Methods, systems, and computer-readable media for providing reliable switching between different transport protocols (e.g., TCP and UDP) are presented herein. In some embodiments, a computing platform may stop transmission over a transport protocol. Subsequently, the computing platform may synchronize buffers between a client and a host. For example, the buffer may include acknowledgments for undelivered reliable packets between the client and the host. Next, the computing platform may resume transmission over a different transport protocol. In some embodiments, when establishing an initial connection between a client and a host, connections may be attempted in parallel over multiple transport protocols. After a connection over a first transport protocol is established, if a connection is later established over a second transport protocol, the connection may be transitioned to the second transport protocol. Also, ticketing semantics may be preserved in the switch between the different transport protocols.

Methods, systems, and devices are provided for generating a graphical user interface configured to display, at least in part, a schedule. According to one aspect, the system can receive selectable fields of a client and selectable fields one or more providers from a plurality of providers. The system can determine the quality of pairings between the client and each of the one or more providers based on the one or more selectable fields of the client and the one or more selectable fields of the one or more providers. The system can generate a schedule of potential sessions based on the pairings. The system can score each of the potential sessions and display the schedule and scores to a user.

A system tor securely and reliably transferring startup script files over a network may include a unified extensible firmware interface (UEFI) network stack on a client server wherein the client server requests startup script over the network upon startup of the client server using a secure transfer network protocol and receives over the network the startup script. A computing device may comprise a unified extensible firmware interface (UEFI) shell to request a download of startup script, over a network, upon startup of the client server wherein the startup script is staged in a provisioned storage device within the client server to be mounted as local file systems in the client server. The UEFI shell.

This application provides a message processing method, an apparatus, and a system. The method includes: establishing a first HTTP interaction procedure between a first network element and a second network element; sending, by the first network element, a first request message to the second network element in the first HTTP interaction procedure; before the first network element receives a first response message for the first request message in the first HTTP interaction procedure, initiating, by the second network element, establishment of a second HTTP interaction procedure between the first network element and the second network element; and receiving, by the first network element, a second request message sent by the second network element. The first network element performs an operation on the second request message based on a relationship between the first HTTP interaction procedure and the second HTTP interaction procedure.

This application provides a message processing method, an apparatus, and a system. The method includes: establishing a first HTTP interaction procedure between a first network element and a second network element; sending, by the first network element, a first request message to the second network element in the first HTTP interaction procedure; before the first network element receives a first response message for the first request message in the first HTTP interaction procedure, initiating, by the second network element, establishment of a second HTTP interaction procedure between the first network element and the second network element; and receiving, by the first network element, a second request message sent by the second network element. The first network element performs an operation on the second request message based on a relationship between the first HTTP interaction procedure and the second HTTP interaction procedure.

Methods, systems, and devices are provided for generating a graphical user interface configured to display, at least in part, a schedule. According to one aspect, the system can receive selectable fields of a client and selectable fields one or more providers from a plurality of providers. The system can determine the quality of pairings between the client and each of the one or more providers based on the one or more selectable fields of the client and the one or more selectable fields of the one or more providers. The system can generate a schedule of potential sessions based on the pairings. The system can score each of the potential sessions and display the schedule and scores to a user.

A system for securely and reliably transferring startup script files over a network may include a unified extensible firmware interface (UEFI) network stack on a client server wherein the client server requests startup script over the network upon startup of the client server using a secure transfer network protocol and receives over the network the startup script. A computing device may comprise a unified extensible firmware interface (UEFI) shell to request a download of startup script, over a network, upon startup of the client server wherein the startup script is staged in a provisioned storage device within the client server to be mounted as local file systems in the client server. The UEFI shell.

The techniques disclosed herein enable a system to drive collaboration between users by analyzing user interactions with productivity applications. The system provides intelligence mechanisms that work in concert with telemetry mechanisms to create interactive experiences that encourage users to embrace technology, improve productivity, and increase collaboration. In some configurations, the system can drive collaboration between users by correlating signals that define user interactions with individual productivity applications with contextual data that indicates how time has been allocated. During, or upon completion of a group activity, the system can identify individuals of interest and enable a user to readily share relevant files with the identified individuals.

This application provides a message processing method, an apparatus, and a system. The method includes: establishing a first HTTP interaction procedure between a first network element and a second network element; sending, by the first network element, a first request message to the second network element in the first HTTP interaction procedure; before the first network element receives a first response message for the first request message in the first HTTP interaction procedure, initiating, by the second network element, establishment of a second HTTP interaction procedure between the first network element and the second network element; and receiving, by the first network element, a second request message sent by the second network element. The first network element performs an operation on the second request message based on a relationship between the first HTTP interaction procedure and the second HTTP interaction procedure.

System, device, method, and computer program and computer program products for providing communicating between devices having similar or dissimilar characteristics and facilitating seamless interoperability between them. Computer program software and methods of and systems and devices for sharing of content, applications, resources and control across similar and dissimilar permanently or intermittently connected electronic devices. Devices, systems, appliances, and the like communicating and/or interoperating within the framework provided. A social synchronization interoperability method, such as a Dart Social Synchronization method provides an efficient and easy to administrate method for synchronizing specific sets of data and/or operations across any number of devices and protocols without the need for every device to contact a master device, or for any device to act as a master. Social synchronization of devices and content provides an advantageous alternative to mastered synchronization techniques.