Patent application number | Description | Published |
20080211530 | INTEGRATED CIRCUIT TESTING METHODS USING WELL BIAS MODIFICATION - Methods for testing a semiconductor circuit ( | 09-04-2008 |
20080211531 | INTEGRATED CIRCUIT TESTING METHODS USING WELL BIAS MODIFICATION - Methods for testing a semiconductor circuit ( | 09-04-2008 |
20080284459 | Testing Using Independently Controllable Voltage Islands - A voltage island architecture wherein the source voltage of each voltage island can be independently turned on/off or adjusted during a scan-based test. The architecture includes a plurality of voltage islands, each powered by a respective island source voltage, and a testing circuit, coupled to the voltage islands, and powered by a global source voltage that is always on during test, wherein each island source voltage may be independently controlled during test. | 11-20-2008 |
20090094565 | METHOD AND DEVICE FOR SELECTIVELY ADDING TIMING MARGIN IN AN INTEGRATED CIRCUIT - A method, system, and integrated circuit including selectively added timing margin. The method, for integrating statistical timing and automatic test pattern generation (ATPG) to selectively add timing margin in an integrated circuit, includes identifying, while a chip is in design, paths that are unable to be robustly tested “at speed” during manufacturing test, running statistical timing to calculate a margin to be applied to the paths, updating design specifications for margin to be applied to the paths, and optimizing chip logic based on updated design specifications. | 04-09-2009 |
20090113358 | MECHANISM FOR DETECTION AND COMPENSATION OF NBTI INDUCED THRESHOLD DEGRADATION - The embodiments of the invention provide a design structure for detection and compensation of negative bias temperature instability (NBTI) induced threshold degradation. A semiconductor device is provided comprising at least one stress device having a voltage applied to its gate node and at least one reference device having a zero gate-to-source voltage. A controller is also provided to configure node voltages of the device and/or the reference device to reflect different regions of device operations found in digital and analog circuit applications. Moreover, the controller measures a difference in current between the stress device and the reference device to determine whether NBTI induced threshold degradation has occurred in the stress device. The controller also adjusts an output power supply voltage of the stress device until a performance of the stress device matches a performance of the reference device to account for the NBTI induced threshold degradation. | 04-30-2009 |
20090119625 | Structure for System Architectures for and Methods of Scheduling On-Chip and Across-Chip Noise Events in an Integrated Circuit - A design structure integrated circuit (IC) system architectures that allow for the reduction of on-chip or across-chip transient noise budgets by providing a means to avoid simultaneous high current demand events from at least two functional logic blocks, i.e., noise contributors, are disclosed. Embodiments of the IC system architectures include at least one noise event arbiter and at least two noise contributor blocks. A method of scheduling on-chip noise events to avoid simultaneous active transient noise events may include, but is not limited to: the noise event arbiter receiving simultaneously multiple requests-to-operate from multiple noise contributors; the noise event arbiter determining when each noise contributor may execute operations based on a pre-established dI/dt budget; and the noise event arbiter notifying each noise contributor as to when permission is granted to execute its operations. | 05-07-2009 |
20090150726 | METHOD AND SYSTEM FOR EXTENDING THE USEFUL LIFE OF ANOTHER SYSTEM - Disclosed are embodiments of a method and an associated first system for extending product life of a second system in the presence of phenomena that cause the exhibition of both performance degradation and recovery properties within system devices. The first system includes duplicate devices incorporated into the second system (e.g., on a shared bus). These duplicate devices are adapted to independently perform the same function within that second system. Reference signal generators, a reference signal comparator, a power controller and a state machine, working in combination, can be adapted to seamlessly switch performance of that same function within the second system between the duplicate devices based on a measurement of performance degradation to allow for device recovery. A predetermined policy accessible by the state machine dictates when and whether or not to initiate a switch. | 06-11-2009 |
20090152591 | Design Structure for an On-Demand Power Supply Current Modification System for an Integrated Circuit - A design structure for a circuit that selectively connects an integrated circuit to elements external to the integrated circuits. The circuit includes and input/output element that selectively connects an input/output pin as a function of a power requirement or a signal bandwidth requirement of the integrated circuit. The input/output element includes one or more switching devices that connect the input/output pin to an external element, such as a power supply or external signal path. The input/output element also includes one or more switching devices that connect the input/output pin to an internal element, such as a power network or internal signal line. | 06-18-2009 |
20090152594 | On-Demand Power Supply Current Modification System and Method for an Integrated Circuit - A circuit that selectively connects an integrated circuit to elements external to the integrated circuits. The circuit includes an input/output element that selectively connects an input/output pin as a function of a power requirement or a signal bandwidth requirement of the integrated circuit. The input/output element includes one or more switching devices that connect the input/output pin to an external element, such as a power supply or external signal path. The input/output element also includes one or more switching devices that connect the input/output pin to an internal element, such as a power network or internal signal line. | 06-18-2009 |
20100333058 | METHOD FOR INCREASING THE MANUFACTURING YIELD OF PROGRAMMABLE LOGIC DEVICES - A method for increasing the manufacturing yield of field programmable gate arrays (FPGAs) or other programmable logic devices (PLDs). An FPGA or other PLD is formed in several sections, each of the sections having its own power bus and input/output connections. Each section of the FPGA or other PLD is tested to identify defects in the FPGA or other PLD. The FPGA or other PLD is sorted according to whether the section has an acceptable number of defects. An assigned unique number for the FPGA or other PLD chip or part identifies it as partially good. Software for execution and configuring the FPGA or other PLD may use the unique number for programming only the identified functional sections of the FPGA or other PLD. The result is an increase in yield as partially good FPGAs or other PLDs may still be utilized. | 12-30-2010 |
20120112341 | METHOD AND DEVICE FOR SELECTIVELY ADDING TIMING MARGIN IN AN INTEGRATED CIRCUIT - A method, system, and integrated circuit including selectively added timing margin. The method, for integrating statistical timing and automatic test pattern generation (ATPG) to selectively add timing margin in an integrated circuit, includes identifying, while a chip is in design, paths that are unable to be robustly tested “at speed” during manufacturing test, running statistical timing to calculate a margin to be applied to the paths, updating design specifications for margin to be applied to the paths, and optimizing chip logic based on updated design specifications. | 05-10-2012 |
20120115256 | METHOD AND DEVICE FOR SELECTIVELY ADDING TIMING MARGIN IN AN INTEGRATED CIRCUIT - A method, system, and integrated circuit including selectively added timing margin. The method, for integrating statistical timing and automatic test pattern generation (ATPG) to selectively add timing margin in an integrated circuit, includes identifying, while a chip is in design, paths that are unable to be robustly tested “at speed” during manufacturing test, running statistical timing to calculate a margin to be applied to the paths, updating design specifications for margin to be applied to the paths, and optimizing chip logic based on updated design specifications. | 05-10-2012 |
20120124538 | METHOD AND DEVICE FOR SELECTIVELY ADDING TIMING MARGIN IN AN INTEGRATED CIRCUIT - A method, system, and integrated circuit including selectively added timing margin. The method, for integrating statistical timing and automatic test pattern generation (ATPG) to selectively add timing margin in an integrated circuit, includes identifying, while a chip is in design, paths that are unable to be robustly tested “at speed” during manufacturing test, running statistical timing to calculate a margin to be applied to the paths, updating design specifications for margin to be applied to the paths, and optimizing chip logic based on updated design specifications. | 05-17-2012 |
20150046739 | REVERSE PERFORMANCE BINNING - Various embodiments provide systems, computer program products and computer implemented methods. In some embodiments, the system includes a computer-implemented method of binning at least one integrated circuit chip, the method including determining a baseline operational voltage for the at least one integrated circuit chip, determining a total operational power threshold for the at least one integrated circuit chip, determining an initial performance characteristic for a first component of the at least one integrated circuit chip, operating the first component at a driving voltage higher than the baseline voltage to raise the initial performance characteristic of the first component to a raised performance characteristic while ensuring that operational power does not exceed the operational power threshold and assigning the at least one integrated circuit chip to a performance bin based on the raised performance characteristic. | 02-12-2015 |