a plurality of elongated protrusions on the semiconductor substrate, the elongated protrusions extending in a first direction, and forming a mask covering a first portion of the elongated protrusions, the mask being formed of a first material having a first etch rate. The method also includes forming a spacer surrounding the mask, the spacer being formed of a second material with an etch rate lower than the etch rate of the first material, the mask and the spacer together covering a second portion of the elongated protrusions larger than the first portion of the elongated protrusions. Further, the method includes removing a remaining portion of the plurality of elongated protrusions not covered by the mask and spacer. | 03-12-2015 |
20150079774 | Self-Alignment for using Two or More Layers and Methods of Forming Same - Embodiments of the present disclosure include self-alignment of two or more layers and methods of forming the same. An embodiment is a method for forming a semiconductor device including forming at least two gates over a substrate, forming at least two alignment structures over the at least two gates, forming spacers on the at least two alignment structures, and forming a first opening between a pair of the at least two alignment structures, the first opening extending a first distance from a top surface of the substrate. The method further includes filling the first opening with a first conductive material, forming a second opening between the spacers of at least one of the at least two alignment structures, the second opening extending a second distance from the top surface of the substrate, and filling the second opening with a second conductive material. | 03-19-2015 |
20150082259 | LAYOUT OPTIMIZATION FOR INTEGRATED CIRCUIT DESIGN - A method for laying out a target pattern includes assigning a keep-out zone to an end of a first feature within a target pattern, and positioning other features such that ends of the other features of the target pattern do not have an end within the keep-out zone. The target pattern is to be formed with a corresponding main feature and cut pattern. | 03-19-2015 |