Patent application number | Description | Published |
20130290912 | METHOD AND APPARATUS FOR MONITORING MASK PROCESS IMPACT ON LITHOGRAPHY PERFORMANCE - The present disclosure is directed generally to a method and apparatus for monitoring mask process impact on lithography performance. A method including receiving a physical wafer pattern according to a mask, extracting a mask contour from the mask, and extracting a deconvolution pattern based on the mask contour. A lithography process is simulated to create a virtual wafer pattern based on the deconvolution pattern. The virtual wafer pattern is then compared to the physical wafer pattern. | 10-31-2013 |
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 |
20150100927 | Chip Level Critical Point Analysis with Manufacturer Specific Data - A method and computer program are provided for analyzing a set of layers within an integrated circuit design to determine a set of critical points for each layer within the set of layers. The critical points are based at least in part on manufacturer specific process parameters. The method includes assigning a critical point value to each of the critical points within each set of critical points, analyzing a path through the integrated circuit design across multiple integrated circuit design layers, and determining a sum of critical point values of each critical point along the path. | 04-09-2015 |
20150106773 | METHODOLOGY FOR PATTERN CORRECTION - The present disclosure relates to a method of integrated chip (IC) design pattern correction that reduces pattern correction cycle time by separately correcting main feature shapes and dummy shapes of the IC design, and an associated apparatus. In some embodiments, the method is performed by forming an IC design having a plurality of main feature shapes. A plurality of dummy shapes are added to the IC design to improve a process window of the IC design. The plurality of main feature shapes are corrected using a first pattern correction process. One or more of the plurality of dummy shapes are subsequently corrected using a second pattern correction process separate from the first pattern correction process. By separately correcting dummy shapes and main feature shapes, the dummy shapes can be subjected to a different pattern correction process having lower time/resource demands, thereby reducing the pattern correction cycle time. | 04-16-2015 |
20150106779 | METHODOLOGY FOR PATTERN DENSITY OPTIMIZATION - The present disclosure relates to a method of improving pattern density with a low OPC (optical proximity correction) cycle time, and an associated apparatus. In some embodiments, the method is performed by forming an integrated chip (IC) design that is a graphical representation of an integrated chip. One or more low-pattern-density areas of the IC design are identified having a pattern density that results in a processing failure. The low-pattern-density areas are a subset of the IC design. The pattern density is adjusted within the low-pattern-density area by adding one or more dummy shapes within the low-pattern-density areas. A data preparation process is then performed on the IC design to modify shapes of the one or more dummy shapes within the low-pattern-density areas. By introducing dummy shapes into a local area, rather than into an entire integrated chip design, the demands of the subsequent data preparation process are reduced. | 04-16-2015 |
20150143304 | Target Point Generation for Optical Proximity Correction - 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. | 05-21-2015 |