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    • 2. 发明授权
    • Method and system for environmental sensing and control within a computer system
    • 计算机系统内环境感知和控制的方法和系统
    • US06308289B1
    • 2001-10-23
    • US09165161
    • 1998-10-01
    • George Henry AhrensMike Conrad DuronRobert Allan FaustCharles Andrew McLaughlinCraig Henry ShempertKurt Paul Szabo
    • George Henry AhrensMike Conrad DuronRobert Allan FaustCharles Andrew McLaughlinCraig Henry ShempertKurt Paul Szabo
    • G06F1100
    • G06F11/3058G06F1/206G06F1/30
    • In accordance with the method and system of the present invention, a local processor utilizes registers arranged in a fault/mask/cache fashion for environmental control and sensing within a data processing system. The local processor continuously reads input data from a variety of environmental sensors in order to determine if a threshold level has been reached and a fault condition exists. Cache registers allow the local processor to store/pass detailed sensor information to system firmware within system processor(s). The local processor sets a fault bit within a fault register designed to cause an interrupt to the system level firmware if any of its bits are non-zero, indicating that a fault condition has occurred. A mask register is designed to allow the interaction of both the local processor and system processor(s) when an interrupt is being serviced and help keeps track of which interrupts are being serviced and which are yet to be serviced in the case of multiple interrupt sources. The system firmware will service the interrupt and set the mask bit. The action will signal the local processor that the system has acknowledged the interrupt and will take the appropriate action. The local processor may now post another fault, exactly like the first fault, by clearing the mask bit and causing a subsequent interrupt to the system. The fault, mask, cache, and both local and system processor(s) work together to provide a positive interlock for synchronizing their actions with each other.
    • 根据本发明的方法和系统,本地处理器利用以故障/掩码/高速缓存方式排列的用于数据处理系统内的环境控制和感测的寄存器。 本地处理器连续读取来自各种环境传感器的输入数据,以确定是否达到阈值水平并且存在故障状况。 缓存寄存器允许本地处理器将详细的传感器信息存储/传递到系统处理器内的系统固件。 本地处理器在故障寄存器内设置一个故障位,用于在系统级固件中的任一位非零时引起中断,表示发生了故障状态。 掩码寄存器被设计为允许本地处理器和系统处理器在中断被服务时的交互,并帮助记录在多个中断源的情况下跟踪哪些中断被服务以及哪些中断服务 。 系统固件将为中断服务并设置掩码位。 该操作将通知本地处理器系统已经确认中断,并采取适当的措施。 本地处理器现在可以通过清除掩码位并导致系统的后续中断来发布完全像第一个故障的另一个故障。 故障,掩码,缓存以及本地和系统处理器一起工作,为彼此的动作同步提供了一个积极的互锁。
    • 6. 发明授权
    • Self-tuning input output device
    • 自整定输入输出设备
    • US08650330B2
    • 2014-02-11
    • US12723621
    • 2010-03-12
    • Mike Conrad DuronMark David McLaughlinJames Earl Smith
    • Mike Conrad DuronMark David McLaughlinJames Earl Smith
    • G06F3/00
    • G06F13/385
    • A method, system, and computer usable program product for a self-tuning I/O device are provided in the illustrative embodiments. A change is detected in an adapter communicating with the I/O device, the I/O device being a consolidator configured to communicate with the adapter in a data network. A type of the adapter is determined. Values for each parameter in a set of parameters corresponding to the type of the adapter are determined. The values of a first subset of the parameters are applied to the consolidator, applying the values of the first subset causing the consolidator to be configured to operate in a preferred configuration with the adapter.
    • 在说明性实施例中提供了用于自调谐I / O设备的方法,系统和计算机可用程序产品。 在与I / O设备通信的适配器中检测到更改,I / O设备是被配置为在数据网络中与适配器通信的整合器。 确定适配器的类型。 确定与适配器类型对应的一组参数中的每个参数的值。 将参数的第一子集的值应用于整合器,应用第一子集的值,使得整合器被配置为在适配器的优选配置中操作。
    • 8. 发明授权
    • Disposable, self-driven centrifuge
    • 一次性自驱离心机
    • US06579220B2
    • 2003-06-17
    • US09739070
    • 2000-12-18
    • Peter K. HermanIsmail BagciByron A. PardueMike ConradMike YostRichard JensenHendrik N. Amirkhanian
    • Peter K. HermanIsmail BagciByron A. PardueMike ConradMike YostRichard JensenHendrik N. Amirkhanian
    • B04B108
    • B04B1/08B04B5/005B04B7/08F01M2001/1035
    • A disposable, cone-stack, self-driven centrifuge rotor assembly for separating particulate matter out of a circulating flow of oil includes first and second rotor shell portions which are injection molded out of plastic and joined together by induction welding engaging edges so as to create an enclosing shell with a hollow interior. An injection molded, plastic support hub is assembled into a central opening in the lower half of the rotor shell and extends upwardly into the hollow interior. An injection molded, plastic alignment spool is assembled into a central opening in the upper portion of the rotor shell and extends downwardly into the hollow interior. A cone-stack subassembly, including a plurality of individual separation cones which are injection molded out of plastic, are arranged into an aligned stack and positioned within the hollow interior and cooperatively assembled between the support hub and the alignment spool.
    • 用于将颗粒物质从油的循环流中分离的一次性,锥形堆叠的自驱动离心机转子组件包括第一和第二转子外壳部分,其由塑料注射模制并通过感应焊接接合边缘连接在一起,以便产生 具有中空内部的封闭壳体。 注射成型的塑料支撑毂组装成转子壳体下半部分的中心开口并向上延伸到中空内部。 注射成型的塑料对准线轴组装成转子壳体上部的中心开口并向下延伸到中空内部。 包括由塑料注射成型的多个单独分离锥体的锥形堆叠子组件布置成对准的堆叠并且定位在中空内部内并协同地组装在支撑毂和对准卷轴之间。