| Patent application number | Description | Published |
|---|
| 20090206821 | Process variation on-chip sensor - Improved process variation sensors and techniques are disclosed, wherein both global and local variations associated with transistors on an integrated circuit can be monitored. For example, respective circuits for sensing a global process variation, a local process variation between neighboring negative-channel type transistors, and a local process variation between neighboring positive-channel type transistors are disclosed. Further, in one example, a method for sensing a process variation associated with transistors on an integrated circuit includes providing at least one process variation sensor on the integrated circuit, the process variation sensor comprising a sensing portion including one or more transistors and a loading and amplification portion including one or more transistors, and operating the one or more transistors of the sensing portion and the one or more transistors of the loading and amplification portion in a subthreshold region of transistor operation such that when a threshold voltage of at least one of the transistors changes, a process variation is sensed. | 08-20-2009 |
| 20090259321 | System and Method for Virtual Control of Laboratory Equipment - A system for virtual control of electronic laboratory equipment includes a local computer system. One or more items of electronic laboratory equipment are connected to the local computer system. Each item of electronic laboratory equipment has a physical control panel including one or more displays or controls. A virtual control panel generation unit generates a virtual control panel accessible from a remote computer system. The virtual control panel is substantially similar to the physical control panel in appearance. A command interpretation unit monitors interaction between the remote user and the virtual control panel and generates electronic laboratory equipment commands for exploiting the functionality of the electronic laboratory equipment. | 10-15-2009 |
| 20100050104 | System and Method for Automatic Instrument Address Recognition - A method for automatic instrument address recognition includes requesting a list of instruments attached to a bus, collecting the list of instruments, querying each listed instrument for an identification string, comparing the identification string of each instrument to a matching pattern, and determining a match of the identification string with an instrument of interest, and selecting an address of the instrument having the identification string matching the matching pattern and returning the address for controlling the instrument of interest. | 02-25-2010 |
| 20100080445 | Constructing Variability Maps by Correlating Off-State Leakage Emission Images to Layout Information - Improved techniques are disclosed for monitoring or sensing process variations in integrated circuit designs. Such techniques provide such improvements by constructing variability maps correlating leakage emission images to layout information. By way of example, a method for monitoring one or more manufacturing process variations associated with a device under test (e.g., integrated circuit) comprises the following steps. An emission image representing an energy emission associated with a leakage current of the device under test is obtained. The emission image is correlated with a layout of the device under test to form a cross emission image. Common structures on the cross emission image are selected and identified as regions of interest. One or more variability measures (e.g., figures of merit) are calculated based on the energy emissions associated with the regions of interest. A variability map is created based on the calculated variability measures, wherein the variability map is useable to monitor the one or more manufacturing process variations associated with the device under test. | 04-01-2010 |
| 20110026806 | Detecting Chip Alterations with Light Emission - An emission map of a circuit to be tested for alterations is obtained by measuring the physical circuit to be tested. An emission map of a reference circuit is obtained by measuring a physical reference circuit or by simulating the emissions expected from the reference circuit. The emission map of the circuit to be tested is compared with the emission map of the reference circuit, to determine presence of alterations in the circuit to be tested, as compared to the reference circuit. | 02-03-2011 |
