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    • 4. 发明授权
    • On-vehicle information processing unit
    • 车载信息处理单元
    • US06725458B2
    • 2004-04-20
    • US09734210
    • 2000-12-12
    • Mitsuo ShimotaniAkio Uekawa
    • Mitsuo ShimotaniAkio Uekawa
    • G06F1310
    • G06F9/54G01C21/26
    • An on-vehicle information processing unit includes a central processing unit; a first device connected to the central processing unit; a device-dependent driver for driving only the first device; an operating-system-standard (OS-standard) driver enabling an application to drive devices different from the first device; a device-dependent application using the first device through the device-dependent driver; and an OS-dependent application for using the first device through the OS-standard driver. The central processing unit can include a switch for enabling the OS-dependent application only when using an Internet function, and for operating the device-dependent application in a normal mode.
    • 车载信息处理单元包括中央处理单元; 连接到所述中央处理单元的第一设备; 用于仅驱动第一设备的与设备相关的驱动器; 操作系统标准(OS标准)驱动程序,使应用程序能够驱动与第一设备不同的设备; 使用第一设备的设备相关应用通过依赖设备的驱动器; 以及通过OS标准驱动程序使用第一个设备的操作系统相关应用程序。 中央处理单元可以包括仅在使用因特网功能时才使得依赖于OS的应用的开关,并且用于以正常模式操作依赖于设备的应用。
    • 8. 发明授权
    • SYSTEM FOR RECONFIGURING A FIRST DEVICE AND/OR A SECOND DEVICE TO USE A MAXIMUM COMPATIBLE COMMUNICATION PARAMETERS BASED ON TRANSMITTING A COMMUNICATION TO THE FIRST AND SECOND DEVICES OF A POINT-TO-POINT LINK
    • 用于重新配置第一设备和/或第二设备的系统,以便基于向点到点链路的第一和第二设备发送通信来使用最大的兼容通信参数
    • US06665742B2
    • 2003-12-16
    • US09773777
    • 2001-01-31
    • Jonathan M. OwenMark D. HummelDerrick R. Meyer
    • Jonathan M. OwenMark D. HummelDerrick R. Meyer
    • G06F1310
    • H04L29/06H04L69/24
    • A method for initializing a computing system comprising a plurality of devices which communicate on a communication link comprising a plurality of independent point-to-point links is provided, each of the point-to-point links interconnecting a respective pair of the plurality of devices. The method includes a link initialization procedure comprising initially configuring each respective pair of devices to communicate on the respective interconnecting link using common communication parameters, including a common frequency and a common link width. The link initialization procedure also may include an optimization procedure for determining maximum communication parameters for each interconnected pair of devices. If the maximum compatible parameters differ from the common parameters for any pair of devices, then the pair of devices may be reconfigured to communicate on the interconnecting link using the maximum compatible parameters. Once a communication capability has been established, the establishment of one or more communication fabrics for the computer system may be performed.
    • 提供了一种用于初始化包括在包括多个独立点对点链路的通信链路上通信的多个设备的计算系统的方法,每个点对点链路互连所述多个设备中的相应对 。 该方法包括链路初始化过程,其包括首先使用包括公共频率和公共链路宽度的公共通信参数在每个互连链路上配置每个相应设备对进行通信。 链路初始化过程还可以包括用于确定每个互连的设备对的最大通信参数的优化过程。 如果最大兼容参数与任何设备对的公共参数不同,则可以使用最大兼容参数将该对设备重新配置为在互连链路上进行通信。 一旦建立了通信能力,就可以执行用于计算机系统的一个或多个通信结构的建立。
    • 9. 发明授权
    • Recording, storing, and emulating user interaction events
    • 记录,存储和模拟用户交互事件
    • US06631345B1
    • 2003-10-07
    • US09373880
    • 1999-08-12
    • Daniel M. SchumacherThomas James Watson
    • Daniel M. SchumacherThomas James Watson
    • G06F1310
    • G06F9/45512
    • A method, system, and computer program product for emulating a sequence of events resulting from user interaction with an applet in which the storing and retrieval of queued event objects is facilitated through the use of an index to a component vector. When an applet event recorder is invoked and the applet selected, an automator initializes the applet and generates a component vector that includes a reference to each component of the applet. Events are then detected by the applet event recorder via automator listeners. The automator then generates queued event objects and stores the queued event objects in an automator queue. The generation of queued event objects in one embodiment includes the generation of a component index value that points to the component of component vector that references the applet component that was responsible for generating the corresponding user interaction event. When it is later desirable to emulate the recorded portions of the original user interaction sequence, the automator generates constructed objects from the queued event objects. If the emulation of the original sequence occurs when the instance of applet present during the original user interaction sequence is no longer present, the component vector is generated for a second time. Each time the component vector is generated, the ordering of the components in the component vector is identical. In this manner, the component index field always points to the corrector vector component. The constructed objects are then played back to emulate the recorded portion of the original user interaction sequence by posting the constructed objects to system queue where they are dispatched to applet listeners.
    • 一种用于模拟与小应用程序的用户交互产生的事件序列的方法,系统和计算机程序产品,其中通过使用向组件向量的索引来促进排队的事件对象的存储和检索。 当调用小程序事件记录器并选择小程序时,自动程序将初始化小程序并生成包含对小程序的每个组件的引用的组件向量。 事件由applet事件记录器通过自动监听器检测。 然后,自动程序生成排队的事件对象,并将排队的事件对象存储在自动机队列中。 在一个实施例中,排队的事件对象的生成包括生成指向组件向量组件的组件索引值,所述组件向量的组件引用负责生成相应的用户交互事件的小应用程序组件。 当稍后期望模拟原始用户交互序列的记录部分时,自动机从排队的事件对象生成构造的对象。 如果在原始用户交互序列中存在的小程序的实例不再存在的情况下发生原始序列的仿真,则第二次生成分量向量。 每次生成分量向量时,分量向量中的分量的顺序是相同的。 以这种方式,分量索引字段总是指向校正矢量分量。 然后通过将构造的对象发布到系统队列,将其构建的对象重播以模拟原始用户交互序列的记录部分,并将其分派到小程序侦听器。
    • 10. 发明授权
    • Methods and apparatus for transferring data using a device driver
    • 使用设备驱动程序传输数据的方法和设备
    • US06594709B1
    • 2003-07-15
    • US09405612
    • 1999-09-24
    • Saravanan AgasaveeranRajesh AgrawalJames BalestriereSteven BerlGordon CoxSatish GannuAniruddha KhareM. Salim OlimeJohn G. Waclawsky
    • Saravanan AgasaveeranRajesh AgrawalJames BalestriereSteven BerlGordon CoxSatish GannuAniruddha KhareM. Salim OlimeJohn G. Waclawsky
    • G06F1310
    • G06F11/1492G06F9/54G06F11/004G06F11/1487
    • The invention is directed to techniques for transferring data using a device driver that is arranged to prevent improper operation of a non-primary routine (e.g., an administrative operation) from causing improper operation of a primary routine (e.g., a data transfer operation). Accordingly, the primary routine can continue to operate properly after a failure of the non-primary routine. In one arrangement, a data communications device transfers data. The data communications device includes a port that couples to a network, and a processor coupled to the port. The data communications device further includes memory, coupled to the processor, that stores a device driver. The device driver has a first set of instructions that directs the processor to perform a data transfer routine that moves data between memory and the port, and a second set of instructions that directs the processor to perform an administrative routine. The second set of instructions is arranged to prevent improper operation of the administrative routine from causing improper operation of the data transfer routine. In particular, execution and communication mechanisms enable the primary and administrative routines to operate in such a fault-tolerant manner.
    • 本发明涉及用于使用被设置为防止非主要例程(例如,管理操作)的不正确操作导致主程序(例如,数据传送操作)的不正确操作的设备驱动程序来传送数据的技术。 因此,主程序可以在非主程序故障之后继续正常运行。 在一种布置中,数据通信设备传送数据。 数据通信设备包括耦合到网络的端口和耦合到该端口的处理器。 数据通信设备还包括存储设备驱动器的存储器,其耦合到处理器。 设备驱动器具有指导处理器执行在存储器和端口之间移动数据的数据传输例程的第一组指令,以及指示处理器执行管理程序的第二组指令。 第二组指令被设置为防止管理程序的不正常操作导致数据传输例程的不正确操作。 特别地,执行和通信机制使主要和管理例程能够以这样的容错方式运行。