POINT BURST

Brand	Owner	Address	Description
POINTBURST	PointBurst	Suite 550 3131 McKinney Ave. Dallas TX 75204	POINT BURST;Designing, developing and managing a software program for others in the field of communication for use in managing multiple social networking service accounts for a software user, including publishing messages, articles, documents and videos through the multiple social networking service accounts of the software user and the software user's affiliates, statistics tracking and monitoring keyword mentions made on social networking websites; application service provider featuring application programming interface (API) software for use in shortening uniform resource locators;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A method and apparatus are provided for low latency loss-free burst switching. Burst schedules are initiated by controllers of bufferless core nodes and distributed to respective edge nodes. In a composite-star network, the burst schedules are initiated by any of a plurality of bufferless core nodes and distributed to respective edge nodes. Burst formation takes place at source nodes and a burst size is determined according to an allocated bitrate of a burst stream to which the burst belongs. An allocated bitrate of a burst stream may be modified according to observed usage of scheduled bursts of a burst stream. A method of control-burst exchange between each of a plurality of edge nodes and each of a plurality of bufferless core nodes enables burst scheduling, time coordination, and loss-free burst switching. Both the payload bursts and control bursts are carried by optical channels connecting the edge nodes and the core nodes. A method and a circuit are provided for generating burst descriptors wherein each burst is associated with a burst stream and each burst stream is allocated a service bitrate. The generated burst descriptors are used in each master controller in each core node to create the burst schedules. In a conventional burst-scheduling process, the burst queues at a master controller of an optical switch receives burst descriptors from the source nodes and schedules the burst switching times. In a distinct departure, according to the present invention, the burst descriptors are generated by a master controller of an optical switch in a core node, the switching times of the corresponding bursts are scheduled, and the schedules are distributed to the respective edge nodes. The burst-descriptor generation is based on burst-stream bitrate-allocation defined by the source nodes.