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    • 3. 发明授权
    • Methods and apparatuses for dynamic thermal control
    • 动态热控制的方法和装置
    • US08374730B2
    • 2013-02-12
    • US11212983
    • 2005-08-25
    • David G. ConroyKeith Alan CoxMichael Culbert
    • David G. ConroyKeith Alan CoxMichael Culbert
    • G05D23/00
    • G06F1/206
    • Methods and apparatuses for dynamically budgeting power usage to control temperatures in a data processing system. In one aspect, a data processing system includes: a first sensor to determine an ambient temperature of an environment in which the data processing system is; and a controller (e.g., a microcontroller or a microprocessor) coupled to the sensor to control operations of the data processing system according to the ambient temperature. In one example, the data processing system further includes a second sensor to determine an actual temperature of a component of the data processing system. In one example, a controller is coupled to the temperature sensors to determine an operating setting of the data processing system based on a prediction of a temperature of the data processing system which is a function of the plurality of actual temperatures and the operating setting of the data processing system.
    • 用于动态预算功率使用以控制数据处理系统中的温度的方法和装置。 一方面,数据处理系统包括:第一传感器,用于确定数据处理系统所处环境的环境温度; 以及耦合到传感器的控制器(例如,微控制器或微处理器),以根据环境温度来控制数据处理系统的操作。 在一个示例中,数据处理系统还包括用于确定数据处理系统的部件的实际温度的第二传感器。 在一个示例中,控制器耦合到温度传感器,以基于数据处理系统的温度的预测来确定数据处理系统的操作设置,数据处理系统的温度是多个实际温度和操作设置的函数 数据处理系统。
    • 5. 发明申请
    • FORCED IDLE OF A DATA PROCESSING SYSTEM
    • 数据处理系统的强制空闲
    • US20110219247A1
    • 2011-09-08
    • US13112634
    • 2011-05-20
    • Guy G. Sotomayor, JR.Keith CoxDavid G. ConroyMichael Culbert
    • Guy G. Sotomayor, JR.Keith CoxDavid G. ConroyMichael Culbert
    • G06F1/32
    • G06F1/3203G06F1/324G06F1/3296G06F11/3423Y02D10/126Y02D10/172Y02D10/34Y02D50/20
    • Exemplary embodiments of methods and apparatuses to manage a power of a data processing system are described. One or more constraint parameters of a system are monitored. The data processing system is forced into an idle state for a first portion of a time while allowed to operate for a second portion of the time based on the one or more constraint parameters, wherein the system is forced into the idle state in response to comparing a target idle time to an actual idle time. The target idle time of the system is determined, in one embodiment, based on the one or more constraint parameters. The actual idle time of the system may be monitored to take into account interrupts which disrupt an idle time and idle times resulting from no software instructions to execute. The system may be allowed to operate based on comparisons of the target idle time and the actual idle time.
    • 描述了用于管理数据处理系统的功率的方法和装置的示例性实施例。 监视系统的一个或多个约束参数。 数据处理系统在一段时间内被强制进入空闲状态,同时基于一个或多个约束参数允许对时间的第二部分进行操作,其中响应于比较而将系统强制进入空闲状态 目标空闲时间到实际空闲时间。 在一个实施例中,基于一个或多个约束参数确定系统的目标空闲时间。 可以监视系统的实际空闲时间以考虑中断,其中断由空闲时间和空闲时间引起的无法执行的软件指令。 可以基于目标空闲时间和实际空闲时间的比较来允许系统操作。
    • 7. 发明授权
    • Forced idle of a data processing system
    • 强制空闲的数据处理系统
    • US07949889B2
    • 2011-05-24
    • US11970483
    • 2008-01-07
    • Guy G. Sotomayor, Jr.Keith CoxDavid G. ConroyMichael Culbert
    • Guy G. Sotomayor, Jr.Keith CoxDavid G. ConroyMichael Culbert
    • G06F1/00
    • G06F1/3203G06F1/324G06F1/3296G06F11/3423Y02D10/126Y02D10/172Y02D10/34Y02D50/20
    • Exemplary embodiments of methods and apparatuses to manage a power of a data processing system are described. One or more constraint parameters of a system are monitored. The data processing system is forced into an idle state for a first portion of a time while allowed to operate for a second portion of the time based on the one or more constraint parameters, wherein the system is forced into the idle state in response to comparing a target idle time to an actual idle time. The target idle time of the system is determined, in one embodiment, based on the one or more constraint parameters. The actual idle time of the system may be monitored to take into account interrupts which disrupt an idle time and idle times resulting from no software instructions to execute. The system may be allowed to operate based on comparisons of the target idle time and the actual idle time.
    • 描述了用于管理数据处理系统的功率的方法和装置的示例性实施例。 监视系统的一个或多个约束参数。 数据处理系统在一段时间内被强制进入空闲状态,同时基于一个或多个约束参数允许对时间的第二部分进行操作,其中响应于比较而将系统强制进入空闲状态 目标空闲时间到实际空闲时间。 在一个实施例中,基于一个或多个约束参数确定系统的目标空闲时间。 可以监视系统的实际空闲时间以考虑中断,其中断由空闲时间和空闲时间引起的无法执行的软件指令。 可以基于目标空闲时间和实际空闲时间的比较来允许系统操作。
    • 10. 发明授权
    • RFID network arrangement
    • RFID网络安排
    • US07570939B2
    • 2009-08-04
    • US11220205
    • 2005-09-06
    • Michael Culbert
    • Michael Culbert
    • H04M1/66
    • H04W28/18H04L63/0492H04L63/18H04W4/80H04W12/04H04W12/06H04W76/10H04W84/12H04W92/10
    • A system for automatic configuration and authentication of network devices is disclosed. A network base station, e.g., a wireless router, includes an RFID transceiver. A network device includes an RFID tag. Then the network device is brought into proximity with the base station, an exchange of information takes place between the RFID transceiver in the base station and the RFID tag in the device. When the network device is powered on, it reads the information in its RFID tag and uses this information to establish a limited connection to the base station. Once connected, the base station and network device exchange authentication and encryption parameters over the limited connection and thus establish a fully functional and secure network connection between the network base station and the network device.
    • 公开了一种用于网络设备的自动配置和认证的系统。 诸如无线路由器的网络基站包括RFID收发器。 网络设备包括RFID标签。 然后将网络设备与基站接近,在基站中的RFID收发器与设备中的RFID标签之间进行信息交换。 当网络设备通电时,它读取其RFID标签中的信息,并使用该信息建立与基站的有限连接。 一旦连接,基站和网络设备通过有限连接交换认证和加密参数,从而建立网络基站和网络设备之间的全功能和安全的网络连接。