Artak
Artak Amirbekyan, Brisbane AU
Patent application number | Description | Published |
---|---|---|
20130268349 | METHOD AND SYSTEM OF OPTIMIZING A MARKETING CAMPAIGN OF A SALABLE COMMODITY - Embodiments of the present invention may allow selling agents to create a marketing campaign analysis, and associated marketing campaign recommendations, for a prospective seller of a saleable in an interactive fashion with the prospective seller. Embodiments of the present invention may utilize historical marketing and/or sales data for comparable properties (that have either been sold or for which sale has, or is currently, being attempted) in order to identify successful advertising campaigns. The relative ‘success’ of an advertising campaign can be determined by reference to certain predefined performance metrics. Based upon the results of these performance metrics (which can be customized to meet a seller's desired selling strategy), embodiments of the present invention may allow a selling agent to present the seller with one or more optimized marketing campaigns, from which a final marketing campaign can be selected for the listing of the subject property. | 10-10-2013 |
Artak Isoyan, Hillsboro, OR US
Patent application number | Description | Published |
---|---|---|
20110224963 | Fast Photolithography Process Simulation to Predict Remaining Resist Thickness - A lithography model uses a transfer function to map exposure energy dose to the thickness of remaining photoresist after development; while allowing the flexibility to account for other physical processes. In one approach, the model is generated by fitting empirical data. The model may be used in conjunction with an aerial image to obtain a three-dimensional profile of the remaining photoresist thickness after the development process. The lithography model is generally compact, yet capable of taking into account various physical processes associated with the photoresist exposure and/or development process for more accurate simulation. | 09-15-2011 |
Artak Isoyan, Beaverton, OR US
Patent application number | Description | Published |
---|---|---|
20140023973 | EXTREME ULTRAVIOLET/SOFT X-RAY LASER NANO-SCALE PATTERNING USING THE DEMAGNIFIED TALBOT EFFECT - An apparatus and method for nanopatterning of substrates using the demagnified Talbot effect, wherein: (a) large arrays of nanostructures can rapidly be printed; (b) short extreme ultraviolet wavelengths permits sub-100 nm spatial resolution; (c) the de-magnification factor can be continuously adjusted, that is, continuously scaled; (d) the patterning is the effect of the collective diffraction of numerous tiled units that constitute the periodic array, giving rise to error resistance such that a defect in one unit is averaged over the area of the mask and the print does not show any defects; (e) the Talbot mask does not wear out since the method is non-contact; and (f) the feature sizes on the mask do not have to be as small as the feature sizes desired on the target, are described. The apparatus includes a source of coherent radiation having a chosen wavelength directed onto a focusing optic, the reflected converging light passing through a Talbot mask and impinging on a target substrate. | 01-23-2014 |
20140075398 | Method and Apparatus for Process Window Modeling - A photolithographic modeling process is disclosed. Optical and non-optical parts of a model of the photolithographic process are calibrated. With the non-optical part of the model one or more model corrections are determined between (i) modeled critical dimension data from an aerial image generated by the optical part of the model, and (ii) empirical critical dimension data from tangible structures made at only a first process combination of a first dose and a first defocus in the photolithographic process. Critical dimension data of the photolithographic process are predicted at a second process combination of a second dose and a second defocus in the photolithographic process. | 03-13-2014 |
20140244226 | COMPACT OPC MODEL GENERATION USING VIRTUAL DATA - A method, system or computer usable program product for building a fast lithography OPC model that predicts semiconductor manufacturing process outputs on silicon wafers including providing a first principles model of the semiconductor manufacturing process, providing a set of empirical data for storage in memory, utilizing a processor to develop a rigorous model for a process condition from the first principles model and the set of empirical data, and utilizing the processor running the rigorous model to generate emulated data for the process condition to develop a virtual model for predicting the semiconductor manufacturing process outputs. | 08-28-2014 |
20140257544 | METHOD AND APPARATUS FOR PROCESS WINDOW MODELING - A photolithographic modeling process is disclosed. Optical and non-optical parts of a model of the photolithographic process are calibrated. With the non-optical part of the model one or more model corrections are determined between (i) modeled critical dimension data from an aerial image generated by the optical part of the model, and (ii) empirical critical dimension data from tangible structures made at only a first process combination of a first dose and a first defocus in the photolithographic process. Critical dimension data of the photolithographic process are predicted at a second process combination of a second dose and a second defocus in the photolithographic process. | 09-11-2014 |
Artak Ter-Hovhanissian, Glendale, CA US
Patent application number | Description | Published |
---|---|---|
20130082600 | LED LIGHT BULB WITH INTEGRATED HEAT SINK - An LED lamp includes a lamp housing including an aluminum alloy substantially free of silicone. An electrical circuit trace is disposed on the lamp housing. An LED is attached directly to the lamp housing and electrically connected to the electrical circuit trace. LED driver circuitry is electrically connected to the electrical circuit trace. A housing contains the LED driver circuitry. A threaded incandescent light-type electrical plug may be configured for reception into a standard incandescent light-type socket. The LED driver circuitry is electrically disposed between the electrical plug and the LED. The lamp housing may include a generally frusto-conical shape. A solder mask may be affixed over at least a portion of the electrical circuit trace. The lamp housing may be press formed. The lamp housing is in direct thermal conductive relation to the LED such that heat energy is dissipated from the LED directly to the lamp housing. | 04-04-2013 |
Artak Ter-Hovhannissian, Glendale, CA US
Patent application number | Description | Published |
---|---|---|
20100240158 | LED LIGHTING WITH INTEGRATED HEAT SINK AND PROCESS FOR MANUFACTURING SAME - A method for manufacturing an LED lamp assembly includes anodizing at least a portion of a surface of an electrically and thermally conductive base, such as an aluminum or aluminum alloy base, so as to form an electrically insulating coating. The base may form a heat sink or be coupled to a heat sink. The anodized surface is chemically etched and circuit traces that include an LED landing are formed on the etched anodized surface. LEDs are electrically and mechanically attached to the LED landing by means of conductive metallic solder such that heat generated from the LED is transferred efficiently through the solder and LED landing to the base and heat sink through a metal-to-metal contact pathway. | 09-23-2010 |
20140184075 | OUTDOOR LED LAMP WITH HEATED COVER - An outdoor LED lamp assembly includes a light transmissive cover disposed over at least one LED chip of the lamp assembly. A heating element is provided for providing heat to the cover. A sensor may be used to detect cover conditions, such as the accumulation of condensation, ice or snow on the cover, so as to provide electricity to the heating element and heat the cover in order to remove the condensation, ice or snow on the cover. | 07-03-2014 |