A connection analyzer at a server information handling system analyzes virtual desktop requests from client information handling systems to prioritize available virtual desktop display protocols for responding to the requests based upon the client type and network interface. The virtual desktop is established by reference to a priority list of virtual desktop display protocols available for sending virtual desktops from a server information handling system.

A connection analyzer at a server information handling system analyzes virtual desktop requests from client information handling systems to prioritize available virtual desktop display protocols for responding to the requests based upon the client type and network interface. The virtual desktop is established by reference to a priority list of virtual desktop display protocols available for sending virtual desktops from a server information handling system.

Various techniques for facilitating communication with and across a clinical environment and a cloud environment are described. For example, a method for authenticating a network device residing in the clinical environment using a token is described. An authentication proxy in the cloud environment can receive a request from a connectivity adapter in the clinical environment and retrieve a security token from an authentication system in the cloud. The connectivity adapter can use the security token to send signed requests to the authentication system.

Various techniques for facilitating communication with and across a clinical environment and a cloud environment are described. For example, a method for authenticating a network device residing in the clinical environment using a token is described. An authentication proxy in the cloud environment can receive a request from a connectivity adapter in the clinical environment and retrieve a security token from an authentication system in the cloud. The connectivity adapter can use the security token to send signed requests to the authentication system.

In some examples, a system includes a Fibre Channel (FC) interface to communicate over an FC network, and a network stack including a network layer and a transport layer. Machine-readable instructions are executable to produce a command packet including a payload including data for transmission to another system, the payload further including headers for the network layer and the transport layer, where the command packet is according to a storage interface protocol. The FC interface is to communicate the command packet over the FC network.

In order to allow for improvement on a case where data of a cellular network is transmitted and/or received through a wireless local area network (WLAN), a base station of the present invention includes: a first communication processing unit configured to add a header of a framing protocol to downlink data transmitted to a terminal apparatus; and a second communication processing unit configured to transmit the downlink data to which the header is added to a gateway that is used for transmission from the base station to the terminal apparatus through a wireless local area network. The framing protocol is a protocol for communication between the base station and the gateway and the header includes identification information corresponding to quality of service for the downlink data.

In order to allow for improvement on a case where data of a cellular network is transmitted and/or received through a wireless local area network (WLAN), a base station of the present invention includes: a first communication processing unit configured to add a header of a framing protocol to downlink data transmitted to a terminal apparatus; and a second communication processing unit configured to transmit the downlink data to which the header is added to a gateway that is used for transmission from the base station to the terminal apparatus through a wireless local area network. The framing protocol is a protocol for communication between the base station and the gateway and the header includes identification information corresponding to quality of service for the downlink data.

Technologies for dynamic accelerator selection include a compute sled. The compute sled includes a network interface controller to communicate with a remote accelerator of an accelerator sled over a network, where the network interface controller includes a local accelerator and a compute engine. The compute engine is to obtain network telemetry data indicative of a level of bandwidth saturation of the network. The compute engine is also to determine whether to accelerate a function managed by the compute sled. The compute engine is further to determine, in response to a determination to accelerate the function, whether to offload the function to the remote accelerator of the accelerator sled based on the telemetry data. Also the compute engine is to assign, in response a determination not to offload the function to the remote accelerator, the function to the local accelerator of the network interface controller.

A mobile device can include ranging circuitry to determine distance to another mobile device. A first wireless protocol can establish an initial communication session to perform authentication and/or exchange ranging settings. A second protocol can perform ranging, and other wireless protocols can transmit content. In one example, the distance information can be used to display a relative position of another device on a user interface of a sending device. The user interface can allow a user to quickly and accurately select the recipient device for sending the data item. As another example, the distance information obtained from ranging can be used to trigger a notification (e.g., a reminder) to be output from a first mobile device or used to display a visual indicator on a receiving device. Proximity of a device (e.g., as determined by a distance) can be used to suggest recipient for a new communication.

A mobile device can include ranging circuitry to determine distance to another mobile device. A first wireless protocol can establish an initial communication session to perform authentication and/or exchange ranging settings. A second protocol can perform ranging, and other wireless protocols can transmit content. In one example, the distance information can be used to display a relative position of another device on a user interface of a sending device. The user interface can allow a user to quickly and accurately select the recipient device for sending the data item. As another example, the distance information obtained from ranging can be used to trigger a notification (e.g., a reminder) to be output from a first mobile device or used to display a visual indicator on a receiving device. Proximity of a device (e.g., as determined by a distance) can be used to suggest recipient for a new communication.