Improved techniques for managing enterprise applications on mobile devices are described herein. Each enterprise mobile application running on the mobile device has an associated policy through which it interacts with its environment. The policy selectively blocks or allows activities involving the enterprise application in accordance with rules established by the enterprise. Together, the enterprise applications running on the mobile device form a set of managed applications. Managed applications are typically allowed to exchange data with other managed applications, but are blocked from exchanging data with other applications, such as the user's own personal applications. Policies may be defined to manage data sharing, mobile resource management, application specific information, networking and data access solutions, device cloud and transfer, dual mode application software, enterprise app store access, and virtualized application and resources, among other things.

Policy-Based Application Management

A runtime adaptable search processor is disclosed. The search processor provides high speed content search capability to meet the performance need of network line rates growing to 1Gbps, IOGbps and higher. The search processor provides a unique combination of NFA and DFA based search engines that can processincoming data in parallel to perform the search against the specific rules programmed in the search engines. The procesor architecture also provides capabilities to transport and process Internet Protocol (IP) packets from Layer 2 through transport protocol layer and may also provide packet inspection through Layer 7. A security system is also disclosed that enables a new way of implementing security capabilities inside enterprise networks in a distributed manner using a protocol processing hardware with appropriate security features.

Runtime adaptable search processor

A method for providing access to a computing environment includes the step of receiving a request from a client system for an enumeration of available computing environments. Collected data regarding available computing environments are accessed. Accessed data are transmitted to a client system, the accessed data indicating to the client system each computing environment available to a user of the client system. A request is received from the client system to access one of the computing environments. A connection is established between the client system and a virtual machine hosting the requested computing environment via a terminal services session, the virtual machine executed by a hypervisor executing in the terminal services session provided by an operating system executing on one of a plurality of execution machines.

Methods and servers for establishing a connection between a client system and a virtual machine executing in a terminal services session and hosting a requested computing environment

The present invention is directed towards the acceleration of delivery of a computing environment to a remote user of a client at a remote location. The computing environment may include an application and a data file used or processed by the application. The application and data file may be stored or provided via a server remote to the client. The user can request a computing environment from the server that provides for execution of the application by the user via the remote computer. For example, the server may stream the application to the remote client. The client and server may communicate via an appliance that accelerates communications between the client and server. For example, the appliance may accelerate the streaming of the application to the remote user. In some cases, the application or remote user may also request a data file from the server, and the appliance accelerates the delivery of the data file to the remote user. As such, users at remote locations obtain accelerated access via any network connected device to applications and data files located remotely to the user.

Systems and methods for accelerating delivery of a computing environment to remote user

A method for executing, by a virtual machine, an application program requested by a client machine includes the step of receiving a file including access information for accessing a plurality of application files and for executing a first client capable of receiving an application stream. An identification of the plurality of application files is retrieved, responsive to the received file. At least one characteristic required for execution of the plurality of application files is retrieved, responsive to the file. A determination is made as to whether a client machine includes the at least one characteristic. A second client is executed, responsive to a determination that the client machine lacks the at least one characteristic, the second client requesting execution of the plurality of application files on a remote machine comprising a virtual machine providing a computing environment having the at least one characteristic.

Methods and systems for executing, by a virtual machine, an application program requested by a client machine

A network processing system uses intelligent security hardware is a security accelerator at its front end. The security hardware performs initial processing of incoming data, such as security detection tasks. The security hardware is directly connected to one or more processing units, via a bus or switch fabric, which execute appropriate applications and/or storage programming.

Network security accelerator

Systems and methods are provided for network connected computing systems that employ functional multi-processing to optimize bandwidth utilization and accelerate system performance. In one embodiment, the network connected computing system may include a switch based computing system. The system may further include an asymmetric multi-processor system configured in a staged pipeline manner. The network connected computing system may be utilized in one embodiment as a network endpoint system that provides content delivery.

Network connected computing systems

Systems and methods are provided for network connected content delivery systems that employ functional multi-processing to optimize bandwidth utilization and accelerate system performance. In one embodiment, the content delivery system may include a switch based computing system. The system may further include an asymmetric multi-processor system configured in a staged pipeline manner.

Content delivery system providing accelerate content delivery

Systems and methods are provided for network connected computing systems that employ functional multi-processing to optimize bandwidth utilization and accelerate system performance. In one embodiment, the network connected computing system may include a switch based computing system. The switch employed in the system may be a switch fabric. The system may further include an asymmetric multi-processor system configured in a staged pipeline manner. The network connected computing system may be utilized in one embodiment as a network endpoint system that provides content delivery.

Interprocess communications within a network node using switch fabric

Systems and methods are provided for network connected computing systems that employ functional multi-processing to optimize bandwidth utilization and accelerate system performance. In one embodiment, the network connected computing system may include a switch based computing system. The system may further include an asymmetric multi-processor system configured in a staged pipeline manner. The components of the system may communicate as peers in a peer to peer environment. The network connected computing system may be utilized in one embodiment as a network endpoint system that provides content delivery.

Rodney S. Canion

Papers

Network security accelerator

Network connected computing systems

Content delivery system providing accelerate content delivery

Interprocess communications within a network node using switch fabric

Network content delivery system with peer to peer processing components