Abstract: Disclosed herein are systems for shaping a glass sheet comprising a roll conveyor comprising a plurality of rollers for conveying the glass sheet along a plane; a lift jet array comprising a plurality of nozzles, one or more of the plurality of nozzles comprising a tip having a plurality of orifices; and a shaping mold located above the roll conveyor, wherein the lift jet array is positioned below the roll conveyor such that each nozzle tip is located above the centerline of the plurality of rollers. Also disclosed herein are methods for shaping a glass sheet comprising heating the glass sheet and conveying the glass sheet on a roll conveyor to a position between the lift jet array and the shaping mold, wherein gas flows from the lift jet array with a force sufficient to lift the glass sheet from the roll conveyor.

Abstract: Methods and apparatus to provide, in a cloud infrastructure environment a shared storage service with only storage, wherein the storage can be shared with other managed services. The storage is exposed to hosts with commands to the storage, networking, and compute resources.

Abstract: A method, computer program product and system enabling provisioning of a storage volume across network resources through the storage provisioning interface, wherein the storage provisioning interface enables provisioning of network resources to enable presentation of a provisioned storage volume, wherein the provisioned storage volume is enabled to be provisioned across a plurality of storage resources across the network resources, and wherein the provisioned storage volume is enabled to be a redundant distributed volume.

Abstract: A laminate structure having a first glass layer, a second glass layer, and at least one polymer interlayer intermediate the first and second glass layers. The first glass layer is comprised of a thin, chemically strengthened glass having a surface compressive stress of between about 250 MPa and about 350 MPa and a depth of layer (DOL) of compressive stress greater than about 60 ?m. The second glass layer can also be comprised of a thin, chemically strengthened glass having a surface compressive stress of between about 250 MPa and about 350 MPa and a depth of layer (DOL) of compressive stress greater than about 60 ?m.

Abstract: A laminate structure having a first glass layer, a second glass layer, and at least one polymer interlayer intermediate the first and second glass layers. The first glass layer is comprised of a thin, chemically strengthened glass having a surface compressive stress of between about 250 MPa and about 350 MPa and a depth of layer (DOL) of compressive stress greater than about 60 ?m. The second glass layer can also be comprised of a thin, chemically strengthened glass having a surface compressive stress of between about 250 MPa and about 350 MPa and a depth of layer (DOL) of compressive stress greater than about 60 ?m.

Abstract: A video encoder receives a minimum number of bits (MIN) and a maximum number of bits (MAX) to be used to encode a segment of a sequence of image frames, the segment including a set of pictures contained in the sequence of image frames. The video encoder encodes the set of pictures using a total number of bits greater than the minimum number of bits (MIN), and not exceeding the maximum number of bits (MAX). Thus, the transmission bit-rate of the video encoder can be constrained to lie within a maximum and minimum rate. In an embodiment, the constraints are enforced over relatively short time intervals.

Abstract: A system and method for bending one or more thin glass structures. The system includes heating, bending and cooling zones, each having a plurality of modules aligned and connected to each other to define elongated tunnels, wherein adjacent heating modules are separated from each other by a furnace door. A conveyance mechanism carries the one or more thin glass structures through the modules via the elongated tunnels. Each of the modules include one or more heating elements, each heating element being independently controllable by element or set of elements as a function of a temperature profile for the one or more thin glass structures. The temperature profile can be determined as a function of temperature on the one or more thin glass structures.

Abstract: Methods and apparatus to provide command abstraction. In one embodiment, a method includes obtaining information on commands for a plurality of devices including devices of the same type having different command structures, receiving a generic command from a user directed to one of the devices of the same type, determining, using a computer processor, whether the generic command is supported, extracting parameters from the generic command, and generating from the extracted parameters and the generic command a device-specific command for execution by the one of the devices of the same type.

Abstract: The principal object of this embodiment is to provide regular feedback about the packet losses from a receiver to a sender in a RTP based network, based on which the sender then decides to control its transmission rate resulting in better quality of experience (QoE) for the receiver. Another object of the embodiment is to propose a method and system to send and receive feedback using lightweight protocol packets on a periodic or on as-per-required basis in a RTP based network. A further object of the embodiment is to propose a method and system to calculate and forecast Round Trip Times (RTT) at a RTP receiver in a RTP based network using double exponential smoothing methodology to calculate packet losses in that RTT.

Abstract: Disclosed herein are systems for shaping a glass sheet comprising a roll conveyor comprising a plurality of rollers for conveying the glass sheet along a plane; a lift jet array comprising a plurality of nozzles, one or more of the plurality of nozzles comprising a tip having a plurality of orifices; and a shaping mold located above the roll conveyor, wherein the lift jet array is positioned below the roll conveyor such that each nozzle tip is located above the centerline of the plurality of rollers. Also disclosed herein are methods for shaping a glass sheet comprising heating the glass sheet and conveying the glass sheet on a roll conveyor to a position between the lift jet array and the shaping mold, wherein gas flows from the lift jet array with a force sufficient to lift the glass sheet from the roll conveyor.

Abstract: Disclosed herein are systems for shaping a glass sheet comprising a roll conveyor comprising a plurality of rollers for conveying the glass sheet along a plane; a lift jet array comprising a plurality of nozzles, one or more of the plurality of nozzles comprising a tip having a plurality of orifices; and a shaping mold located above the roll conveyor, wherein the lift jet array is positioned below the roll conveyor such that each nozzle tip is located above the centerline of the plurality of rollers. Also disclosed herein are methods for shaping a glass sheet comprising heating the glass sheet and conveying the glass sheet on a roll conveyor to a position between the lift jet array and the shaping mold, wherein gas flows from the lift jet array with a force sufficient to lift the glass sheet from the roll conveyor.

Abstract: A new laminated glass structure for automotive glazing, architectural window and other applications that includes two sheets of relatively thin, optionally chemically strengthened glass, such as Corning® Gorilla® Glass, with a composite interlayer structure that includes at least one relatively stiff layer having relatively high Young's modulus of 50 MPa or higher and a relatively softer polymer layer having a relatively low Young's modulus of 20 MPa or lower.

Abstract: A laminate structure having a first chemically strengthened glass layer, a second chemically strengthened glass layer, and a polymer interlayer structure intermediate the first and second glass layers. The polymer interlayer structure can include a first polymeric layer adjacent to the first glass layer, a second polymeric layer adjacent to the second glass layer, and a polymeric rigid core intermediate the first and second polymeric layers.

Abstract: The embodiments herein relate to software defined networking (SDN) and, more particularly, to a system and method to construct an engineering environment for API enablement in Software defined networking. The system enables the device use SDN functionality by designing an API model specific to that device. In order to design the device specific API model, an API enablement system initially leverages functionality/capabilities of the device. Further, by analyzing the leveraged device capabilities, the system designs the API model for the device. After implementing the API model on the device, the system performs a review function to ensure that the designed API model is in compliance with set rules and policies. The API model may be refined based on results of the review function.

Abstract: Methods and apparatus to create zones for ports from a storage layer to a compute layer both coupled to a storage area network switch. In one embodiment, the storage layer includes ports in field replaceable unit (FRU) port groups, the port groups in FRU adapters, and the adapters in FRU adapter groups. The ports can be selected to minimize single points of failure.

Abstract: A laminate structure having a first glass layer, a second glass layer, and at least one polymer interlayer intermediate the first and second glass layers. The first glass layer is comprised of a thin, chemically strengthened glass having a surface compressive stress of between about 250 MPa and about 350 MPa and a depth of layer (DOL) of compressive stress greater than about 60 ?m. The second glass layer can also be comprised of a thin, chemically strengthened glass having a surface compressive stress of between about 250 MPa and about 350 MPa and a depth of layer (DOL) of compressive stress greater than about 60 ?m.

Abstract: The principal object of this embodiment is to provide regular feedback about the packet losses from a receiver to a sender in a RTP based network, based on which the sender then decides to control its transmission rate resulting in better quality of experience (QoE) for the receiver. Another object of the embodiment is to propose a method and system to send and receive feedback using lightweight protocol packets on a periodic or on as-per-required basis in a RTP based network. A further object of the embodiment is to propose a method and system to calculate and forecast Round Trip Times (RTT) at a RTP receiver in a RTP based network using double exponential smoothing methodology to calculate packet losses in that RTT.

Abstract: Methods and apparatus provide for a conformable polishing head for uniformly polishing a workpiece. The polishing head includes an elastic polishing pad mounted on an elastic membrane that seals a cavity in the polishing head. The cavity is pressurized to expand the membrane and press the polishing pad down on the top surface of the workpiece, such that the polishing pad conforms to the surface and applies a substantially uniform pressure distribution across the workpiece and thereby uniformly removes material across high and low spots on the workpiece.

Abstract: Methods and apparatus provide for a conformable polishing head for uniformly polishing a workpiece. The polishing head includes an elastic polishing pad mounted on an elastic membrane that seals a cavity in the polishing head. The cavity is pressurized to expand the membrane and press the polishing pad down on the top surface of the workpiece, such that the polishing pad conforms to the surface and applies a substantially uniform pressure distribution across the workpiece and thereby uniformly removes material across high and low spots on the workpiece.

Abstract: A multi-station polish system and process for polishing thin, flat (planar) and rigid workpieces. Workpieces are conveyed through multiple polishing stations that include a bulk material removal belt polishing station and finishing rotary polishing station. The bulk of the material is relatively quickly removed at the bulk removal station using a conformable abrasive belt and the workpiece surface is then polished to the desired finish at the finishing station using a conformable annular rotary polishing pad.