| Patent application number | Description | Published |
|---|
| 20100135314 | Multi-Component Compatible Data Architecture - A backbone network, comprising a first switch comprising a first port configured to communicate a data stream via an Ethernet interface, and a second port configured to communicate the data stream via a SONET/SDH interface, and a second switch comprising a third port configured to receive the data stream from the first switch via the Ethernet interface, wherein the first switch and the second switch are synchronized. | 06-03-2010 |
| 20100135315 | Multi-Component Compatible Data Architecture - A backbone network, comprising a first switch comprising a first port configured to communicate a data stream via an Ethernet interface, and a second port configured to communicate the data stream via a SONET/SDH interface, and a second switch comprising a third port configured to receive the data stream from the first switch via the Ethernet interface, wherein the first switch and the second switch are synchronized. | 06-03-2010 |
| 20100284421 | Closed-Loop Clock Synchronization - A network comprising a destination node, and a plurality of source nodes configured to transmit high-priority data and low-priority data to the destination node, wherein the source nodes correlate the transmission of the high-priority data to the destination node such that the high-priority data from each source node does not substantially contend with the high-priority data from the other source nodes upon arrival at the destination node. Also disclosed is a network component comprising at least one processor configured to implement a method comprising creating a periodic time window, partitioning the time window into low-priority time-bands and high-priority time-bands, placing a plurality of high-priority packets in the high priority time-bands, and placing a plurality of low-priority packets in the low-priority time-bands. | 11-11-2010 |
| 20100316069 | Network Clock Synchronization Floating Window and Window Delineation - A network component comprising at least one processor configured to implement a method comprising initiating a synchronization window, and promoting the transmission of a frame comprising a control symbol, wherein the control symbol delineates a beginning of the frame, and wherein the control symbol is offset from the beginning of the synchronization window. Also disclosed is a system comprising an upstream node in communication with a downstream node, wherein the upstream node transmits a data stream comprising a plurality of frames to the downstream node, wherein the data stream is organized into a plurality of synchronization windows, and wherein the frames float within the synchronization windows. Included is a method comprising transmitting an Ethernet data stream comprising an Ethernet control symbol, wherein the Ethernet control symbol is transmitted within a synchronization window and delineates a start of a packet within the synchronization window. | 12-16-2010 |
| 20110013619 | Universal Service Transport Transitional Encoding - An apparatus comprising a switch fabric coupled to a plurality of interfaces and configured to switch a plurality of universal service transport (UST) multiplexing (USTM) data streams between the interfaces, wherein the USTM data streams comprise packet-switched traffic, circuit-switched traffic, and transitional signaling that indicates a change of state between the packet-switched traffic and the circuit-switched traffic, wherein the transitional signaling does not indicate the state in every octet of the USTM data streams. Also disclosed is a network component comprising at least one processor coupled to a memory and configured to receive a data that corresponds to a flow, identify the flow using a flow map, determine whether there is a change in a state of the flow, send transitional signaling on a USTM data stream that indicates the state of the flow if the state of flow has changed, and send the data on the USTM data stream. | 01-20-2011 |
| 20110110475 | Method and Apparatus to Reduce Wander for Network Timing Reference Distribution - A network component comprising a first adaptation component, a second adaptation component, a system Phase-Locked-Loop (PLL) coupled to the first adaptation component, a comparison and voting logic component coupled to the first adaptation component and the system PLL component, a compensation logic component coupled to the comparison and voting logic component, and a positive/negative delay component coupled to the second adaptation component and the compensation logic component. Also disclosed is a network component comprising a comparison and voting logic function block configured to compare a plurality of internal timing references in a system PLL synchronization area, a compensation logic function block configured to calculate an offset value if any of the internal references substantially deviates from an expected value in a deterministic outcome, and a delay function block configured to add the calculated offset value to a timing reference that is forwarded to a subsequent node. | 05-12-2011 |
| 20110164625 | Network Timing Distribution and Synchronization Using Virtual Network Delays - A network component comprising a source-delay locked loop (S-DLL), a source timestamp queue (S-Q) coupled to the S-DLL, and a switch fabric coupled to the S-Q such that the S-Q is positioned between the switch fabric and the S-DLL, and wherein the S-DLL is configured to couple to an absolute timing component. Disclosed is a method comprising queuing a plurality of timestamps at a plurality of timestamp intervals from a source node, returning the received timestamps to the source node at the same timestamp intervals, receiving a plurality of offsets corresponding to the timestamps that are calculated using a virtual delay time for the timestamps from the source node, and aligning the queued timestamps to match the virtual delay time before processing additional timestamps to synchronize transmissions and establish frequency alignment with the source node. | 07-07-2011 |
