Patent application number | Description | Published |
20080225713 | SOURCE ROUTING APPROACH FOR NETWORK PERFORMANCE AND AVAILABILITY MEASUREMENT OF SPECIFIC PATHS - In one embodiment, a method includes obtaining a first packet that has a first payload. The first payload identifies a first path between endpoints traversed by the first packet, and identifying information associated with a first node associated with the first path traversed by the first packet. The identifying information includes an arrival time that identifies approximately when the first packet arrived at the first node and a leaving time that identifies approximately when the first packet left the first node. A first service level agreement (SLA) parameter of the first path is determined by analyzing the arrival time and the leaving time, comparing the first SLA parameter with a second SLA parameter associated with a second path traversed by a second probe packet, and selecting the first path for sending packets if the first SLA parameter indicates a higher SLA level than indicated by the second SLA parameter. | 09-18-2008 |
20080228913 | Network response time measurements in an asymmetric routing environment - In one embodiment, a method can include: (i) receiving flow records from a plurality of network devices on asymmetric paths; (ii) reconstructing a network transaction from the received flow records; and (iii) deriving response times using the reconstructed network transaction. | 09-18-2008 |
20080250153 | STREAMING OF TEMPLATES AND DATA RECORDS IN INDIVIDUAL STREAMS USING A MULTISTREAM PROTOCOL - In one embodiment, a method includes determining a first template defining a data format for one or more first data records and a second template defining a data format for one or more second data records. The template may be needed to decode the information included in an associated data record. The first template is sent on a first stream of a multi-stream protocol in an ordered fashion, such as SCTP. The one or more first data records are also sent on the first stream in an ordered fashion and include first flow information for data sent through a network device. A second template is sent on a second stream using the multi-stream protocol in an ordered fashion. One or more second data records are sent on the second stream including second flow information for data sent through the network device. | 10-09-2008 |
20080279111 | COLLECTING NETWORK TRAFFIC INFORMATION - An apparatus and method for collecting network traffic information is arranged to receive network traffic elements including one or more key fields having respective key field values. The apparatus and method further classify received network traffic elements into one of a plurality of flows dependent on the key field value of one or more key fields defined by a flow profile. The method and apparatus are further configurable to vary the flow profile, create a flow record and export the flow record to a collecting node. | 11-13-2008 |
20090103449 | VIRTUAL RESPONDER FOR THE AUTO-DISCOVERY OF A REAL RESPONDER IN A NETWORK PERFORMANCE TEST - Particular embodiments provide a virtual responder that can be contacted by any number of senders. When a sender wants to perform a measurement test with a real responder, the sender sends a control message to a virtual responder. The virtual responder is configured to determine a real responder based on real responder selection metrics. The virtual responder may poll the real responders at certain times to receive the real responder selection metrics. The virtual responder then selects a real responder from a plurality of real responders based on the real responder's selection metrics. The virtual responder then sends contact information for the selected real responder to the sender device. This allows the sender device to contact the selected real responder to perform the measurement test with a real responder. | 04-23-2009 |
20110270983 | Network Response Time Measurements in an Asymmetric Routing Environment - In one embodiment, a method can include: (i) receiving flow records from a plurality of network devices on asymmetric paths; (ii) reconstructing a network transaction from the received flow records; and (iii) deriving response times using the reconstructed network transaction. | 11-03-2011 |