Patent application number | Description | Published |
20090149167 | CONNECTED PORTFOLIO SERVICES FOR A WIRELESS COMMUNICATIONS NETWORK - Connected Portfolio Services for use in a mobile phone network include new mobile phone services: Scheduled Conference with Dial-Out and Dial-In modes of operation; Reservationless Conference; Instant Conferencing; Group Short Message Service with Reply All; Voice Short Message Service with Reply All; Family Connect; Buddy Connect; Quick Reach; and Email2Conference. Connected Portfolio Services also include a new handset client application, management of a limited pool of network routable numbers, and a prepaid billing solution. | 06-11-2009 |
20130155875 | PUSH-TO-TALK-OVER-CELLULAR (POC) - A Push-to-Talk-over Cellular (PoC) implementation for use in a wireless communications network, wherein one or more servers interface to the wireless communications network to perform the PoC call sessions. Both the servers and the mobile units that use the PoC call sessions communicate with each other using SIP/IP (Session Initiation Protocol/Internet Protocol) control messages within the wireless communications network, and one or more of the servers switches RTP/IP (Realtime Transport Protocol/Internet Protocol), RTCP/IP (Realtime Transport Control Protocol/Internet Protocol), or MBCP/IP (Media Burst Control Protocol/Internet Protocol) voice packets for the PoC call sessions between the mobile units across the wireless communications network. | 06-20-2013 |
20130196706 | WiFi INTERWORKING SOLUTIONS FOR PUSH-TO-TALK-OVER-CELLULAR (PoC) - WiFi interworking solutions for Push-To-Talk over Cellular (PoC) in the Open Mobile Alliance (OMA) Standard. | 08-01-2013 |
20150281170 | WiFi INTERWORKING SOLUTIONS FOR PUSH-TO-TALK-OVER-CELLULAR (PoC) - WiFi interworking solutions for Push-To-Talk over Cellular (PoC) in the Open Mobile Alliance (OMA) Standard. | 10-01-2015 |
Patent application number | Description | Published |
20140211637 | SYSTEM AND METHOD FOR RAPID PEER NODE FAILURE DETECTION - A system and method for rapid peer node failure detection including a network switching unit that includes a network processing unit configured to receive and forward network traffic using one or more ports, a host CPU coupled to the network processing unit and configured to manage the network processing unit, a link controller coupled to the host CPU and configured to couple the network switching unit to a peer network switching unit using a management link, and a baseboard management controller (BMC) coupled to the host CPU and the link controller. The link controller is separate and independent from the network processing unit. The BMC is configured to monitor the host CPU and the network switching unit, detect a failure in the network switching unit, and notify the peer network switching unit of the detected failure using the management link. | 07-31-2014 |
20140241147 | SYSTEM AND METHOD FOR RAPID LINK FAILURE HANDLING - A system and method for link failure handling includes detecting a failure in a first network connection between a first network switching unit and a second network switching unit, where the first network connection is associated with a first communication port of the first network switching unit; suspending the first communication port from a link aggregation group (LAG), where the first communication port is associated with the LAG; and associating one or more first inter-chassis link (ICL) ports with the LAG. The first ICL ports are associated with a first ICL coupling the first network switching unit to a third network switching unit. The first network switching unit and the third network switching unit are peers. | 08-28-2014 |
20140254604 | TECHNIQUES FOR MANAGEMENT OF DATA FORWARDING SYSTEMS WHILE SUPPRESSING LOOPS IN TELECOMMUNICATIONS NETWORKS - In a telecommunications network, loops are eliminated by deactivation of ports of data forwarding systems ( | 09-11-2014 |
20140355477 | SYSTEM AND METHOD FOR CONFIGURATION OF LINK AGGREGATION GROUPS - A system and method of configuration of link aggregation groups includes a control unit and a port coupled to the control unit and configured to couple the network switching device to a neighboring switch. The control unit is configured to transmit a probe message to the neighboring switch, receive a remote switch identifier and link aggregation group (LAG) identifier from the neighboring switch, determine whether the remote switch identifier matches a previously received remote switch identifier and the remote LAG identifier matches a previously received remote LAG identifier. When both match, determine a first LAG associated with the previously received remote switch identifier and the previously received remote LAG identifier and assign the port to the first LAG. When both do not match, to create a second LAG, assign the port to the second LAG, and associate the remote switch identifier and the remote LAG identifier with the second LAG. | 12-04-2014 |
20150271015 | SYSTEM AND METHOD FOR CONFIGURATION OF LINK AGGREGATION GROUPS - A system and method of configuration of link aggregation groups includes a control unit and a port coupled to the control unit and configured to couple the network switching device to a neighboring switch. The control unit is configured to transmit a probe message to the neighboring switch, receive a remote switch identifier and link aggregation group (LAG) identifier from the neighboring switch, determine whether the remote switch identifier matches a previously received remote switch identifier and the remote LAG identifier matches a previously received remote LAG identifier. When both match, determine a first LAG associated with the previously received remote switch identifier and the previously received remote LAG identifier and assign the port to the first LAG. When both do not match, to create a second LAG, assign the port to the second LAG, and associate the remote switch identifier and the remote LAG identifier with the second LAG. | 09-24-2015 |
Patent application number | Description | Published |
20100128660 | EFFICIENT CONTROL SIGNALING OVER SHARED COMMUNICATION CHANNELS WITH WIDE DYNAMIC RANGE - Embodiments provide methods, apparatuses, and systems for efficient control signaling over shared communication channels with wide dynamic range. Some embodiments includes a gateway configured to encode and to transmit multiple physical layer headers, including a first physical layer header and a second physical layer header. The first physical layer header may span a first length and represent a first modcode; the second physical layer header may span a second length and represent a second modcode. The second length may be longer than the first length. Embodiments may include multiple terminals in wireless communication with the gateway via satellite, including a first terminal configured to decode the first physical layer header and to determine the first modcode. Embodiments may include a second terminal configured to decode the second physical layer header and determine the second modcode. | 05-27-2010 |
20100128661 | MOBILE SATELLITE COMMUNICATION - Embodiments provide methods, systems, and apparatuses for adaptive coding, sampling, and modulating over a satellite communication channel. In some embodiments, a method of adaptive coding, sampling, and modulating over a satellite communication channel may include providing multiple data frames. At least one modcode partition may be provided for each data frame. The modcode partitions may represent modulation, coding, spreading, and/or frame size information for respective data frames. Each data frame and the respective modcode partition may be combined to form a modcode data unit. Multiple superframes may be formed. Each superframe may include a first known sequence and multiple subframes. Each subframe for a respective superframe may include a portion of a respective modcode data unit. Multiple superframes may be transmitted across a wireless channel. | 05-27-2010 |
20120287846 | EFFICIENT CONTROL SIGNALING OVER SHARED COMMUNICATION CHANNELS WITH WIDE DYNAMIC RANGE - Embodiments provide methods, apparatuses, and systems for efficient control signaling over shared communication channels with wide dynamic range. Some embodiments includes a gateway configured to encode and to transmit multiple physical layer headers, including a first physical layer header and a second physical layer header. The first physical layer header may span a first length and represent a first modcode; the second physical layer header may span a second length and represent a second modcode. The second length may be longer than the first length. Embodiments may include multiple terminals in wireless communication with the gateway via satellite, including a first terminal configured to decode the first physical layer header and to determine the first modcode. Embodiments may include a second terminal configured to decode the second physical layer header and determine the second modcode. | 11-15-2012 |
20130223320 | EFFICIENT CONTROL SIGNALING OVER SHARED COMMUNICATION CHANNELS WITH WIDE DYNAMIC RANGE - Embodiments provide methods, apparatuses, and systems for efficient control signaling over shared communication channels with wide dynamic range. Some embodiments includes a gateway configured to encode and to transmit multiple physical layer headers, including a first physical layer header and a second physical layer header. The first physical layer header may span a first length and represent a first modcode; the second physical layer header may span a second length and represent a second modcode. The second length may be longer than the first length. Embodiments may include multiple terminals in wireless communication with the gateway via satellite, including a first terminal configured to decode the first physical layer header and to determine the first modcode. Embodiments may include a second terminal configured to decode the second physical layer header and determine the second modcode. | 08-29-2013 |
Patent application number | Description | Published |
20120096205 | INTER-VIRTUAL MACHINE PROFILING - Disclosed is a virtual machine system where hardware timer interrupts are processed by a first virtual machine. The first virtual machine writes a timer value to a shared memory location while processing the hardware timer interrupt. The timer value may be based on a kernel timing parameter maintained by the operating system of the first virtual machine. A second virtual machine may read the shared timer value from the shared memory location in order to time inter-virtual machine processes such as I/O processing and I/O requests. | 04-19-2012 |
20120096206 | INTER-VIRTUAL MACHINE INTERRUPT COALESCING - Disclosed is a system with multiple virtual machines passing I/O requests via a shared memory space. A flag in shared memory is set to a first state in response to a first hypervisor I/O interrupt to indicate that an I/O processing routine is active (running). I/O requests are retrieved from an I/O queue in the shared memory by the I/O processing routine. Based on an indicator that there are no I/O requests remaining in said I/O queue, the shared flag is set to a second state to indicate that the I/O processing routine is deactivated (sleeping). In response to said shared flag being in the second state, when new I/O requests are going to be made, a second hypervisor I/O interrupt is generated. In response to said shared flag being in said first state, I/O requests are inserted into the I/O queue without generating a second hypervisor I/O interrupt. | 04-19-2012 |
20120124355 | SINGLE VOLUME IMAGE FILE EXTRACTION - Disclosed is a method of booting a virtual machine. A file, accessible by a privileged domain that includes an index file image and a plurality of other file images is stored. The index file image is of a predetermined, fixed size and includes a file name and a file size for each of the other images in the file. The privileged domain provides the file to one or more non-privileged virtual machines as a single disk image of the fixed size mounted on the non-privileged virtual machine. The other file images are extracted by the virtual machines based on the file names and file sizes stored in the index file image. | 05-17-2012 |
20130067123 | METHODS AND STRUCTURE FOR IMPROVED I/O SHIPPING IN A CLUSTERED STORAGE SYSTEM - Methods and structure for improved shipping of I/O requests among multiple storage controllers of a clustered storage system. Minimal processing of a received I/O request is performed in a first controller to determine whether the I/O request is directed to a logical volume that is owned by the first controller or to a logical volume owned by another controller. For requests to logical volumes owned by another controller, the original I/O request is modified to indicate the target device address of the other controller. The first controller then ships the request to the other controller and configures DMA capabilities of the first controller to exchange data associated with the shipped request between the other controller and memory of the host system. | 03-14-2013 |
20130067125 | METHODS AND STRUCTURE FOR IMPROVED PROCESSING OF I/O REQUESTS IN FAST PATH CIRCUITS OF A STORAGE CONTROLLER IN A CLUSTERED STORAGE SYSTEM - Methods and structure for improved processing of fast path I/O requests in a clustered storage system. In a storage controller of a clustered storage system, the controller comprises a fast path I/O request processing circuit tightly coupled with host system drivers for fast processing of requests directed to storage devices of a logical volume. The controller also comprises a logical volume I/O processing stack (typically implemented as programmed instructions) for processing I/O requests from a host system directed to a logical volume. Based on detecting a change of ownership of a device or volume and/or a change to logical to physical mapping of a logical volume, fast path I/O requests may be converted to logical volume requests based on mapping context information within the fast path I/O request and shipped within the clustered storage system for processing. | 03-14-2013 |
20130067161 | METHODS AND STRUCTURE FOR TASK MANAGEMENT IN STORAGE CONTROLLERS OF A CLUSTERED STORAGE SYSTEM - Methods and structure for task management in storage controllers of a clustered storage system. An initiator storage controller of the clustered storage system ships I/O requests for processing to a target storage controller of the system. Responsive to a need to abort a previously shipped I/O request, the initiator storage controller transmits a task management message to the target storage controller. The task management message identifies one or more previously shipped I/O requests to be aborted. The target storage controller processes the received task management message in due course of processing requests and completes processing for the aborted previously shipped request in an orderly manner. Resources associated with the aborted previously shipped requests are release within both controllers. | 03-14-2013 |
20130067162 | METHODS AND STRUCTURE FOR LOAD BALANCING OF BACKGROUND TASKS BETWEEN STORAGE CONTROLLERS IN A CLUSTERED STORAGE ENVIRONMENT - Methods and structure for load balancing of background tasks between storage controllers are provided. An exemplary active storage controller comprises a front-end interface that receives host Input/Output (I/O) requests directed to a logical volume, a back-end interface that couples with one or more of storage devices provisioning the logical volume, and a control unit. The control unit processes the host I/O requests directed to the logical volume, identifies a background processing task distinct from the host I/O requests and related to the logical volume, and assigns the background processing task to a passive storage controller for processing. | 03-14-2013 |
20130067163 | METHODS AND STRUCTURE FOR TRANSFERRING OWNERSHIP OF A LOGICAL VOLUME BY TRANSFER OF NATIVE-FORMAT METADATA IN A CLUSTERED STORAGE ENVIRONMENT - Methods and systems for transferring ownership of a logical volume in a storage system comprising multiple storage controllers is provided. According to the method, the storage controllers are coupled for communication with a logical volume, wherein at least one storage device coupled with the storage controllers implements the logical volume. The method comprises identifying, at a first storage controller, a second storage controller to receive the logical volume. The method also comprises initiating a transfer of ownership of the logical volume from the first storage controller to the second storage controller by transferring metadata stored in a memory of the first storage controller to the second storage controller, the metadata existing in a native format that describes the configuration of the logical volume on the at least one storage device. | 03-14-2013 |
20130067164 | METHODS AND STRUCTURE FOR IMPLEMENTING LOGICAL DEVICE CONSISTENCY IN A CLUSTERED STORAGE SYSTEM - Methods and system are provided for exposing logical volumes to host systems and storage controllers in a consistent manner across a clustered storage system. One embodiment is a storage controller. The storage controller is operable to communicate with other storage controllers within the clustered storage system. The storage controller is further operable to generate a proposed Logical Unit Number (LUN) for a logical volume provisioned at the storage devices, and to communicate with each of the other storage controllers within the clustered storage system requesting that the other storage controllers determine if the proposed LUN is in use. If the proposed LUN is not in use, then storage controller assigns the proposed LUN to the logical volume. If the LUN is in use, then the storage controller generates a new proposed LUN and re-tries communication with the other storage controllers until a unique LUN is found. | 03-14-2013 |
20130067172 | METHODS AND STRUCTURE FOR IMPROVED BUFFER ALLOCATION IN A STORAGE CONTROLLER - Methods and structure for improved buffer management in a storage controller. A plurality of processes in the controller each transmits buffer management requests to buffer management control logic. A plurality of reserved portions and a remaining non-reserved portion are defined in a shared pool memory managed by the buffer management control logic. Each reserved portion is defined as a corresponding minimum amount of memory of the shared pool. Each reserved portion is associated with a private pool identifier. Each allocation request from a client process supplies a private pool identifier for the associated buffer to be allocated. The buffer is allocated from the reserved portion if there sufficient available space in the reserved portion identified by the supplied private pool identifier. Otherwise, the buffer is allocated if sufficient memory is available in the non-reserved portion. Otherwise the request is queued for later re-processing. | 03-14-2013 |
20130067274 | METHODS AND STRUCTURE FOR RESUMING BACKGROUND TASKS IN A CLUSTERED STORAGE ENVIRONMENT - Methods and structure for resuming background tasks in a storage environment. storage controller. The system is operable to receive host Input/Output (I/O) requests directed to a logical volume, and to couple with one or more of storage devices provisioning the logical volume. The system is further operable to process the host I/O requests directed to the logical volume, to initiate a background processing task distinct from the host I/O requests and related to the logical volume, and to store progress information on at least one of the one or more storage devices describing progress of the background processing task. | 03-14-2013 |
20130067569 | METHODS AND STRUCTURE FOR MANAGING VISIBILITY OF DEVICES IN A CLUSTERED STORAGE SYSTEM - Methods and system for implementing a clustered storage solution are provided. One embodiment is a storage controller that communicatively couples a host system with a storage device. The storage controller comprises an interface and a control unit. The interface is operable to communicate with the storage device. The control unit is operable to identify ownership information for a storage device, and to determine if the storage controller is authorized to access the storage device based on the ownership information. The storage controller is operable to indicate the existence of the storage device to the host system if the storage controller is authorized, and operable to hide the existence of the storage device from the host system if the storage controller is not authorized. | 03-14-2013 |