The invention relates to the field of wireless mesh communication networks and in particular to methods, networks and nodes (101) for use in such a wireless mesh network (100) for establishing routes in the wireless mesh network (100) by pro-actively regularly sending many-to-one route requests at randomized intervals by wireless network nodes (101) that can operate as a proxy nodes for a mobile wireless device (104) communicating using a first wireless communication protocol and further nodes (102, 103) in the wireless mesh network (100) communicating using a second wireless communication protocol.

Examples described herein relate to integrating a blockchain-enabled reader with a blockchain network over machine-to-machine communication protocol. A subscriber node may receive event data published by a publisher node. The event data may be communicated to the publisher node from a blockchain-enabled reader using a machine-to-machine communication protocol. The event data may be attested by the blockchain-enabled reader using a decentralized identity provisioned to the blockchain-enabled reader from the blockchain network. The decentralized identity of the blockchain-enabled reader may be verified. The event data may be submitted by the subscriber node to a distributed ledger upon successful verification of the decentralized identity of the blockchain-enabled reader.

Examples described herein relate to integrating a blockchain-enabled reader with a blockchain network over machine-to-machine communication protocol. A subscriber node may receive event data published by a publisher node. The event data may be communicated to the publisher node from a blockchain-enabled reader using a machine-to-machine communication protocol. The event data may be attested by the blockchain-enabled reader using a decentralized identity provisioned to the blockchain-enabled reader from the blockchain network. The decentralized identity of the blockchain-enabled reader may be verified. The event data may be submitted by the subscriber node to a distributed ledger upon successful verification of the decentralized identity of the blockchain-enabled reader.

A listening device is operatively connected to multiple network devices, and is configured to subscribe to one or more EGM data types, and receive first data from a first network device in accordance with the subscription. The listening device is also configured to generate a first data package in a form of a first data structure comprising the first data and configuration information related to the first network device, and transmit the data package across a second network to a collection server. The listening device is also configured to receive second data from a second network device in accordance with the subscription, wherein the second data comports with a second protocol that differs from the SAS protocol, and generate a second data package in the form of the first data structure comprising the second data and configuration information related to the second network device.

In a telecommunications network, a network node processes messages according to different sets of user-programmable message processing rules. The network node includes an input for receiving a series of input messages which are processed in a message manipulation function. Processed messages are also output from the network node according different communication protocols.

In a telecommunications network, a network node processes messages according to different sets of user-programmable message processing rules. The network node includes an input for receiving a series of input messages which are processed in a message manipulation function. Processed messages are also output from the network node according different communication protocols.

Techniques for sending Compute Express Link (CXL) packets over Ethernet (CXL-E) in a composable data center that may include disaggregated, composable servers. The techniques may include receiving, from a first server device, a request to bind the first server device with a multiple logical device (MLD) appliance. Based at least in part on the request, a first CXL-E connection may be established for the first server device to export a computing resource to the MLD appliance. The techniques may also include receiving, from the MLD appliance, an indication that the computing resource is available, and receiving, from a second server device, a second request for the computing resource. Based at least in part on the second request, a second CXL-E connection may be established for the second server device to consume or otherwise utilize the computing resource of the first server device via the MLD appliance.

Provided are a packet transmission method and device and a computer storage medium. The method includes: a FlexE shim receives an Ethernet packet forwarded by a switching module and sent by a processor, the FlexE shim being located between a PHY layer and a MAC layer, and the switching module including a data link layer and a network layer; and the FlexE shim converts the Ethernet packet into a PPP packet, codes the PPP packet, and then inserts the PPP packet into a FlexE overhead of a target FlexE port for transmission.

Provided are a packet transmission method and device and a computer storage medium. The method includes: a FlexE shim receives an Ethernet packet forwarded by a switching module and sent by a processor, the FlexE shim being located between a PHY layer and a MAC layer, and the switching module including a data link layer and a network layer; and the FlexE shim converts the Ethernet packet into a PPP packet, codes the PPP packet, and then inserts the PPP packet into a FlexE overhead of a target FlexE port for transmission.

A semiconductor device with an interface includes a master device and a plurality of slave devices. The master device includes a master interface. The slave devices are stacked on the master device one after one as a three-dimension (3D) stack. Each of the slave devices includes a slave interface and a managing circuit, the master interface and the slave interfaces form the interface for passing signals in communication between the master device and the slave devices. The managing circuit of a current one of the slave devices drives a next one of the slave devices. An operation command received at the current one of the slave devices is just passed to the next one of the slave devices through the interface. A response from the current one of the slave devices is passed back to the master device through the interface.