Abstract: A method of routing an integrated circuit signal bus is provided. One of a set of blocks having ports that are to be connected to the signal bus is selected as a primary block, the ports of which are positioned so that no two ports of that block lie within the same routing track parallel to the closest portion of a primary bus route. All other blocks, termed secondary blocks, have ports that are positioned so that no two ports of any secondary block reside within the same routing track perpendicular to the closest portion of the primary bus route. A primary connection for each signal of the signal bus is then placed over each port of the primary block substantially along the length of the primary route. Each port of each secondary block then has a secondary track connecting it in a perpendicular fashion to the proper primary track.

Abstract: A polarization control system includes a beam source that generates a first beam component containing light with a first polarization and a first frequency and a second beam component containing light with a second polarization and a second frequency. A polarization state modulator adjusts the polarizations of the components for transmission on a single optical fiber. A detector system measures polarizations of the components when output from the optical fiber and determines how to adjust the polarization state modulator in order to give the first and the second components the desired output polarization states. The beam source can be implemented using a Zeeman-split laser, a laser containing a birefringent element, a pair of phase-locked lasers, and/or a variety of configurations of electro-optic or acousto-optic crystals operated to create or enhance the frequency difference between the beam components.

Abstract: A fixture assembly is presented. The fixture assembly includes a device interface assembly for mating with a device under test and a tester interface assembly for mating with the device interface assembly on one side and a tester on a second side. In the method and apparatus of the present invention, the device interface assembly includes a probe field specific to a device under test and may be changed to accommodate a different device, without changing the tester interface assembly. The tester interface assembly includes a custom electronic module and a standardized electronic module, which are both coupled to a PCB interface in the tester interface assembly. As such, both standardized and specialized test may be modified and changed without redesigning the tester interface assembly.

Abstract: In a parallel design process for ICs, plural circuit features to be evaluated are laid out while designing an IC. Plural ICs are then fabricated and packaged. For a first packaged IC, an interior circuit feature coupled to at least one of the plural circuit features to be evaluated is identified. A trimming point on the interior circuit feature is identified using an x-ray inspection system; coordinates of the trimming point are related to coordinates of a visible reference marker; and the relationship between the visible reference marker and the trimming point is used to position a cutting tool over the trimming point. The cutting tool is used to cut into the first packaged IC until the interior circuit feature has been acceptably modified at the trimming point. Operation of the first packaged IC is compared to operation of a second packaged IC. Other parallel design processes are also disclosed.

Abstract: Noise power is measured within one or more designated frequency bands of an applied signal. The measurement includes frequency translating the applied signal by a set of equally spaced frequencies to form a corresponding set of intermediate frequency signals, measuring the noise in at least two measurement bands of each of the intermediate frequency signals that are separated by the frequency spacing of the equally spaced frequencies, and determining the noise power in the designated frequency band of the applied signal based on the noise measurements.

Abstract: By making combined interferometric and polarimetric measurements on a device under test, the relative phase uncertainty in device characterizations performed with a polarimeter or polarization analyzer alone is removed. This allows determination of the group delay to within a constant offset and the chromatic dispersion of the device under test.

Abstract: A method for the acquisition of burst synchronization signals in a spread spectrum communication system is provided. The method receives a burst synchronization signal, applies a dwelling procedure according to a scheduling scheme to the burst synchronization signal, wherein the dwelling procedure calculates a matched filter output, sums the outputs over one slot time, calculates the energy in the sum, searches the maximum energy value and passes it to a Random Access Memory. At the end of the scheduling scheme, searching is performed for the overall maximum energy value among the energy values stored in the Random Access Memory.

Abstract: Devices and methods are disclosed for containing and processing samples on the surface of supports. Biopolymer features are attached to the surfaces of the supports. A device in accordance with the invention comprises a housing and a support confined by the housing. The housing comprises a well having walls and at least one wall extending from the edge of the well. The height of the walls of the well is at least great enough, and the design of the at least one wall is such, that liquid contained in the well is not drawn out of the well to any substantial degree by surface tension or small movements or small mechanical vibrations. In one embodiment, the at least one wall is designed such that corners thereof are curved or are distant from the edge of the well to substantially eliminate wicking of liquid from the well. Also disclosed are methods for mixing materials on the surface of a support. A sample is incubated with the surface of the support of the aforementioned device.

Abstract: A method is described for removing residue from a fluid deposited on the interior surface of an inkjet printhead after the printhead has contained or dispensed the fluid at least once. The method makes use of a reverse flushing technique optionally used in combination with sonication. A cleaning station for flushing an inkjet printhead with a wash fluid, rinse fluid, and/or inert gas is provided as well.

Abstract: Systems and methods for implementing user input are provided. One such method includes: receiving a first user input provided via a first component of a pointing device, moving a cursor displayed on a display device responsive to the first user input, receiving a second user input provided by rotating a second component of the pointing device, and modifying an item corresponding to a current location of the cursor.

Abstract: A dynamic photolithography system resizes a pattern in real time and photolithographically transfers an image of the resized pattern onto a surface to compensate for distortions in the surface and/or optics. The system uses two or more pre-stored spatially offset renderings of the pattern. Each spatially offset rendering includes pixel data identifying light modulation elements within a spatial light modulator representing the pattern. The pattern is spatially offset between the renderings. Portions of the two or more spatially offset renderings are selected as a function of the distortion to resize the pattern and photolithographically transfer the image of the resized pattern onto the surface.

Abstract: Systems and methods for scheduling circuit assemblies for inspection in an electronics manufacturing environment are provided. One embodiment comprises an interactive system for scheduling circuit assemblies for inspection. Briefly described, one such system comprises: a data structure residing in memory and comprising a plurality of data elements that define the order in which a plurality of circuit assemblies are scheduled to be inspected, each data element comprising a reference to one of the plurality of circuit assemblies; logic configured to control the manner in which the plurality of circuit assemblies are scheduled for inspection based on the data structure; and logic configured to enable a user to modify the data structure.

Abstract: A method and circuit is presented for generating a random bit stream based on thermal noise of a Complementary Metal Oxide Semiconductor (CMOS) device. A circuit implementing the invention preferably includes at least a pair of identically implemented thermal noise generators whose outputs feed a differential amplifier. The differential amplifier measures and amplifies the difference between the noise signals. A sampling circuit compares the difference with a threshold value that is selected to track with process/voltage/temperature variations of the noise generator circuits to output a binary bit having a bit value determined according to the polarity of the noise difference signal relative to the threshold value. The sampling circuit may be clocked to generate a random bit stream.

Abstract: Non-contact fluid deposition devices having multiple axis printhead adjusters are provided. The subject printhead adjusters are made up of a single rigid frame that holds at least one printhead housing, where in certain embodiments multiple printhead housings, e.g., two, are held in side-by-side configuration in the single rigid frame of the adjuster. Each housing is adjusted in said adjuster by its own set of axis adjustment elements, where the set includes a rotational axis adjustment element for each horizontal and/or vertical axis adjustment element that is present. In using the subject devices, a printhead present in the adjuster is loaded with a volume of fluid, which in many embodiments is a fluid that includes a biopolymer or precursor thereof. The loaded printhead is then placed in opposing relation to a surface of a substrate and actuated to deposit a volume of fluid on the substrate.

Abstract: A method and system for extracting data signals from a scanned image resulting from optical, radiometric, or other types of analysis of a molecular array. The positions of corner features are first located. Then, an initial feature coordinate grid is determined from the positions of the corner features. A refined feature coordinate grid is then calculated based on the positions of strong features, and is used to identify the positions of weak features and the positions of the local background regions surrounding all features. Finally, signal intensity values are extracted from the features and their respective local background regions in the scanned image, and background-subtracted signal intensity values, background-subtracted and normalized signal intensity ratios, and variability information and confidence intervals are determined based on the extracted values.

Abstract: A current-to-voltage converting apparatus connected to an element or a circuit having a first terminal connected to a signal source and comprising a feedback amplifier, which is connected to a second terminal of the element or the circuit and keeps the second terminal at virtual ground, and which converts the current signals that flow to the element or the circuit to voltage signals and outputs these signals; a device for opening the feedback loop of the feedback amplifier and measuring the open-loop loss of the feedback loop; and a compensating amplifier, which compensates for the open-loop loss. It further comprises a device for measuring the open-loop phase shift of the feedback loop when the feedback loop is open and a control unit for keeping the open-loop phase shift at a pre-determined value.

Abstract: A method of enhancing wavelength tuning performance in an external cavity laser includes providing a diffractive focusing element, emitting light into the cavity of the laser at a range of angles relative to an optical axis of the cavity, and diffractively focusing the light back onto the optical axis at a wavelength-dependent focal distance using the diffractive focusing element. The method further includes confining the diffractive focusing to a high dispersivity portion of the diffractive focusing element. In various embodiments, the confining may include offsetting the diffractive focusing element radially relative to the optical axis, or selectively blocking a portion of the light emitted into the cavity at emission angles less than a threshold emission angle.

Abstract: A system and method for application control in measurement devices is disclosed. The method includes installing a new application using the device's graphical user interface, extending the device's menu system for the new application, launching the new application using the device's extended menu system, and controlling the device using the new application through a remote control mechanism of the device. A system of application control in a measurement device is also disclosed.

Abstract: A method of manufacturing a flow cell with a cell housing having a bore for the passage of sample, and with an inner layer of a totally reflecting polymer material for guiding radiation through the bore for the analysis of the sample, comprises the steps of: a) providing a tube of the polymer material in the bore of the cell housing, and b) applying a force on the walls of the tube from the interior of the tube for pressing the walls of the tube against the cell housing. The force may be applied by any suitable means, for example by drawing a mandrel through the interior of the tube, or by using pressurized gas or liquid. The resulting flow cell has a smooth inner surface with improved optical properties.

Abstract: A novel output driver for an integrated circuit, and method for controlling the slew rate of output signals driven by the output driver, is presented. The output driver employs a delayed activation of a succession of weak impedance zip legs followed by a preferably delayed activation of a succession of strong impedance drive legs. During a transition of an output signal on an output node of the driver from a first drive state to a second drive state, each zip leg, in its turn, turns off driving the output node to the first drive state and then turns on driving the output node to the second drive state. Once all zip legs have been activated, the activation of the succession of strong drive legs supplements the combined current provided by the zip legs to provide the full required drive current of the driver driving the output node to the second drive state.