摘要:
The present technique provides a system and method for automatically switching a computer system between multiple display profiles in response to a system event, such as a hardware event. The present technique detects the system event, identifies the hardware configuration of the computer system, and automatically reconfigures the computer system to accommodate the hardware configuration in real-time. The system event may be a physical rotation of a display between landscape and portrait orientations or between viewing and writing orientations. The system event also may be a physical docking or undocking of a first computing device with a second device in a variety of mounting positions. Any suitable sensor, switch, or hardware/software detection mechanism may be used for the foregoing event detection.
摘要:
The disclosed embodiments provide rapid access to information stored on a personal computing device even though the personal computing device is powered off or otherwise in a low-power consumption state such as a sleep state or hibernation state. An software component gathers user data in a location such as a non-volatile memory associated with a host computer. A browser component accesses the stored data and makes it available to the user when the host computer is powered down or otherwise in a state of low power consumption.
摘要:
The present technique provides a system and method for automatically switching a computer system between multiple display profiles in response to a system event, such as a hardware event. The present technique detects the system event, identifies the hardware configuration of the computer system, and automatically reconfigures the computer system to accommodate the hardware configuration in real-time. The system event may be a physical rotation of a display between landscape and portrait orientations or between viewing and writing orientations. The system event also may be a physical docking or undocking of a first computing device with a second device in a variety of mounting positions. Any suitable sensor, switch, or hardware/software detection mechanism may be used for the foregoing event detection.
摘要:
The disclosed embodiments provide rapid access to information stored on a personal computing device even though the personal computing device is powered off or otherwise in a low-power consumption state such as a sleep state or hibernation state. An software component gathers user data in a location such as a non-volatile memory associated with a host computer. A browser component accesses the stored data and makes it available to the user when the host computer is powered down or otherwise in a state of low power consumption.
摘要:
The disclosed embodiments provide rapid access to information stored on a personal computing device even though the personal computing device is powered off or otherwise in a low-power consumption state such as a sleep state or hibernation state. An software component gathers user data in a location such as a non-volatile memory associated with a host computer. A browser component accesses the stored data and makes it available to the user when the host computer is powered down or otherwise in a state of low power consumption.
摘要:
The disclosed embodiments provide a multiple-position docking station for a tablet personal computing device. A different mode of operation of the tablet personal computing device is supported by different positions of the docking station. A first mode of operation may be supported when the tablet personal computing device is positioned to extend in a more or less perpendicular direction from a work surface. A second mode of operation may be supported when the tablet personal computing device is positioned so that it extends in a more or less parallel direction with respect to a work surface.
摘要:
The present technique provides a system and method for automatically switching a computer system between multiple display profiles in response to a system event, such as a hardware event. The present technique detects the system event, identifies the hardware configuration of the computer system, and automatically reconfigures the computer system to accommodate the hardware configuration in real-time. The system event may be a physical rotation of a display between landscape and portrait orientations or between viewing and writing orientations. The system event also may be a physical docking or undocking of a first computing device with a second device in a variety of mounting positions. Any suitable sensor, switch, or hardware/software detection mechanism may be used for the foregoing event detection.
摘要:
A method is employed for pre-assignment and pre-scheduling of tasks that enables allocation across multiple physical processors arranged in a variety of architectures. The method comprises the steps of: constructing a DFG of tasks to be performed to provide a solution for a problem; determining cost values for each task and the overall problem, such cost values taking into account a target multiprocessor architecture and factors such as elapsed task execution times. The method pre-assigns the tasks to logical processors and assures that inter-dependent tasks are executable by logical processors that are within required communications delay criteria of each other. The assigning action attempts to arrive at a minimal cost value for all tasks comprising the problem. The pre-assigned tasks are then pre-scheduled based upon a performance criteria and are converted to machine code. The machine code is then deployed to physical processors in the target multi-processor architecture. The deploying action maps the logical processors' pre-assigned programs (comprising assigned tasks) onto physical processors, using data regarding the multi-processor architecture and the current utilization of the physical processors in the architecture, all while assuring that inter-dependent tasks are mapped so as to fulfill interprocessor communication delay criteria.