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    • 2. 发明授权
    • Energy optimization system
    • 能源优化系统
    • US08600571B2
    • 2013-12-03
    • US12142528
    • 2008-06-19
    • Jim DillonRonald BlagusStephen ParrVenkat IyerAlan Houghton
    • Jim DillonRonald BlagusStephen ParrVenkat IyerAlan Houghton
    • G05D17/00G06F17/00
    • G06Q50/06G06Q10/04Y02A30/12Y02E40/76Y04S10/545Y04S10/60
    • A system for optimizing a usage of energy based on cost, carbon footprint, and/or other criteria. The usage may be optimized for the next day or more. The optimization may deal with renewable energy, grid energy and stored energy. Various inputs may be considered for optimization, which could include energy costs, weather forecasts, characteristics of renewable energy, the load and storage, and other items. The optimizer may use equipment models with numerical transfer functions to take inputs and provide optimized estimates for the next day or so of energy usage. The outputs of the models may go to an optimization algorithms module for providing an output based on the inputs. The output may provide control information for the selection and amounts of the different types of energy in a scheduled manner.
    • 基于成本,碳足迹和/或其他标准来优化能量使用的系统。 可能会为第二天或更长时间优化使用。 优化可能涉及可再生能源,电网能量和储能。 可以考虑各种投入进行优化,其中可能包括能源成本,天气预报,可再生能源的特性,负荷和储存等。 优化器可以使用具有数字传递函数的设备模型来获取输入,并为第二天的能量使用提供优化的估计。 模型的输出可以转到优化算法模块,以提供基于输入的输出。 输出可以按计划的方式提供用于不同类型能量的选择和量的控制信息。
    • 3. 发明申请
    • ENERGY OPTIMIZATION SYSTEM
    • 能源优化系统
    • US20090319090A1
    • 2009-12-24
    • US12142528
    • 2008-06-19
    • Jim C. DillonRonald BlagusStephen ParrVenkat IyerAlan Houghton
    • Jim C. DillonRonald BlagusStephen ParrVenkat IyerAlan Houghton
    • G06F1/26
    • G06Q50/06G06Q10/04Y02A30/12Y02E40/76Y04S10/545Y04S10/60
    • A system for optimizing a usage of energy based on cost, carbon footprint, and/or other criteria. The usage may be optimized for the next day or more. The optimization may deal with renewable energy, grid energy and stored energy. Various inputs may be considered for optimization, which could include energy costs, weather forecasts, characteristics of renewable energy, the load and storage, and other items. The optimizer may use equipment models with numerical transfer functions to take inputs and provide optimized estimates for the next day or so of energy usage. The outputs of the models may go to an optimization algorithms module for providing an output based on the inputs. The output may provide control information for the selection and amounts of the different types of energy in a scheduled manner.
    • 基于成本,碳足迹和/或其他标准来优化能量使用的系统。 可能会为第二天或更长时间优化使用。 优化可能涉及可再生能源,电网能量和储能。 可以考虑各种投入进行优化,其中可能包括能源成本,天气预报,可再生能源的特性,负荷和储存等。 优化器可以使用具有数字传递函数的设备模型来获取输入,并为第二天的能量使用提供优化的估计。 模型的输出可以转到优化算法模块,以提供基于输入的输出。 输出可以按计划的方式提供用于不同类型能量的选择和量的控制信息。
    • 6. 发明授权
    • Sync regeneration in a universal serial bus
    • 通用串行总线同步再生
    • US06724848B1
    • 2004-04-20
    • US09519511
    • 2000-03-06
    • Venkat Iyer
    • Venkat Iyer
    • H04L700
    • H04L7/046H04L7/005
    • A Universal Serial Bus repeater is provided, comprising a method and apparatus for detecting a specified data pattern and regenerating or retransmitting the recognized data pattern. In some embodiments, the invention recognizes an end of sync signal, and is operable to retransmit the end of sync signal and the following data that is presumed to be valid as a result of sync recognition. In other embodiments, the invention recognizes and retransmits a properly aligned end of packet signal, the size of which is dependent on detection of whether the end of packet signal is a part of a start of frame packet.
    • 提供了一种通用串行总线中继器,包括用于检测指定数据模式并重新生成或重新发送所识别的数据模式的方法和装置。 在一些实施例中,本发明识别同步信号的结束,并且可操作用于重传同步信号的结束以及作为同步识别的结果被认为是有效的后续数据。 在其他实施例中,本发明识别和重新发送分组信号的正确对齐端,其大小取决于分组信号的结束是否是帧分组开始的一部分。
    • 7. 发明授权
    • Bus controller and associated device drivers for use to control a peripheral bus having at least one store-and-forward segment
    • 总线控制器和相关设备驱动器,用于控制具有至少一个存储转发段的外围总线
    • US06629186B1
    • 2003-09-30
    • US09309088
    • 1999-05-10
    • John I. GarneyJohn S. HowardVenkat Iyer
    • John I. GarneyJohn S. HowardVenkat Iyer
    • G06F1312
    • G06F13/102
    • A bus controller and its associated device drivers are provided to a digital system to operate and control a peripheral bus, including the selective operation of at least a first portion of the peripheral bus in a store-and-forward manner. The device drivers include a number of programming instructions. Upon programmed with the programming instructions, a digital system is enabled to operate the bus controller to facilitate communication with a first bus agent in this first portion. The programming instructions package a number of request packets destined for the first bus agent into a multi-packet package, schedule the multi-packet package to be transmitted in bulk, at a first communication speed, to a first hub in the first portion, for the first hub to buffer the request packets, and then forward the request packets to the first bus agent, on a packet-by-packet basis and at a second communication speed. In one embodiment, the second communication speed is slower than the first communication speed. In one embodiment, the programming instructions further schedule communications destined for a second bus agent of this first portion, for transmission to the first hub, at the first communication speed, for the first hub to repeat the communications for the second bus agent without buffering, at also the first communication speed.
    • 将总线控制器及其相关的设备驱动器提供给数字系统以操作和控制外围总线,包括以存储和转发的方式选择性地操作外围总线的至少第一部分。 设备驱动程序包括一些编程指令。 在使用编程指令编程时,数字系统能够操作总线控制器以便于在该第一部分中与第一总线代理的通信。 编程指令将目的地为第一总线代理的多个请求分组封装成多分组包,将以多个第一通信速度批量发送的多分组分组调度到第一部分中的第一集线器,以便 第一集线器缓冲请求分组,然后逐个分组地以第二通信速度将请求分组转发到第一总线代理。 在一个实施例中,第二通信速度比第一通信速度慢。 在一个实施例中,编程指令进一步调度目的地为该第一部分的第二总线代理的通信,用于以第一通信速度传输到第一集线器,以使第一集线器重复第二总线代理的通信而不进行缓冲, 也是第一个通信速度。