Patent application number | Description | Published |
20100061370 | Systems and Methods for Optimized Route Caching - A method for optimized route caching includes comparing a destination address of a network packet to a first set of prefixes in a routing cache, and comparing the destination address to a second set of prefixes in a full routing table when a longest matching prefix for the destination address is not found in the routing cache. The method further includes copying the longest matching prefix and a set of sub-prefixes of the longest matching prefix from the full routing table to the routing cache, and forwarding the network packet. | 03-11-2010 |
20100208744 | System and method for compressing internet protocol rounting tables - A networking device connects to a router and to an autonomous system (AS). The networking device receives a routing table from the router, exchanges routing information with the AS, updates the routing table in response to exchanging information with the AS, coalesces the updated routing table into a compressed routing table, and sends the compressed routing table back to the router. The compressed routing table causes the router to forward data in a manner that is identical to the received routing table. | 08-19-2010 |
20110134931 | Virtual router migration - A Virtual Router (VR) is described that can move freely from one physical router to another in a network. Embodiments enable a network operator to configure a network management primitive that supports live migration of VRs from one physical router to another. To minimize disruptions, VRs allow a migrated control plane from a source router to clone its data plane state from the source router at a destination router while continuing to update its data plane state at the source router. Embodiments temporarily forward packets using both router location data planes to support asynchronous migration of links. | 06-09-2011 |
Patent application number | Description | Published |
20110054170 | Six-membered N-Heterocyclic Carbene-based catalysts for asymmetric reactions - The present invention provides a catalyst complex or ligand, and compositions thereof, for use in a variety of organic reactions having high reactivity and enantioselectivity. The catalyst is a N-heterocyclic carbene having three fused rings with first and second rings being six-membered rings and the third being a five-membered ring. The first ring is fused to the second and has four substituents. The second ring has two nitrogens flanking a carbene atom with one nitrogen bound to a substituent. The carbene atom may optionally be bonded to a metal. The third ring is fused to the second ring and contains two nitrogens. The third ring of the catalyst has a double bond and two substituents on adjacent non-fused carbons. A non-fused nitrogen of the third ring is partially bonded to another substituent. Methods for the synthesis and use of the catalyst embodiments of the present invention are also provided. | 03-03-2011 |
20120302434 | SIX-MEMBERED N-HETEROCYCLIC CARBENE-BASED CATALYSTS FOR ASYMMETRIC REACTIONS - The present invention provides a catalyst complex or ligand, and compositions thereof, for use in a variety of organic reactions having high reactivity and enantioselectivity. The catalyst is a N-heterocyclic carbene having three fused rings with first and second rings being six-membered rings and the third being a five-membered ring. The first ring is fused to the second and has four substituents. The second ring has two nitrogens flanking a carbene atom with one nitrogen bound to a substituent. The carbene atom may optionally be bonded to a metal. The third ring is fused to the second ring and contains two nitrogens. The third ring of the catalyst has a double bond and two substituents on adjacent non-fused carbons. A non-fused nitrogen of the third ring is partially bonded to another substituent. Methods for the synthesis and use of the catalyst embodiments of the present invention are also provided. | 11-29-2012 |
20130042781 | TRICOLOR FLARE PROJECTILE - A tricolor signal flare projectile configured for use with a “high-low” projectile launching system such as the U.S. Army's M-433. The projectile includes a body having a cylindrical side wall and an aft closure. The body's forward portion is open, which provides access to a hollow interior. A delay assembly is installed in the aft closure. The delay assembly includes a delay column. A signal igniter is located just forward of the delay column in the hollow interior of the body. The hollow interior also includes separate volumes of red, white, and blue illuminant. An ogive closes over the top of the hollow interior of the body, thereby encapsulating the other components. When the projectile is fired from a launcher the propellant gases burning with the launcher ignite the delay column. The delay column burns while the projectile travels along its trajectory. After the passage of a desired time interval, the delay column ignites the signal igniter. The signal igniter (1) commences the ignition of the three separate volumes of illuminant; and (2) blows the three separate volumes of illuminant clear of the body. | 02-21-2013 |
20140336402 | LIGAND FORMING ASYMMETRICAL TRANSFORMATION CATALYST FOR MAKING NEW PHARMACEUTICALS - The present invention provides a catalyst complex or ligand, and compositions thereof, for use in a variety of organic reactions having high reactivity and enantioselectivity. The catalyst is a N-heterocyclic carbene having three fused rings with first and second rings being six-membered rings and the third being a five-membered ring. The first ring is fused to the second and has four substituents. The second ring has two nitrogens flanking a carbene atom with one nitrogen bound to a substituent. The carbene atom may optionally be bonded to a metal. The third ring is fused to the second ring and contains two nitrogens. The third ring of the catalyst has a double bond and two substituents on adjacent non-fused carbons. A non-fused nitrogen of the third ring is partially bonded to another substituent. Methods for the synthesis and use of the catalyst embodiments of the present invention are also provided. | 11-13-2014 |