Patent application number | Description | Published |
20090059808 | Memory Access Optimization - A method and an apparatus for memory access optimization are disclosed. Data unit information may be accumulated for a plurality of data units. Partial network statistics for the plurality of data units may be read sequentially in round robin fashion from each of a plurality of memory banks of a memory. The partial networks statistics may be updated based on the plurality of data units. The updated partial network statistics may be written sequentially in round robin fashion to each of the plurality of memory banks. | 03-05-2009 |
20100098087 | Traffic Generator Using Parallel Coherent Transmit Engines - There is disclosed a packet generator and method of generating a packet flow. The packet generator may include a plurality of parallel transmit engines to form packets for transmission and a multiplexer to coherently interleave packets formed by the plurality of transmit engines. | 04-22-2010 |
20100260204 | Traffic Receiver Using Parallel Capture Engines - There is disclosed a method of capturing packets and packet receivers to capture packets. A timestamp may be attached to each packet received from a network. Each timestamped packet may be routed to a capture engine of a plurality of capture engines. Each of the plurality of capture engines may save at least some packets determined to match one or more of a plurality of predetermined capture criteria. A list of contiguously captured packets in time-stamp order may be prepared. | 10-14-2010 |
20100272118 | High Speed Traffic Generator - There is disclosed a method of generating a data flow and a high speed packet generator. A sequence of packets to be transmitted may be defined. Generation of each packet in the sequence may be assigned to a respective transmit engine selected from a plurality of transmit engines. The plurality of transmit engines may generate respective assigned packets in parallel. Packets generated by the plurality of transmit engines may be coherently interleaved in the defined sequence to form the data flow. | 10-28-2010 |
20110007754 | Flexible Hardware Checksum Generator - A traffic generator may include a scheduler to provide packet forming data defining a packet; a background engine to retrieve a packet template, the packet template including a first checksum mask, a first pre-sum, and a first address; a fill engine to generate content for variable-content fields of the packet for a payload portion of the packet in accordance with the packet forming data and the packet template; and a checksum engine. The checksum engine may include an accumulator that calculates a payload checksum for the payload portion of the packet and first logic circuits that compute a first checksum based on the first pre-sum, the first mask, and at least some of the payload checksum and the variable-content fields. Insertion logic may insert the first checksum into the packet at a position indicated by the first address. | 01-13-2011 |
20110211593 | Capturing Packets With Parallel Capture Engines - There is disclosed a method of capturing packets and packet receivers to capture packets. A plurality of packets may be received form a network. A timestamp may be attached to each received packet. The timestamped received packet may be distributed among a plurality of capture engines. Each of the plurality of capture engines may store, in a respective capture memory of a plurality of capture memories, at least some timestamped received packets determined to match one or more of a plurality of predetermined capture criteria. A list in timestamp order of contiguous packets stored in the plurality of capture memories may be prepared. | 09-01-2011 |
20110261698 | Traffic Generator with Priority Flow Control - Port units, methods, and computer readable storage media for testing a network are disclosed. A traffic generator may generate and transmit test traffic over a network under test, the test traffic including a plurality of interleaved packet streams, each traffic stream associated with one of a plurality of flow control groups. A traffic receiver may receive flow control packets from the network under test. The traffic generator may be configured to stop transmission of all packet streams associated with one or more paused flow control groups when the traffic receiver receives a flow control packet identifying the one or more paused flow control groups. | 10-27-2011 |
20110280137 | Packet Rate Detection Apparatus and Method - There are disclosed an apparatus, a machine readable media, and methods for testing a network. The apparatus may include a statistics engine coupled to a memory. The statistics engine may extract a packet group identifier (PGID) from a packet received from the network and retrieve traffic statistics associated with the PGID from the memory. The retrieved traffic statistics may include a packets-per-interval count and a packets-per-interval threshold, the packets-per-interval count indicating a number of packets received within a time interval of a sequence of time intervals. At the start of each new time interval, the statistics engine may set a flag indicating whether or not the packets-per-interval count for the previous time interval was equal to or greater than the packets-per-interval threshold. The flag may be saved in the memory as part of the traffic statistics associated with the extracted PGID. | 11-17-2011 |
20120176920 | Tracking Packet Sequence Numbers - Methods, traffic receivers, and computer readable storage media for testing network connections are disclosed. A traffic receiver coupled to a network under test may receive a packet. A packet group identification number (PGID and a sequence number (SN) may be extracted from the received packet. Data associated with the PGID may be retrieved from a memory, the data including a next expected sequence number (NESN), a start of run (SOR), a number of in-order packets (NIO) and a number of duplicate packets (NDP). When SN is equal to NESN, NESN and NIO may be incremented. When SN is less than NESN and SN is greater than or equal to SOR, NDP may be incremented. When SN is greater than NESN, SOR may be set to SN, NESN may be set to SN plus one, and NIO maybe incremented. Updated data may be stored in the memory. | 07-12-2012 |
20120236728 | Flexible Network Test Apparatus - Apparatus, method, and storage medium for testing a network. A network card may include four transmit engines and four receive engines to respectively generate and process packets at a data rate of 10 GHz. The network card may be configured in a first mode to also include four 10 GHz network interface units coupled to respective ones of the four 10 GHz transmit engines and the four 10 GHz receive engines. The network card may be configured in a second mode to also include a coherent multiplexer to combine packets generated by the four 10 GHz transmit engines into test traffic at a 40 GHz data rate, a packet distribution engine to accept packets at a 40 GHz data rate and distribute the accepted packets between the four 10 GHz receive engines, and a 40 GHz network interface unit coupled to the coherent multiplexer and the packet distribution engine. | 09-20-2012 |
20120287809 | METHOD AND SYSTEM FOR MEASURING NETWORK CONVERGENCE TIME - A method and system for measuring a convergence time of a network. Test traffic including a plurality of packet groups may be transmitted and received via the network. The network may be instructed to redirect packets belonging to a selected packet group from a first port of the network to a second port of the network. A first test port unit coupled to the first port may determine an arrival rate for the selected packet group and store a below threshold timestamp when the arrival rate first falls below a predetermined threshold rate. A second test port unit coupled to the second port may determine an arrival rate for the selected packet group and store an above threshold timestamp when the arrival rate first equals or exceeds the predetermined threshold rate. The convergence time may be determined based on the below threshold timestamp and the above threshold timestamp. | 11-15-2012 |
20130124491 | Efficient Pipelined Binary Search - An apparatus and machine readable storage medium for performing a binary search of an ordered list containing 2 | 05-16-2013 |
20140036681 | TRAFFIC GENERATOR WITH PRIORITY FLOW CONTROL - Traffic generators, methods, and computer readable storage media for testing a network are disclosed. A scheduler may determine a sequence of packets to be transmitted, each packet in the sequence of packets belonging to one of a plurality of flow control groups. A packet generator may generate packets in the determined sequence and output completed packets for transmission over a network under test. The packet generator may include a first processing engine and a last processing engine configured as a pipeline to perform respective sequential stages of a packet generation process, and a first bank of first-in-first-out (FIFO) queues including a plurality of FIFO queues corresponding to the plurality of flow control groups. The first processing engine may store first packet forming data associated with each flow control group in the corresponding FIFO queue of the first bank of FIFO queues. | 02-06-2014 |
Patent application number | Description | Published |
20080298261 | Reconfigurable Test System - There is disclosed a reconfigurable network test system. The reconfigurable test system may include a plurality of test modules, a plurality of network interface units, a plurality of bypass units, and a multi-port switch. Each of the network interface units may have a first end and a second end adapted to be connected to a network. Each bypass unit may be in communication with an associated test module, the first end of an associated network interface unit, a first associated switch port, and a second associated switch port. Each bypass unit may have a first mode wherein the associated test module is placed in communication with the first end of the associated network interface unit, and a second mode wherein the associated test module is placed in communication with the first associated switch port and the associated network interface unit is placed in communication with the second associated switch. | 12-04-2008 |
20080298380 | Transmit Scheduling - There are disclosed apparatus and methods for scheduling packet transmission. At least one scheduled traffic queue holds a plurality of scheduled packets, each scheduled packet having an associated scheduled transmit time. At least one unscheduled traffic queue holds plurality of unscheduled packets. A packet selector causes transmission of scheduled packets from the scheduled traffic queue at the associated scheduled transmit time, while causing transmission of unscheduled packets from the unscheduled traffic queue during the time intervals between transmissions of scheduled packets. | 12-04-2008 |
20100074135 | Distributed Packet Group Identification For Network Testing - There is disclosed a method, an apparatus, a computing device, and a storage medium for testing a network. A plurality of packets may be received. A packet group identification number for each packet may be determined by extracting two or more packet group identification fields from the packet, each packet group identification field located at a respective offset from one of a signature field, a start of the packet, a start of an IP header, and a start of a protocol header; and combining the two or more packet group identification fields to form the packet group identification number. The network testing system may measure, compile, and store performance statistics for packets having the same packet group identification number. | 03-25-2010 |