A replica service of a Content Centric Network can host content published by various publishers, without having to explicitly advertise a name prefix associated with these various publishers. Consumers across CCN can generate an Interest that includes a location-independent name associated with a replica service that hosts content for a given publisher, and includes a hash of the desired Content Object. CCN nodes can forward the Interest to the corresponding replica service based on the Interest's name, and the replica service can return a nameless Content Object whose hash matches the Interest's hash value. It may be possible for nameless Content Objects from various publishers to have matching hash values from time to time. CCN nodes can reduce collisions of nameless Content Objects by using a Publisher ID specified in an Interest to find a matching Content Object that was published by a desired publisher.

One embodiment provides a system that facilitates an efficient transport protocol. During operation, the system receives a first interest which indicates a query for optimal transport parameters, wherein a name for an interest is a hierarchically structured variable length identifier that includes contiguous name components ordered from a most general level to a most specific level, wherein the query is based on a name prefix that includes one or more contiguous name components. The system computes the optimal parameters based on historical information associated with the name prefix. The system transmits a first response which includes the computed optimal parameters to a requesting entity, thereby facilitating a transport protocol which increases network efficiency.

A switch for transmitting digital data in the form of frames, each frame having an identification field and being of a first type conforming to an ARINC 664 P7 type protocol or of a second type conforming to an IEEE 802 type protocol. The switch comprising a plurality of input ports, a plurality of output ports, and a configuration table comprising for each identification value of the transmission parameters of the frames having this identification value.

The switch is able to switch each frame between an input port and at least one output port exclusively on the basis of the transmission parameters corresponding to the identification value of this frame in the configuration table, independently of the type of this frame.

A communication device which is configured to receive a data flow includes a monitor port and a packet processor. The monitor port is configured to receive a packet of the data flow. The packet processor is coupled to the monitor port, and the packet processor is configured to compute a digest value of the packet and compute an identification code of the packet according to the digest value of the packet, and the packet processor searches a status value associated with the identification code in a lookup table so as to determine whether a dropping event of the data flow is recorded.

A proprietor terminal 1 stores state data Bs in which an identifier of a contract executed in a blockchain system 6, a hash value of control target file data that specifies content data managed by the contract, and an identifier of a proprietor and an identifier of a user of the content data in the file management system 9 are associated with one another, and includes a route object generation unit 123 that generates reference destination data R having the identifier of the contract and generates route object data Obj having the reference destination data R and a link name and the hash value of the control target file data.

Methods, systems, and apparatus for network monitoring and analytics are disclosed. The methods, systems, and apparatus for network monitoring and analytics perform highly probable identification of related messages using one or more sparse hash function sets. Highly probable identification of related messages enables a network monitoring and analytics system to trace the trajectory of a message traversing the network and measure the delay for the message between observation points. The sparse hash function value, or identity, enables a network monitoring and analytics system to identify the transit path, transit time, entry point, exit point, and/or other information about individual packets and to identify bottlenecks, broken paths, lost data, and other network analytics by aggregating individual message data.

A method for processing network communications, the method including receiving a network packet at a network device and performing at least one lookup for the packet in one or more first lookup tables in which the one or more first lookup tables are programmed to include at least one of an exact match or longest prefix match (LPM) table entry. The method includes obtaining a security source segment and a security destination segment based upon the result of the at least one lookup for the packet in the one or more first lookup tables. The method further includes performing a lookup in a second lookup table based upon the security source segment and security destination segment in which the second lookup table is programmed in a content addressable memory. Based upon the result of the lookup in the second lookup table, processing a forwarding decision for the packet according to the security source segment and security destination segment.

In an example, there is disclosed a network switch or other computing apparatus comprising: an ingress interface; a plurality of egress interfaces; and one or more logic elements, including at least a content addressable memory (CAM), comprising a channel selection engine to provide persistent channel selection comprising: receive a packet on the ingress interface; inspect a layer 2 (L2) attribute of the packet; lookup the L2 attribute in the CAM; and assign the packet to an egress interface communicatively coupled to a network service.

System and method for using multiple global identification subnet prefix values in a network switch environment in a high performance computing environment. A packet is received from a network fabric by a first Host Channel Adapter (HCA). The packet has a header portion including a destination subnet prefix identifying a destination subnet of the network fabric. The network HCA is allowed to receive the first packet from a port of the network HCA by selectively determining a logical state of a flag and, selectively in accordance with a predetermined logical state of the flag, ignoring the destination subnet prefix identifying the destination subnet of the network fabric.

A system, method and program product for provisioning a large scale network address translation (LSN) system. A system is disclosed that processes packets between a router and a TCP/IP network. The system includes a plurality of LSN appliances and a flow processor embedded in each of the plurality of LSN appliances. Each flow processor includes: a hash function that determines an owner appliance from the plurality of LSN appliances for a request received from the router based on a private IP address of the request; a look-up table that that determines the owner appliance from the plurality of LSN appliances for a response received from the TCP/IP network based on a public IP address of the response; and a packet routing system that routes a received request or a received response to the owner appliance.