Prabhat
Kumar Prabhat, San Jose, CA US
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20090043840 | CENTRALIZED MANAGEMENT OF APPLICATIONS AND DESKTOP PREFERENCES WITHOUT REQUIRING CONFIGURATION OF CLIENTSIDE OPERATING SYSTEMS - A method, apparatus and system of centralized management of applications and desktop preferences without requiring configuration of client-side operating systems are disclosed. In one embodiment, a method of a rich client device includes accessing an application installed on a server, and executing the application from the rich client device without installing the application on the rich client device (e.g., that may mean that an operating system of the rich client device is not modified to perform the function calls between the application and the operating system) when requested by a user of the rich client device through a binary module (e.g., the binary module may include required resources between the application and the operating system including a file system data, a Dynamic-Link library (DLL) data, etc.) of the server that emulates a set of function calls between the application and an operating system of the rich client device. | 02-12-2009 |
Manasvini Prabhat, Newcastle GB
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20100069282 | Particles Comprising a Hueing Dye - A particle for use in a composition comprising: | 03-18-2010 |
Manasvini Prabhat, Newcastle Upon Tyne GB
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20100069283 | LAUNDRY COMPOSITION - Extruded particle comprising a hueing dye. | 03-18-2010 |
20100069284 | Laundry Composition - A particle having a hueing dye and C | 03-18-2010 |
Pranay Prabhat, Cambridge GB
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20110141837 | Voltage regulation circuitry - Voltage regulation circuitry is provided comprising a pull-up p-type threshold device connecting a supply voltage node to an output voltage node, the pull-up p-type threshold device configured to be switched off in dependence on a control signal. A pull-down stack connects the output voltage node to a reference voltage node, the pull-down stack comprising a pull-down p-type threshold device and a pull-down n-type threshold device connected in series. An inverter is configured to receive an input from the output voltage node and is configured to generate a cut-off signal, wherein the pull-down n-type threshold device is configured to be switched on in dependence on the control signal and the pull-down p-type threshold device is configured to be switched off in dependence on the cut-off signal. | 06-16-2011 |
Prashant Prabhat, Rochester, NY US
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20130308198 | GLASS BLOCK DICHROIC BEAMSPLITTERS - A dichroic beamsplitter has a composite prism that has at least first and second prism elements that are coupled together along facing surfaces, wherein the respective facing surfaces of the first and second prism elements are equidistant from each other. The composite prism has a first flat external surface that lies within a first plane, a second flat external surface that lies within a second plane that is perpendicular to the first plane, a third flat external surface that lies within a third plane that is parallel to the second plane, and a coated surface internal to the composite prism and having a multilayer thin-film dichroic beamsplitter coating, wherein the coated surface lies within a fourth plane that intersects at least one of the first, second, and third planes at an angle that is less than about 25 degrees. | 11-21-2013 |
20140049630 | DICHROIC IMAGE SPLITTER - An optical image splitter disposed in the path of image-bearing light along an optical axis has a coated dichroic surface disposed at an angle of 15 degrees or less relative to incident light along the optical axis. The coated dichroic surface has a number of layers of material, the of layers including layers having a first refractive index, n | 02-20-2014 |
20140158274 | DICHROIC FILTER CONFORMED TO OPTICAL SURFACE - A method for forming an optical element deposits a first thin film coating to form a first coated surface on a first transparent substrate that is substantially flat, wherein, for incident light at an angle of incidence exceeding 5 degrees, the first multilayer thin film coating transmits a first wavelength band and reflects a second wavelength band. The first coated surface has a first surface form, and further has a second surface opposite the first coated surface with a second surface form. The second surface of the first substrate bonds to a third surface of a second transparent substrate to form the optical element. The third surface has a third surface form prior to bonding and the first coated surface has a fourth surface form after bonding. The difference between the fourth and the third surface forms is less than the difference between the first and third surface forms. | 06-12-2014 |