A system and a method for exchanging data between a server and a client in an industrial data network, wherein the server employs a first information model for information interchange and the client employs a second information model for information interchange, where the method includes converting the first and the second information models in a first and a second machine-interpretable description, deducing similarities between elements of the first and the second machine-interpretable description, proposing and implementing a mapping of at least one element of the first information model to an element of the second information model based on the deduced similarities in text and in structure and, employing, by a gateway entity, the mapping for a data exchange between the server and the client such that the semantic mapping of virtually any input, vendor-specific metadata, and any output model (including OPC UA-based models) is achieved.

A system and a method for exchanging data between a server and a client in an industrial data network, wherein the server employs a first information model for information interchange and the client employs a second information model for information interchange, where the method includes converting the first and the second information models in a first and a second machine-interpretable description, deducing similarities between elements of the first and the second machine-interpretable description, proposing and implementing a mapping of at least one element of the first information model to an element of the second information model based on the deduced similarities in text and in structure and, employing, by a gateway entity, the mapping for a data exchange between the server and the client such that the semantic mapping of virtually any input, vendor-specific metadata, and any output model (including OPC UA-based models) is achieved.

Described herein is a system and method for testing a computing device, such as a server, to minimize network impact. A computing device that is new or needs to be evaluated, such as an edge server, in a content delivery network may be determined and a sibling edge server which shares a common characteristic with the edge server may be selected. Requests received on the sibling edge server may be collected and filtered to determine a subset of the requests. The subset of the requests are transmitted to the edge server for processing and evaluation.

The embodiments of the disclosure provide a computer system, comprising a plurality of computing devices, each computing device comprising a storage unit and at least one computing unit which are connected in parallel, the plurality of computing devices being divided into a plurality of nodes, and the plurality of nodes forming a network topology; a communication device comprising an autonomous domain building module and a first communication module, the first communication module being configured for connecting the plurality of computing devices in a communication manner; and a task processing device comprising an addressing module and a task processing module. Therefore, the solution of the present disclosure meets the explosive demand of massive data and large amount computing power caused by artificial intelligence and blockchain to a certain extent.

The embodiments of the disclosure provide a computer system, comprising a plurality of computing devices, each computing device comprising a storage unit and at least one computing unit which are connected in parallel, the plurality of computing devices being divided into a plurality of nodes, and the plurality of nodes forming a network topology; a communication device comprising an autonomous domain building module and a first communication module, the first communication module being configured for connecting the plurality of computing devices in a communication manner; and a task processing device comprising an addressing module and a task processing module. Therefore, the solution of the present disclosure meets the explosive demand of massive data and large amount computing power caused by artificial intelligence and blockchain to a certain extent.

Disclosed are various embodiments for receiving, via a network, a request from a client to establish a network tunnel over the network. A credential is received from the client in order to establish the network tunnel. The client is authenticated based upon the credential. The client negotiates, via the network, to establish the network tunnel.

A computing device according to an embodiment includes one or more processors, a memory in which one or more programs to be executed by the one or more processors are stored, a network information manager configured to transmit a peer-to-peer (P2P) network information of the computing device and network quality information at the time of connection of the computing device to a management server, and a network monitor configured to generate network quality information by measuring a network quality at the time of connection of the computing device.

Described embodiments provide systems and methods for selecting a device via which to access a server. A service having one or more processors coupled with memory may detect a measure of experience for a client device in accessing a server via a first device being below a threshold. The service may identify, responsive to the detection, a plurality of devices available for the client device to access the server. The service may determine a distance between each of the plurality of devices and at least one of the client device or the server. The service may select a second device from the plurality of devices via which the client device is to access the server based at least on the distance between the second device and at least one of the client device or the server.

Described embodiments provide systems and methods for selecting a device via which to access a server. A service having one or more processors coupled with memory may detect a measure of experience for a client device in accessing a server via a first device being below a threshold. The service may identify, responsive to the detection, a plurality of devices available for the client device to access the server. The service may determine a distance between each of the plurality of devices and at least one of the client device or the server. The service may select a second device from the plurality of devices via which the client device is to access the server based at least on the distance between the second device and at least one of the client device or the server.

Techniques for redirecting a client device from a server to a mini-server are disclosed herein. Initially, the client device establishes a connection with the server. The server provides a landing page to the client device, where the landing page is programmed to include an element that, when selected, redirects the client device away from its connection with the server. In response to a selection of the element, the client device establishes a connection with the mini-server. The mini-server is part of a first local area network (LAN), and, as a result of switching networks, the client device is now a part of a second LAN. The two LANs are connected to one another via a network bridge. The mini-server is able to receive input from the client device and synchronize that input across other mini-servers in the first LAN in order to redundantly store the input.