Abstract: A method for informing a user of the status of a computer operation having multiple concurrent tasks, comprising maintaining multiple variables, wherein each one of said multiple variables represents the progress of a corresponding one of said multiple tasks; comparing said multiple variables to determine a superior variable, wherein said superior variable is selected based upon at least one predetermined performance criterion; and outputting said superior variable at least once during said computer operation.

Abstract: A method is provided for ferroelectric layer testing. An adhesion layer is deposited over a semiconductor substrate to be of a phase pure material lacking a first material. A lower electrode is deposited over the adhesion layer and a ferroelectric layer is deposited over the lower electrode. The ferroelectic layer contains the first material. The ferroelectric layer is x-rayed and the x-ray fluorescence from the ferroelectric layer is detected for characterizing the ferroelectric layer.

Abstract: A multi dynode device (MDD) for electron multiplication and detection and a hybrid detector using the MDD have high peak signal output currents and large dynamic range while preserving the time-dependent information of the input event and avoiding the generation of significant distortions or artifacts on the output signal. The MDD and hybrid detector overcome saturation problems observed in conventional hybrid detectors by providing a unique electron multiplier portion that avoids the path-length differences. The MDD and hybrid detector can be used in mass spectrometry, in particular, time-of-flight mass spectrometry. The MDD comprises a plurality of dynode plates arranged in a stacked configuration. Each dynode plate in the stack has a plurality of apertures for cascading secondary electrons through the stack. Each aperture comprises a mechanical bias or offset with respect to the apertures in adjacent plates. The offset is such that the electrons will impact with one or more of the dynode plates.

Abstract: An optical system for imaging an input beam from an input to an output beam at an output. The system includes a lens adapted for receiving the input beam from the input, and a reflecting device adapted for reflecting the input beam from the lens back to the lens. The lens is adapted for converging the beam reflected by the reflecting device to the output. The input and the output are both located substantially in the focal plane of the lens and off axis, with respect to the optical axis of the lens, on opposing sides from the optical axis of the lens. The reflecting device is located on a side opposite, with respect to the principal plane of the lens, to the side of the input and the output.

Abstract: A package for an optical assembly of a type that uses bulk optics in an optical path will require environmental protection from contaminants. It is common to construct a substantially hermetically sealed package to provide environmental protection for the optical assembly but such hermetically sealed packages are expensive to construct and are not completely reliable. Consequently, a package is provided for an optical assembly with the bulk optics encapsulated by a silicone encapsulant and encased within an epoxy layer and supported by a substrate base. The package for the optical assembly thus provides the bulk optics with the required environmental protection from contaminants.

Abstract: A programmable optical waveguide cross-connection array including a supporting substrate, one or more first waveguides fixed to the supporting substrate, one or more second waveguides fixed to the supporting substrate and disposed to form one or more intersections with the first waveguides, and an optical boundary or cavity in at least one switched intersection; whereby the optical signal entering the switched intersection from a first waveguide is redirected by the cavity to exit the switched intersection by way of the second waveguide. The device embodies a network of intersecting waveguides in which cross-connections between selected waveguide pairs can be permanently programmed at low cost. The programmable optical substrate provides customized local connectivity between a plurality of optical components and may be efficiently and reliably fabricated in large quantities.

Abstract: The present invention provides novel systems for sequencing nucleic acid molecules using dNTPs that are 3′ end labeled with cleavable tags that block further extension and uniquely identify the bases to which they are attached. Removal of the tags liberates the 3′ ends of the extension products for further extension. In related embodiments, oligonucleotides containing sequence-related cleavable tags are employed in a ligation reaction to determine the sequence of a particular DNA sample.

Abstract: An imaging element that includes a photodiode and an amplifier for integrating photocurrent from the photodiode. The amplifier includes an input follower, a level shifter, and an output amplifier. The level shifter provides DC isolation between the follower output and the output amplifier. The input follower includes an input transistor connected to the photodiode, and the output amplifier has an input transistor connected to the level shifter. The sizes of these transistors are chosen such that the area of the input transistor in the input follower is less that the area of the input transistor in the output amplifier. The input follower preferably utilizes PMOS transistors.

Abstract: According to one embodiment of the invention, there is provided an N-port automatic calibration device comprising N-ports, wherein each port is adapted to be coupled to a port of an N-port multiport test set. The N-port automatic calibration device comprises a single-pole, N−1 throw switch having a single-pole coupled to a first port of the automatic calibration device and having each throw of the N−1 throws coupled to a corresponding port of the automatic calibration device. In addition, the N-port automatic calibration device comprises at least one single-pole, double-throw switch, having a single-pole coupled to a second port of the N-ports of the automatic calibration device, having a first throw coupled to a first load impedance, and having a second throw coupled to a throw of the N−1 throws of the single-pole, N−1 throw switch.

Abstract: A multi-modulus prescaler with a terminal count request input, which when set causes the prescaler to produce an output pulse with edges synchronous with the input clock. The prescaler is driven by a control circuit which produces a terminal count request output which enables the prescaler to generate a terminal count output pulse whose active edge, irrespective of the divide ratio, is always a fixed number of input clock cycles before or after the end of the prescaler control cycle.

Abstract: A planar manifold that integrates all the control pneumatics, electronic pressure controls (EPC), and injector inlet onto a single plate, therefore eliminating numerous seals, fittings and transfer tubing between these devices. The planar manifold utilizes plates of specific geometry that minimizes heat transfer between the heated components and the unheated components in the planar manifold, while maintains the mechanical rigidity to support the attached components during shock and vibration. The planar manifold not only improves the reliability and manufacturability of micro gas chromatographs, but also lowers the cost of production.

Abstract: Waveform segment(s) of interest in the displayed logic analyzer trace can create the desire in an operator to re-define the trigger specification to be those segments. Those waveform segments are identified to the logic analyzer by drawing a “rubber band” box around them even as they are displayed as part of the trace. The analyzer is instructed to automatically create therefrom, by itself, the desired new trigger specification. It does this by inspecting the captured data corresponding to the contents of the box and creating a description of the associated signal(s) in terms of transitions and steady state conditions. These individual descriptions of activity are then assembled into a trigger specification according to certain rules. More than one box may be drawn. Multiple-boxes may be “stacked” to include waveform segments separated vertically by intervening waveforms for other signals that are to be excluded.

Abstract: A method, apparatus, and computer program, for fabricating multiple arrays arranged successively in a first direction on a substrate and each having multiple feature sets arranged successively in the first direction within the array. The method uses a head system having multiple successive sets of dispensers. In the method, the head system is advanced in the first direction over the substrate while dispensing drop sets for each array from dispenser sets so as to form the arrays. In one aspect, drop sets are dispensed in an order the reverse of that from which the dispenser sets pass over a given location on the substrate as the head system advances in the first direction. In this case, each dispenser set deposits a drop set at a distance ahead of a drop set deposited by a preceding dispenser set which is less than the distance to the successive drop dispenser set which deposits the next drop set.

Abstract: A microanalytical device is provided for conducting chemical processes using small amounts of fluid. The devices include microstructures, e.g., microcavities, microchannels and the like, that are laser ablated or otherwise formed in a support substrate, and can be used in a variety of chemical and biochemical methods, including chromatographic, electrophoretic and electrochromatographic separations, screening and diagnostics, and chemical and biochemical synthesis. The devices are formed from a material that is thermally and chemically stable and resistant to biofouling, significantly reducing electroosmotic flow and unwanted adsorption of solute. Preferred materials are polymeric.

Abstract: The sampling element comprises a DC sampling voltage source, a threshold sampling circuit and a photoconductive switching element. The threshold sampling circuit includes a signal-under-test input, a sampling pulse input and an IF signal output, and has a sampling threshold with respect to sampling pulses received at the sampling pulse input. The photoconductive switching element is connected between the DC sampling voltage source and the sampling pulse input of the threshold sampling circuit. The sampling device comprises a DC sampling voltage source, a threshold sampling circuit, a photoconductive switching element and a light source. The threshold sampling circuit includes a signal-under-test input, a sampling pulse input and an IF signal output, and has a sampling threshold with respect to sampling pulses received at the sampling pulse input. The photoconductive switching element is connected between the DC sampling voltage source and the sampling pulse input of the threshold sampling circuit.

Abstract: Programmable circuit blocks and programmable interconnection blocks are utilized to effectively modify the functionality of a section of the IC. The use of a fixed ion beam machine or similar device is unnecessary, allowing functional modifications of the IC by way of electrically programming the device. As a result, the IC designer is not limited in the number of ICs that may be modified, which facilitates faster testing of IC design changes. Also, an IC may be modified multiple times by simply reprogramming the device.

Abstract: An extended wavelength range light source for an optical instrument includes wavelength-tunable optical sources that generate optical signals, each of the optical sources having a distinct wavelength-tunable range which differs from the wavelength-tunable ranges of the other optical sources. A switch connected to each of the optical sources is configured to select any one of the optical sources.

Abstract: A single longitudinal mode laser, such as a distributed feedback laser, that comprises a filter. The filter selectively attenuates wavelengths that are lower than the wavelength of the laser's dominant mode, such that when operating at extremes of temperature, the power of the gain peak does not become too great relative to the dominant mode of the laser.

Abstract: A method and apparatus is provided for connecting an optical source to a multimode optical fibre in a multimode optical fibre communications system. A single mode fibre length is provided such that optical radiation admitted from an optical source at one end of the single mode fibre length is provided to a multimode optical fibre at the other end of the single mode fibre length. This method and apparatus is used in a duplex patchcord for connecting an optical transceiver to a pair of installed multimode fibres. The second fibre in the patchcord is a multimode fibre for passing optical signals to the optical receiver of the transceiver.

Abstract: A solution to problems of poor RF performance in conventional BNC connectors is to first, eliminate the use of Teflon, in favor of an air dielectric in the vicinity of the mating parts, and support the male and female center pins further back within the body of the connector, using other proven dielectric materials borrowed from the precision type N connector, or from another 7 mm RF connector. Next, a captive knurled draw nut provides positive displacement and the tension needed to draw the already mated male and female connector halves together, in place of the conventional spring tension. It is the bottoming out of the male shell inside the female shell that resists the positive displacement and the tension supplied by the knurled draw nut, ensuring that the two connector halves are actually in contact, and that the edges of shell surfaces that need to “vanish” for good operation do indeed vanish.