Patent application number | Description | Published |
20080233681 | Design of BEOL Patterns to Reduce the Stresses on Structures Below Chip Bondpads - A semiconductor structure comprising a substrate including a first layer comprising a first material having a first modulus of elasticity; a first structure comprising a conductor and formed within the substrate, the first structure having an upper surface; and a stress diverting structure proximate the first structure and within the first layer, the stress diverting structure providing a low mechanical stress region at the upper surface of the first structure when a physical load is applied to the first structure, wherein said low mechanical stress region comprises stress values below the stress values in areas not protected by the stress diverting structure. The stress diverting structure comprises a second material having a second modulus of elasticity less than the first modulus of elasticity, the second material selectively formed over the upper surface of the first structure for diverting mechanical stress created by the physical load applied to the first structure. | 09-25-2008 |
20080234997 | Design Structure for Compensating for Variances of a Buried Resistor in an Integrated Circuit - A design structure comprising elements that when processed in a computer-aided design system generates a machine-executable representation of a circuit that compensates for variances in the resistance of the buried resistor during operation of the integrated circuit using a waveform that is representative of the thermal characteristics of the buried resistor. | 09-25-2008 |
20080235639 | Method of Generating a Functional Design Structure - A method in a computer-aided design system for generating a functional design model of a circuit that compensates for changes in resistance of a buried resistor by using a waveform that is representative of the thermal characteristics of the buried resistor. | 09-25-2008 |
20080320313 | SYSTEM AND METHOD TO PROTECT COMPUTING SYSTEMS - A system and method for protecting computing systems, and more particularly a system and method which a dedicated hardware component configured to communicate with a protection program. A computer hardware subsystem includes a memory comprising content. The content is at least a list of files which have been modified within a predetermined period of time. The list of files is a subset of files of a hard drive. A dedicated hardware component is configured to track the files which have been modified and provide a location of the files to the memory. A communication link between the dedicated hardware component and a protection program provides the protection program with the subset of files of the hard drive as referenced by the memory content. | 12-25-2008 |
20080320423 | SYSTEM AND METHOD TO PROTECT COMPUTING SYSTEMS - A system and method for protecting computing systems, and more particularly a system and method which a dedicated hardware component configured to communicate with a protection program. A computer hardware subsystem includes a memory comprising content. The content is at least a list of files which have been modified within a predetermined period of time. The list of files is a subset of files of a hard drive. A dedicated hardware component is configured to track the files which have been modified and provide a location of the files to the memory. A communication link between the dedicated hardware component and a protection program provides the protection program with the subset of files of the hard drive as referenced by the memory content. The invention is also directed to a design structure on which a circuit resides. | 12-25-2008 |
20090200660 | HEATPLATES FOR HEATSINK ATTACHMENT FOR SEMICONDUCTOR CHIPS - An apparatus for heatsink attachment and a method for forming the apparatus. The apparatus includes a substrate, a semiconductor chip on top of and physically attached to the substrate, and a lid on top of the substrate. The lid includes a first thermally conductive material. The apparatus further includes a heatsink on top of the lid. The heatsink includes a second thermally conductive material. The semiconductor chip and the substrate share a common interface surface that defines a reference direction perpendicular to the common interface surface and pointing from the substrate towards the semiconductor chip. The lid is disposed between the substrate and the heatsink. The lid includes a first protruding member. The first protruding member of the lid is farther away from the substrate than a portion of the heatsink in the reference direction. | 08-13-2009 |
Patent application number | Description | Published |
20080234997 | Design Structure for Compensating for Variances of a Buried Resistor in an Integrated Circuit - A design structure comprising elements that when processed in a computer-aided design system generates a machine-executable representation of a circuit that compensates for variances in the resistance of the buried resistor during operation of the integrated circuit using a waveform that is representative of the thermal characteristics of the buried resistor. | 09-25-2008 |
20080320313 | SYSTEM AND METHOD TO PROTECT COMPUTING SYSTEMS - A system and method for protecting computing systems, and more particularly a system and method which a dedicated hardware component configured to communicate with a protection program. A computer hardware subsystem includes a memory comprising content. The content is at least a list of files which have been modified within a predetermined period of time. The list of files is a subset of files of a hard drive. A dedicated hardware component is configured to track the files which have been modified and provide a location of the files to the memory. A communication link between the dedicated hardware component and a protection program provides the protection program with the subset of files of the hard drive as referenced by the memory content. | 12-25-2008 |
20080320423 | SYSTEM AND METHOD TO PROTECT COMPUTING SYSTEMS - A system and method for protecting computing systems, and more particularly a system and method which a dedicated hardware component configured to communicate with a protection program. A computer hardware subsystem includes a memory comprising content. The content is at least a list of files which have been modified within a predetermined period of time. The list of files is a subset of files of a hard drive. A dedicated hardware component is configured to track the files which have been modified and provide a location of the files to the memory. A communication link between the dedicated hardware component and a protection program provides the protection program with the subset of files of the hard drive as referenced by the memory content. The invention is also directed to a design structure on which a circuit resides. | 12-25-2008 |
20100269166 | Method and Apparatus for Secure and Reliable Computing - In one embodiment, the invention is a method and apparatus for secure and reliable computing. One embodiment of an end-to-end security system for protecting a computing system includes a processor interface coupled to at least one of an application processor and an accelerator of the computing system, for receiving requests from the at least one of the application processor and the accelerator, a security processor integrating at least one embedded storage unit and connected to the processor interface with a tightly coupled memory unit for performing at least one of: authenticating, managing, monitoring, and processing the requests, and a data interface for communicating with a display, a network, and at least one embedded storage unit for securely holding at least one of data and programs used by the at least one of the application processor and the accelerator. | 10-21-2010 |
20130185796 | METHOD AND APPARATUS FOR SECURE AND RELIABLE COMPUTING - In one embodiment, the invention is a method and apparatus for secure and reliable computing. One embodiment of an end-to-end security system for protecting a computing system includes a processor interface coupled to at least one of an application processor and an accelerator of the computing system, for receiving requests from the at least one of the application processor and the accelerator, a security processor integrating at least one embedded storage unit and connected to the processor interface with a tightly coupled memory unit for performing at least one of: authenticating, managing, monitoring, and processing the requests, and a data interface for communicating with a display, a network, and at least one embedded storage unit for securely holding at least one of data and programs used by the at least one of the application processor and the accelerator. | 07-18-2013 |