公开(公告)号：US08907986B2

公开(公告)日：2014-12-09

申请号：US12356655

申请日：2009-01-21

申请人： Peter D. Hunt ,  Lan Wang ,  Pablo J. Salazar ,  Mark E. Baerenstecher ,  Vali Ali

发明人： Peter D. Hunt ,  Lan Wang ,  Pablo J. Salazar ,  Mark E. Baerenstecher ,  Vali Ali

IPC分类号： G09G5/00 ,  G06F1/16 ,  G06F3/00 ,  G06F3/0354 ,  G06F3/0488

CPC分类号： G06F3/0488 ,  G06F1/1626 ,  G06F1/1632 ,  G06F1/1656 ,  G06F1/166 ,  G06F1/1669 ,  G06F1/1671 ,  G06F1/169 ,  G06F3/03545 ,  G06F2200/1614

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.

摘要翻译： 本技术提供了一种用于响应于诸如硬件事件的系统事件自动地在多个显示简档之间切换计算机系统的系统和方法。 本技术检测系统事件，识别计算机系统的硬件配置，并实时自动重新配置计算机系统以适应硬件配置。 系统事件可以是横向和纵向方向之间或者在观看和写入方向之间的显示的物理旋转。 系统事件还可以是具有在各种安装位置的第二设备的第一计算设备的物理对接或脱离。 任何合适的传感器，开关或硬件/软件检测机制可用于前述事件检测。

公开(公告)号：US08719301B2

公开(公告)日：2014-05-06

申请号：US12972643

申请日：2010-12-20

申请人： Peter D. Hunt ,  Pablo Salazar ,  Valiuddin Ali

发明人： Peter D. Hunt ,  Pablo Salazar ,  Valiuddin Ali

IPC分类号： G06F17/30

CPC分类号： G06F9/4418 ,  G06F1/3203 ,  Y02D10/44

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.

摘要翻译： 所公开的实施例即使个人计算设备断电或处于诸如休眠状态或休眠状态的低功耗状态下，也可快速访问存储在个人计算设备上的信息。 软件组件在诸如与主机相关联的非易失性存储器的位置收集用户数据。 浏览器组件访问存储的数据，并使主机在断电或处于低功耗状态时可供用户使用。

公开(公告)号：US07952569B2

公开(公告)日：2011-05-31

申请号：US10214818

申请日：2002-08-08

申请人： Peter D. Hunt ,  Lan Wang ,  Pablo J. Salazar ,  Mark E. Baerenstecher ,  Vali Ali

发明人： Peter D. Hunt ,  Lan Wang ,  Pablo J. Salazar ,  Mark E. Baerenstecher ,  Vali Ali

IPC分类号： G09G5/00 ,  G06F3/033 ,  G06T3/60

CPC分类号： G06F3/0488 ,  G06F1/1626 ,  G06F1/1632 ,  G06F1/1656 ,  G06F1/166 ,  G06F1/1669 ,  G06F1/1671 ,  G06F1/169 ,  G06F3/03545 ,  G06F2200/1614

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.

摘要翻译： 本技术提供了一种用于响应于诸如硬件事件的系统事件自动地在多个显示简档之间切换计算机系统的系统和方法。 本技术检测系统事件，识别计算机系统的硬件配置，并实时自动重新配置计算机系统以适应硬件配置。 系统事件可以是横向和纵向方向之间或者在观看和写入方向之间的显示的物理旋转。 系统事件还可以是具有在各种安装位置的第二设备的第一计算设备的物理对接或脱离。 任何合适的传感器，开关或硬件/软件检测机制可用于前述事件检测。

公开(公告)号：US20110087643A1

公开(公告)日：2011-04-14

申请号：US12972643

申请日：2010-12-20

申请人： Peter D. Hunt ,  Pablo Salazar ,  Valiuddin Ali

发明人： Peter D. Hunt ,  Pablo Salazar ,  Valiuddin Ali

IPC分类号： G06F17/30

CPC分类号： G06F9/4418 ,  G06F1/3203 ,  Y02D10/44

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.

摘要翻译： 所公开的实施例即使个人计算设备断电或处于诸如休眠状态或休眠状态的低功耗状态下，也可快速访问存储在个人计算设备上的信息。 软件组件在诸如与主机相关联的非易失性存储器的位置收集用户数据。 浏览器组件访问存储的数据，并使主机在断电或处于低功耗状态时可供用户使用。

公开(公告)号：US07882162B2

公开(公告)日：2011-02-01

申请号：US10214668

申请日：2002-08-08

申请人： Peter D. Hunt ,  Pablo Salazar ,  Valiuddin Ali

发明人： Peter D. Hunt ,  Pablo Salazar ,  Valiuddin Ali

IPC分类号： G06F12/00 ,  G06F17/30 ,  G06F1/26 ,  G06F1/32

CPC分类号： G06F9/4418 ,  G06F1/3203 ,  Y02D10/44

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.

摘要翻译： 所公开的实施例即使个人计算设备断电或处于诸如休眠状态或休眠状态的低功耗状态下，也可快速访问存储在个人计算设备上的信息。 软件组件在诸如与主机相关联的非易失性存储器的位置收集用户数据。 浏览器组件访问存储的数据，并使主机在断电或处于低功耗状态时可供用户使用。

公开(公告)号：US07209124B2

公开(公告)日：2007-04-24

申请号：US10214827

申请日：2002-08-08

申请人： Peter D. Hunt ,  Pablo Salazar ,  Mark Baerenstecher

发明人： Peter D. Hunt ,  Pablo Salazar ,  Mark Baerenstecher

IPC分类号： G09G5/00

CPC分类号： G06F1/1632 ,  G06F1/1626 ,  G06F3/147 ,  G09G2340/0492

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.

摘要翻译： 所公开的实施例提供了一种用于平板电脑个人计算设备的多位置对接站。 平板电脑个人计算设备的不同操作模式由对接站的不同位置支持。 当平板电脑个人计算设备被定位成从工作表面沿或多或少垂直的方向延伸时，可以支持第一操作模式。 当平板电脑个人计算设备被定位成使得其相对于工作表面在或多或少的平行方向上延伸时，可以支持第二操作模式。

公开(公告)号：US20090187677A1

公开(公告)日：2009-07-23

申请号：US12356655

申请日：2009-01-21

申请人： Peter D. Hunt ,  Lan Wang ,  Pablo J. Salazar ,  Mark E. Baerenstecher ,  Vali Ali

发明人： Peter D. Hunt ,  Lan Wang ,  Pablo J. Salazar ,  Mark E. Baerenstecher ,  Vali Ali

IPC分类号： G06F3/00 ,  G06F13/00

CPC分类号： G06F3/0488 ,  G06F1/1626 ,  G06F1/1632 ,  G06F1/1656 ,  G06F1/166 ,  G06F1/1669 ,  G06F1/1671 ,  G06F1/169 ,  G06F3/03545 ,  G06F2200/1614

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.

摘要翻译： 本技术提供了一种用于响应于诸如硬件事件的系统事件自动地在多个显示简档之间切换计算机系统的系统和方法。 本技术检测系统事件，识别计算机系统的硬件配置，并实时自动重新配置计算机系统以适应硬件配置。 系统事件可以是横向和纵向方向之间或者在观看和写入方向之间的显示的物理旋转。 系统事件还可以是具有在各种安装位置的第二设备的第一计算设备的物理对接或脱离。 任何合适的传感器，开关或硬件/软件检测机制可用于前述事件检测。

公开(公告)号：US5418953A

公开(公告)日：1995-05-23

申请号：US46028

申请日：1993-04-12

申请人： Peter D. Hunt ,  Jon K. Elliott ,  Richard J. Tobias ,  Alan J. Herring ,  Craig R. Morgan ,  John A. Hiller

发明人： Peter D. Hunt ,  Jon K. Elliott ,  Richard J. Tobias ,  Alan J. Herring ,  Craig R. Morgan ,  John A. Hiller

IPC分类号： G06F9/46 ,  G06F9/50 ,  G06F15/16 ,  G06F15/177 ,  G06F15/82 ,  G06F9/40

CPC分类号： G06F9/5066

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.

摘要翻译： 采用一种方法用于预先分配和预先安排任务，这些任务能够在多种结构中排列的多个物理处理器之间进行分配。 该方法包括以下步骤：构建要执行的任务的DFG以提供问题的解决方案; 确定每个任务的成本值和总体问题，考虑到目标多处理器架构以及诸如经过的任务执行时间之类的因素的这种成本值。 该方法将任务分配给逻辑处理器，并确保相互依赖的任务可由逻辑处理器执行，这些逻辑处理器在彼此所需的通信延迟标准之内。 分配动作尝试为包含该问题的所有任务达到最低成本值。 然后，预先分配的任务将根据性能标准进行预先安排，并转换为机器代码。 然后将机器代码部署到目标多处理器架构中的物理处理器。 部署动作使用关于多处理器架构的数据和架构中的物理处理器的当前利用率将逻辑处理器的预先分配的程序（包括分配的任务）映射到物理处理器上，同时确保相互依赖的任务是 映射以实现处理器间通信延迟标准。