Patent application number | Description | Published |
20090086441 | INTERFACE ASSEMBLY - A computer system comprising an interface assembly configured to support one or more I/O connections. In one variations the computer system comprises a main board housed within a chassis, a chassis connector coupled to the chassis, and one or more I/O cables coupled to the chassis connector. In another variation, the computer assembly comprises a computer rack with a plurality of connector interfaces, each of which is adapted for engaging a computer through a chassis connector with a plurality of I/O ports. | 04-02-2009 |
20090178986 | RACK MOUNTED COMPUTER SYSTEM - A rack mounted computer system. In one variation the computer rack is configured for side-by-side placement of computers. In another variation, the computer rack includes flanges for supporting the placement of computer units within the rack. In another variation the computer rack is configured with retaining clips. In yet another variation, the computer rack is configured to receive computers with chassis that are adapted for side-by-side placement. | 07-16-2009 |
20100008038 | Apparatus and Method for Reliable and Efficient Computing Based on Separating Computing Modules From Components With Moving Parts - A computing apparatus is described. In one embodiment, the apparatus includes a chassis, a plurality of computing modules fixedly mounted in the chassis, and solid state electronic components in each of the plurality of computing modules, wherein any components with moving parts are exterior to the chassis. | 01-14-2010 |
20100110628 | Apparatus and Method for Enhancing the Maintainability and Cooling of Computer Components on Trays in a Cabinet - A computer system includes a cabinet, a first port mounted on a rear panel of the cabinet, and a tray mounted in the cabinet and having computer components mounted thereon. A front panel of the tray faces outward from a front side of the cabinet opposite the rear panel. The computer system further includes a second port mounted on the front panel of the tray, and a first cable that electrically couples the first port and the second port. The first cable is routed within the cabinet and protrudes from the front side of the cabinet. The first port also remains coupled to the second port as the tray slides outwards from the front side of the cabinet so that the computer components substantially protrude from the front side of the cabinet. The first port and the second port are for at least one of electrical power and network connectivity. | 05-06-2010 |
20100172077 | Interface Assembly - A computer system comprising an interface assembly configured to support one or more I/O connections. In one variation, the computer system comprises a main board housed within a chassis, a chassis connector coupled to the chassis, and one or more I/O cables coupled to the chassis connector. In another variation, the computer assembly comprises a computer rack with a plurality of connector interfaces, each of which is adapted for engaging a computer through a chassis connector with a plurality of I/O ports. | 07-08-2010 |
20110013348 | Apparatus and Method for Power Distribution to and Cooling of Computer Components on Trays in a Cabinet - A computer system includes a cabinet, a plurality of trays located in the cabinet and having a plurality of computer components mounted thereon, a first port mounted on a rear panel of the cabinet that receives a three-phase AC input to the cabinet, a power distribution unit that converts the three-phase AC input to a plurality of AC signals each having fewer than three phases, a plurality of rectifiers, and a power distribution bus. The plurality of rectifiers convert the plurality of AC signals to DC power. The power distribution bus distributes the DC power. Each of the plurality of rectifiers is coupled to the power distribution bus. The tray receives the DC power from the power distribution bus. | 01-20-2011 |
20110133620 | RACK MOUNTED COMPUTER SYSTEM - A rack mounted computer system. In one variation the computer rack is configured for side-by-side placement of computers. In another variation, the computer rack includes flanges for supporting the placement of computer units within the rack. In another variation the computer rack is configured with retaining clips. In yet another variation, the computer rack is configured to receive computers with chassis that are adapted for side-by-side placement. | 06-09-2011 |
20140146462 | High Density Storage Applicance - A high-density storage appliance comprises a printed circuit board (PCB) to which a plurality of solid state drives (SSDs) are coupled. Each of the SSDs has a connector positioned along a width of the SSD, which is shorter than a height of the SSD. Further, each SSD is coupled to the PCB such that an aspect ratio of a height of the SSD above the PCB to a width of the SSD in parallel to the PCB is greater than 1.0. The SSDs may be arranged in a plurality of rows and a plurality of columns to simplify installation and removal of the SSDs and to facilitate airflow about the SSDs for cooling. | 05-29-2014 |
20140164669 | DISAGGREGATION OF SERVER COMPONENTS IN A DATA CENTER - In a data center, components of a server are located on a different circuit board than the processor. For example, components such as a network interface controller, storage devices, power supply, and memory are located on one or more circuit boards different than the circuit board on which the processor is located. Having server components on different circuit boards allows the components to be updated on different schedules, reducing resource consumption caused from tying component updates to processor updates. Locating server components on separate server boards also allows virtualization of server components included in a server rack. | 06-12-2014 |
20140269614 | Portable Platform for Networked Computing - In one embodiment, a portable, networked, computing device comprises a processor, a plurality of radios, and a memory. The device may be operable to pair, by at least one of the radios, with a device associated with a user. The device may then monitor, by one of the radios, a signal for a connection established with a first network. When the device determines that the signal for the first network has dropped below a threshold level of quality, it may enable access point mode for at least one of the paired devices by turning on a radio to establish a connection with a second network and thereby providing connectivity to the second network for the at least one of the paired devices. If multiple networks are available, the device may select an optimal network based on an assessment of one or more factors. | 09-18-2014 |
20140280985 | Portable Platform for Networked Computing - In one embodiment, a portable, networked, computing device comprises a processor, a plurality of radios, and a memory. The device may be operable to pair, by at least one of the radios, with a device associated with a user. The device may then monitor, by one of the radios, a signal for a connection established with a first network. When the device determines that the signal for the first network has dropped below a threshold level of quality, it may enable access point mode for at least one of the paired devices by turning on a radio to establish a connection with a second network and thereby providing connectivity to the second network for the at least one of the paired devices. If multiple networks are available, the device may select an optimal network based on an assessment of one or more factors. | 09-18-2014 |
20140282967 | Portable Platform for Networked Computing - In one embodiment, a portable, networked, computing device comprises a processor, a plurality of radios, and a memory. The device may be operable to pair, by at least one of the radios, with a device associated with a user. The device may then monitor, by one of the radios, a signal for a connection established with a first network. When the device determines that the signal for the first network has dropped below a threshold level of quality, it may enable access point mode for at least one of the paired devices by turning on a radio to establish a connection with a second network and thereby providing connectivity to the second network for the at least one of the paired devices. If multiple networks are available, the device may select an optimal network based on an assessment of one or more factors. | 09-18-2014 |
20150079961 | TECHNIQUES FOR PHONE NUMBER AND DATA MANAGEMENT - Techniques for phone number and data management are described. A storage module may be configured to store contact information for a plurality of users, which may be members of a social network. A server device may be configured to receive a SIM change event from a mobile device associated with a first user of the plurality of users. The SIM change event may include updated contact information for the first user. The server may further be configured to identify one or more users from the plurality of users associated with the first user, and provide the updated contact information to one or more mobile devices associated with the one or more identified users. | 03-19-2015 |
20150081884 | TECHNIQUES FOR SMART DATA ROUTING - Techniques for smart data routing are described. A system may include a storage module configured to store network conditions for a plurality of networks and locations and a server device. The server device may be configured to determine network conditions for each of a plurality of networks and locations based upon detected usage of at least one mobile application being accessed via each of the plurality of networks and in each of the locations. Determined network conditions may be stored at the storage module. The server may be further configured to receive a request for a communication from a client device. Based upon at least the determined network conditions, the server may be configured to determine routing information for the communication. Once determined, the server may be configured to provide the routing information for the communication to the client device. | 03-19-2015 |