Patent application number | Description | Published |
20080297219 | EQUAL DELAY FLIP-FLOP BASED ON LOCALIZED FEEDBACK PATHS - Equal delay flip-flop systems and complementary input complementary output equal delay flip-flop circuits are disclosed. In one embodiment, an equal delay flip-flop system includes a first delay flip-flop for processing a first input, including a first tri-state input driver for driving the first input, a first master latch for sampling and/or forwarding the first input, a first transmission gate for relaying the first input forwarded by the first master latch, and a first slave latch for storing and/or forwarding the first input. The equal delay flip-flop system further includes a second delay flip-flop for processing a second input, including a second tri-state input driver for driving the second input, a second master latch for sampling and/or forwarding the second input, a second transmission gate for relaying the second input forwarded by the second master latch, and a second slave latch for storing and/or forwarding the second input. | 12-04-2008 |
20090293023 | Generation of standard cell library components with increased signal routing resources - Generating cells with increased signal routing resources. In an embodiment, power and ground buses in a metal layer of a source cell are identified and removed. Any vias terminating on the removed buses may also be removed. Additional via and connections are added to other desired layers to provide connectivity to the nodes disconnected due to the earlier removal. According to an aspect of the present invention, such connections are added during a chip design phase (i.e., when the cell instances are incorporated into an integrated circuit, sought to be designed). | 11-26-2009 |
20100199252 | ROUTABILITY OF INTEGRATED CIRCUIT DESIGN WITHOUT IMPACTING THE AREA - Improving the routability of integrated circuit (IC) design without impacting the area. A local region of congestion of an IC design is determined according to a design parameter. A cell with a specified level of complexity is identified within the local region of congestion. An alternative cell is algorithmically created with a same logic function as the cell by adding an access point to the alternative cell. The cell is then replaced with the alternative cell within the local region of congestion. | 08-05-2010 |
Patent application number | Description | Published |
20090252058 | Multi-Protocol Label Switching Multi-Topology Support - A network component comprising at least one processor configured to implement a method comprising receiving a packet, determining whether the packet comprises a topology label, and adding the topology label to the packet if the packet does not comprise the topology label. Included is a method comprising routing a plurality of packets corresponding to a plurality of forwarding equivalence classes (FECs) over a plurality of network topologies using a topology label and plurality of forwarding labels for each network topology. Also included is a network comprising a plurality of nodes in communication with each other and having a plurality of network topologies, wherein at least some of the nodes are configured to route data packets for a plurality of FECs along a path in each network topology using a topology label corresponding to each network topology and an inner label corresponding to each FEC. | 10-08-2009 |
20110007629 | RAPID ALTERNATE PATHS FOR NETWORK DESTINATIONS - Network traffic is sent via alternate paths in cases of network link or node failure. An alternate node responds to U-Turn traffic from a primary neighbor to select a further alternate. An algorithm for determining the alternate paths is provided to select loop-free neighbors. | 01-13-2011 |
20120250583 | Multi-Protocol Label Switching Multi-Topology Support - A network component comprising at least one processor configured to implement a method comprising receiving a packet, determining whether the packet comprises a topology label, and adding the topology label to the packet if the packet does not comprise the topology label. Included is a method comprising routing a plurality of packets corresponding to a plurality of forwarding equivalence classes (FECs) over a plurality of network topologies using a topology label and plurality of forwarding labels for each network topology. Also included is a network comprising a plurality of nodes in communication with each other and having a plurality of network topologies, wherein at least some of the nodes are configured to route data packets for a plurality of FECs along a path in each network topology using a topology label corresponding to each network topology and an inner label corresponding to each FEC. | 10-04-2012 |
20150092785 | DYNAMIC AREA FILTERING FOR LINK-STATE ROUTING PROTOCOLS - In general, techniques are described for dynamically filtering, at area border routers (ABRs) of a multi-area autonomous system, routes to destinations external to an area by advertising to routers of the area only those routes associated with a destination address requested by at least one router of the area. In one example, a method includes receiving, by an ABR that borders a backbone area and a non-backbone area of a multi-area autonomous system that employs a hierarchical link state routing protocol to administratively group routers of the autonomous system into areas, a request message from the non-backbone area that requests the ABR to provide routing information associated with a service endpoint identifier (SEI) to the non-backbone area. The request message specifies the SEI. The method also includes sending, in response to receiving the request and by the ABR, the routing information associated with the SEI to the non-backbone area. | 04-02-2015 |
20150249597 | Rapid Alternate Paths for Network Destinations - Network traffic is sent via alternate paths in cases of network link or node failure. An alternate node responds to U-Turn traffic from a primary neighbor to select a further alternate. An algorithm for determining the alternate paths is provided to select loop-free neighbors. | 09-03-2015 |