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热词
    • 1. 发明授权
    • Method, apparatus and program storage device that provides a user mode device interface
    • 提供用户模式设备接口的方法,设备和程序存储设备
    • US09176713B2
    • 2015-11-03
    • US11289985
    • 2005-11-30
    • Chiahong ChenRadha K. RamachandranCheng-Chung Song
    • Chiahong ChenRadha K. RamachandranCheng-Chung Song
    • G06F15/16G06F9/44
    • G06F8/36
    • A method, apparatus and program storage device that provides a user mode device interface for enabling software reuse. The user mode device interface allows device interface requests to be sent and received, including commands and data structures, via socket communication. A device state machine on the client side is implemented in a set of shared functions that can be incorporated by all applications that want to communicate to a particular service provider. The service provider offers the software functions over a user mode device interface via socket communication. The device state machine on the service provider side is embedded in the socket server implementation. The interaction between the state machines on both client and server sides ensures a device interface request is properly handled.
    • 一种提供用于启用软件重用的用户模式设备接口的方法,设备和程序存储设备。 用户模式设备接口允许通过套接字通信发送和接收设备接口请求,包括命令和数据结构。 客户端上的设备状态机被实现在一组共享功能中,所述共享功能可以由希望与特定服务提供商通信的所有应用程序并入。 服务提供商通过套接字通信在用户模式设备接口上提供软件功能。 服务提供商侧的设备状态机嵌入在套接字服务器实现中。 客户端和服务器端之间的状态机之间的交互确保设备接口请求被正确处理。
    • 5. 发明申请
    • Method, apparatus and program storage device that provides a user mode device interface
    • 提供用户模式设备接口的方法,设备和程序存储设备
    • US20070124365A1
    • 2007-05-31
    • US11289985
    • 2005-11-30
    • Chiahong ChenRadha RamachandranCheng-Chung Song
    • Chiahong ChenRadha RamachandranCheng-Chung Song
    • G06F15/16
    • G06F8/36
    • A method, apparatus and program storage device that provides a user mode device interface for enabling software reuse. The user mode device interface allows device interface requests to be sent and received, including commands and data structures, via socket communication. A device state machine on the client side is implemented in a set of shared functions that can be incorporated by all applications that want to communicate to a particular service provider. The service provider offers the software functions over a user mode device interface via socket communication. The device state machine on the service provider side is embedded in the socket server implementation. The interaction between the state machines on both client and server sides ensures a device interface request is properly handled.
    • 一种提供用于启用软件重用的用户模式设备接口的方法,设备和程序存储设备。 用户模式设备接口允许通过套接字通信发送和接收设备接口请求,包括命令和数据结构。 客户端上的设备状态机被实现在一组共享功能中,所述共享功能可以由希望与特定服务提供商通信的所有应用程序并入。 服务提供商通过套接字通信在用户模式设备接口上提供软件功能。 服务提供商侧的设备状态机嵌入在套接字服务器实现中。 客户端和服务器端之间的状态机之间的交互确保设备接口请求被正确处理。
    • 6. 发明授权
    • Non-disruptive code update of a single processor in a multi-processor computing system
    • 多处理器计算系统中单个处理器的无中断代码更新
    • US08898653B2
    • 2014-11-25
    • US11769083
    • 2007-06-27
    • Stephen L. BlinickChiahong Chen
    • Stephen L. BlinickChiahong Chen
    • G06F9/44G06F9/445
    • G06F9/44505G06F8/65G06F9/4401
    • Updating code of a single processor in a multi-processor system includes halting transactions processed by a first processor in the system and processing of transactions by a second processor in the system are maintained. The first processor then receives new code and an operating system running on the first processor is terminated whereby all processes and threads being executed by the first processor are terminated. Execution of a self-reset of the first processor is commenced and interrupts associated with the first processor are disabled. Only those system resources exclusively associated with the first processor are reset, and memory transactions associated with the first processor are disabled. An image of the new code is copied into memory associated with the first processor, registers associated with the first processor are reset and the new code is booted by the first processor.
    • 在多处理器系统中更新单个处理器的代码包括停止由系统中的第一处理器处理的事务,并且维护由系统中的第二处理器处理事务的处理。 然后,第一处理器接收新的代码,并且终止在第一处理器上运行的操作系统,由此终止由第一处理器执行的所有进程和线程。 开始执行第一处理器的自复位,并且禁用与第一处理器相关联的中断。 只有与第一处理器完全相关联的系统资源被重置,并且与第一处理器相关联的存储器事务被禁用。 将新代码的图像复制到与第一处理器相关联的存储器中,与第一处理器相关联的寄存器被复位,并且新代码由第一处理器引导。