A system includes: a webserver system configured to host a dynamic webpage; a requestor device configured to communicate with the webserver system over a first network to receive the dynamic webpage; and a resource device communicably connected to the requestor device over a second network, and configured to cache a core-static webpage corresponding to the dynamic webpage. In response to the webserver system being unavailable to provide the dynamic webpage, the requestor device is configured to communicate with the resource device over the second network to request the core-static webpage.

As described herein, a system, method, and computer program are provided for establishing an application interface in an echo system. In use, a plurality of end points in a plurality of applications installed on an echo system are identified. Each end point of the plurality of end points is analyzed to generate a classification for the end point according to one or more parameters. An interface is created between a pair of end points of the plurality of end points, based on the classification generated for each end point in the pair of end points. The interface is established in the echo system for enabling communication between the pair of end points.

As described herein, a system, method, and computer program are provided for establishing an application interface in an echo system. In use, a plurality of end points in a plurality of applications installed on an echo system are identified. Each end point of the plurality of end points is analyzed to generate a classification for the end point according to one or more parameters. An interface is created between a pair of end points of the plurality of end points, based on the classification generated for each end point in the pair of end points. The interface is established in the echo system for enabling communication between the pair of end points.

A method for fetching a content from a web server to a client device is disclosed, using tunnel devices serving as intermediate devices. The client device accesses an acceleration server to receive a list of available tunnel devices. The requested content is partitioned into slices, and the client device sends a request for the slices to the available tunnel devices. The tunnel devices in turn fetch the slices from the data server, and send the slices to the client device, where the content is reconstructed from the received slices. A client device may also serve as a tunnel device, serving as an intermediate device to other client devices. Similarly, a tunnel device may also serve as a client device for fetching content from a data server. The selection of tunnel devices to be used by a client device may be in the acceleration server, in the client device, or in both. The partition into slices may be overlapping or non-overlapping, and the same slice (or the whole content) may be fetched via multiple tunnel devices.

A method (50) of and an arrangement for communicating, by a server, with a target node device in a network of operatively interconnected node devices, wherein each node device of the network comprises a first communication interface for direct wireless communication with the server, and a second communication interface for inter-node device communication. The server determines (51) a current communication status of a target node device based on a last received uplink message of the target node device, prior to initiating message exchange with the target node device. The server then may communicate directly (52) with the target node device via the first communication interface, or via at least one other or delegate node device of the network selected by the server (53).

A data collection device can determine that a connection is unavailable between the data collection device and a data processing platform. The data collection device can obtain, after the connection is unavailable, a plurality of readings. The data collection device can determine, based on determining that the connection is unavailable, to discard one or more readings from the plurality of readings to form a set of readings. The data collection device can store, based on determining that the connection is unavailable, the set of readings without storing the one or more readings. The data collection device can determine, after storing the set of readings, that the connection is available. The data collection device can transmit, based on determining that the connection is available, the set of readings to the data processing platform.

A data collection device can determine that a connection is unavailable between the data collection device and a data processing platform. The data collection device can obtain, after the connection is unavailable, a plurality of readings. The data collection device can determine, based on determining that the connection is unavailable, to discard one or more readings from the plurality of readings to form a set of readings. The data collection device can store, based on determining that the connection is unavailable, the set of readings without storing the one or more readings. The data collection device can determine, after storing the set of readings, that the connection is available. The data collection device can transmit, based on determining that the connection is available, the set of readings to the data processing platform.

Embodiments of the present disclosure may provide a streamlined process for performing operations, such as data sharing and data replication, using multiple accounts. A global identity (also referred to as an organization user) may be employed, where the global identity may have access to multiple accounts across the same or different deployments. The global identity may switch between accounts from its login session and perform various tasks in the context of different accounts without undergoing further authentication.

Embodiments of the present disclosure may provide a streamlined process for performing operations, such as data sharing and data replication, using multiple accounts. A global identity (also referred to as an organization user) may be employed, where the global identity may have access to multiple accounts across the same or different deployments. The global identity may switch between accounts from its login session and perform various tasks in the context of different accounts without undergoing further authentication.

Systems and techniques are provided for the emulation of cloud computing service regions. An emulation system receives an API request including an indication of an endpoint associated with a target region of a cloud computing service from a system in a virtual private cloud. Attributes are extracted from the API request. A manipulated API request is generated from the extracted attributes of the API request. The manipulated API request includes an indication of an endpoint located in a standard region of the cloud computing service. The manipulated API request is transmitted to the endpoint located in the standard region of the cloud computing service.