Patent application number | Description | Published |
20100328325 | Fingerprinting of Fragment Shaders and Use of Same to Perform Shader Concatenation - An automated method of quantifying a set of processing resources used by an image transform operation is described. The method receives a set of image processing instructions for performing the transform operation, and, for the set of image processing instructions, generates data that estimates the amount of processing resources required to perform the set of image processing instructions. The method associates the data with the set of image processing instructions, the association allowing evaluation of the data at run-time to facilitate execution of the set of image processing instructions on a particular processing unit having a particular set of processing resources. In addition, an automated method of concatenating a plurality of image processing instruction sets, where each image processing instruction set includes data representing an estimate of processing resources required by the image processing instruction set is described. | 12-30-2010 |
20100328326 | Multi-platform Image Processing Framework - A method for compiling image processing instructions is described. The method receives multiple image processing instruction sets. The method, for each received image processing instruction set, produces several image processing instruction sets, where two different produced image processing instruction sets that are associated with a same received image processing instruction set are for processing by at least two different processing units. | 12-30-2010 |
20100328327 | Multi-platform Optimization Techniques for Image-Processing Operations - An automated method of rendering image data using a multithread central processing unit (“CPU”) is described. The method retrieves a set of image processing instructions. The method determines an image section size to be processed by the CPU using the set of image processing instructions. The method iteratively: (i) retrieves a section of the image data that matches the image section size, and (ii) sends the section of the image data to a particular thread of the multithread CPU for processing using the processing instructions. | 12-30-2010 |
20100329564 | Automatic Generation and Use of Region of Interest and Domain of Definition Functions - An automated method of generating sets of image processing instructions that identifies a region of picture elements for processing and a region of picture elements to be produced is described. The method receives a first set of image processing instructions for performing a transform operation, and, for the first set of image processing instructions, produces a second set of image processing instructions that identify a region of picture elements for processing from an input image and a third set of image processing instructions that identify a region of picture elements to be produced in an output image. The method associates the second and third sets of image processing instructions with the first set of image processing instructions, the association allowing the execution of the second and third sets of image processing instructions at run-time to facilitate the execution of the first set of image processing instructions. | 12-30-2010 |
20140306975 | MULTI-PLATFORM IMAGE PROCESSING FRAMEWORK - A method for compiling image processing instructions is described. The method receives multiple image processing instruction sets. The method, for each received image processing instruction set, produces several image processing instruction sets, where two different produced image processing instruction sets that are associated with a same received image processing instruction set are for processing by at least two different processing units. | 10-16-2014 |
Patent application number | Description | Published |
20100328325 | Fingerprinting of Fragment Shaders and Use of Same to Perform Shader Concatenation - An automated method of quantifying a set of processing resources used by an image transform operation is described. The method receives a set of image processing instructions for performing the transform operation, and, for the set of image processing instructions, generates data that estimates the amount of processing resources required to perform the set of image processing instructions. The method associates the data with the set of image processing instructions, the association allowing evaluation of the data at run-time to facilitate execution of the set of image processing instructions on a particular processing unit having a particular set of processing resources. In addition, an automated method of concatenating a plurality of image processing instruction sets, where each image processing instruction set includes data representing an estimate of processing resources required by the image processing instruction set is described. | 12-30-2010 |
20100328326 | Multi-platform Image Processing Framework - A method for compiling image processing instructions is described. The method receives multiple image processing instruction sets. The method, for each received image processing instruction set, produces several image processing instruction sets, where two different produced image processing instruction sets that are associated with a same received image processing instruction set are for processing by at least two different processing units. | 12-30-2010 |
20100328327 | Multi-platform Optimization Techniques for Image-Processing Operations - An automated method of rendering image data using a multithread central processing unit (“CPU”) is described. The method retrieves a set of image processing instructions. The method determines an image section size to be processed by the CPU using the set of image processing instructions. The method iteratively: (i) retrieves a section of the image data that matches the image section size, and (ii) sends the section of the image data to a particular thread of the multithread CPU for processing using the processing instructions. | 12-30-2010 |
20100329564 | Automatic Generation and Use of Region of Interest and Domain of Definition Functions - An automated method of generating sets of image processing instructions that identifies a region of picture elements for processing and a region of picture elements to be produced is described. The method receives a first set of image processing instructions for performing a transform operation, and, for the first set of image processing instructions, produces a second set of image processing instructions that identify a region of picture elements for processing from an input image and a third set of image processing instructions that identify a region of picture elements to be produced in an output image. The method associates the second and third sets of image processing instructions with the first set of image processing instructions, the association allowing the execution of the second and third sets of image processing instructions at run-time to facilitate the execution of the first set of image processing instructions. | 12-30-2010 |