Jimmy R.
Jimmy R. Hill, Hutto, TX US
Patent application number | Description | Published |
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20140280666 | REMOTE DIRECT MEMORY ACCESS ACCELERATION VIA HARDWARE CONTEXT IN NON-NATIVE APPLCIATIONS - Provided are techniques generating a data structure, wherein the data structure specifies both a specified size of a memory space to allocate within an application and a virtual address within the application to locate a data path transmission queue; including within a verb for allocating the data path transmission queue the defined data structure; in response to a call of the verb, allocate, within the application, the data path transmission queue of the specified size and at the virtual location; in response to a request to transmit control data, employ a remote direct memory access (RDMA) transmission path; and, in response to a request to transmit data, employ the data path transmission queue rather than an RDMA transmission path. | 09-18-2014 |
Jimmy R. Parchment, St. Charles, IL US
Patent application number | Description | Published |
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20090019801 | METHOD AND APPARATUS FOR CREATING AN IMAGE ON AN ARTICLE, AND ARTICLE RESULTING THEREFROM - The present invention is directed to a method of printing an image on an object, such as a door facing or a door. An object having an exterior surface is provided. A first image component is printed on the exterior surface. A first transparent coat is applied on the exterior surface so as to cover the first image component. A second image component is printed on the first transparent coat. Optionally, a second transparent coat is applied to the first transparent coat and second image component so as to cover the first and second image components. The resulting object, such as a door, having the printed image thereon is also disclosed. | 01-22-2009 |
20130236643 | METHOD AND APPARATUS FOR CREATING AN IMAGE ON AN ARTICLE, AND ARTICLE RESULTING THEREFROM - The present invention is directed to a method of printing an image on an object, such as a door facing or a door. An object having an exterior surface is provided. A first image component is printed on the exterior surface. A first transparent coat is applied on the exterior surface so as to cover the first image component. A second image component is printed on the first transparent coat. Optionally, a second transparent coat is applied to the first transparent coat and second image component so as to cover the first and second image components. The resulting object, such as a door, having the printed image thereon is also disclosed. | 09-12-2013 |
Jimmy R. Ramsey, Jr., Peachtree City, GA US
Patent application number | Description | Published |
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20140259358 | BATH WITH FLOWING WATER - A water bath apparatus for producing a generally unidirectional or non-centric, gentle and/or relaxing water flow within a tub about a user's body without noticeable or significant vibration and/or noise, including a water flow that is directed away from, or at least not towards, the center of the tub, such as a generally unidirectional or non-centric water flow along or across the tub so as to provide or emulate a flowing stream of water along the body of the user. Specifically placed water inlet ports and water outlet ports provide for the generally unidirectional or non-centric water flow. | 09-18-2014 |
Jimmy R. Spurlin, Jr., Taylorsville, NC US
Patent application number | Description | Published |
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20100329615 | CABLE WITH FEATURES FOR DISTINGUISHING BETWEEN FIBER GROUPS - Micromodule subunit cables are constructed to allow for ease of identification between optical fibers in differing groups of optical fibers. In one cable, a first group of fibers is located within a buffer tube core while a second group of fibers is located within the cable jacket, but outside of the core. The fibers in the first and second groups can accordingly use the same color coding sequence without requiring additional indicia such as stripes or binding. | 12-30-2010 |
20140093216 | CABLE WITH FEATURES FOR DISTINGUISHING BETWEEN FIBER GROUPS - Micromodule subunit cables are constructed to allow for ease of identification between optical fibers in differing groups of optical fibers. In one cable, a first group of fibers is located within a buffer tube core while a second group of fibers is located within the cable jacket, but outside of the core. The fibers in the first and second groups can accordingly use the same color coding sequence without requiring additional indicia such as stripes or binding. | 04-03-2014 |