Method for equalizing performance of computing components
    1.
    发明授权
    Method for equalizing performance of computing components 失效
    计算组件性能均衡的方法

    公开(公告)号:US07979729B2

    公开(公告)日:2011-07-12

    申请号:US11947017

    申请日:2007-11-29

    IPC分类号: G06F1/00 G06F11/30

    摘要: A performance measure (e.g., processor speed) for computing components such as servers is optimized by creating models of power consumption versus the performance measure for each server, adding the power models to derive an overall power model, and calculating an optimum set point for the performance measure which corresponds to a power limit on the servers using the overall power model. The set point is then used to set power budgets for the servers based on their power models, and the servers maintain power levels no greater than their respective power budgets. The server power models are preferably created in real time by monitoring power consumption and the performance measure to derive sets of data points for the servers, and performing regression on the sets of data points to yield power models for the servers. Multiple server power models may be created for different program applications.

    摘要翻译: 通过创建功耗模型与每个服务器的性能测量值来优化计算组件(如服务器)的性能度量(例如,处理器速度),添加功率模型以导出总体功率模型,并计算最佳设定点 性能测量对应于使用整体功率模型的服务器上的功率限制。 然后将设定点用于根据电源模型为服务器设置功率预算,并且服务器的功率级别不会大于其各自的功率预算。 服务器功率模型优选通过监视功耗和性能测量来实时创建,以导出服务器的数据点集合,并对数据点集进行回归以产生服务器的功率模型。 可以为不同的程序应用程序创建多个服务器功耗模型。

    Method for Equalizing Performance of Computing Components
    2.
    发明申请
    Method for Equalizing Performance of Computing Components 失效
    计算组件性能均衡的方法

    公开(公告)号:US20090144566A1

    公开(公告)日:2009-06-04

    申请号:US11947017

    申请日:2007-11-29

    IPC分类号: G06F1/00 G06F9/44

    摘要: A performance measure (e.g., processor speed) for computing components such as servers is optimized by creating models of power consumption versus the performance measure for each server, adding the power models to derive an overall power model, and calculating an optimum set point for the performance measure which corresponds to a power limit on the servers using the overall power model. The set point is then used to set power budgets for the servers based on their power models, and the servers maintain power levels no greater than their respective power budgets. The server power models are preferably created in real time by monitoring power consumption and the performance measure to derive sets of data points for the servers, and performing regression on the sets of data points to yield power models for the servers. Multiple server power models may be created for different program applications.

    摘要翻译: 通过创建功耗模型与每个服务器的性能测量值来优化计算组件(如服务器)的性能度量(例如,处理器速度),添加功率模型以导出总体功率模型,并计算最佳设定点 性能测量对应于使用整体功率模型的服务器上的功率限制。 然后将设定点用于根据电源模型为服务器设置功率预算,并且服务器的功率级别不会大于其各自的功率预算。 服务器功率模型优选通过监视功耗和性能测量来实时创建,以导出服务器的数据点集合,并对数据点集进行回归以产生服务器的功率模型。 可以为不同的程序应用程序创建多个服务器功耗模型。

    Automated swimming pool cleaner having an angled jet drive propulsion system

    公开(公告)号:US09650798B2

    公开(公告)日:2017-05-16

    申请号:US13545926

    申请日:2012-07-10

    IPC分类号: E04H4/16

    CPC分类号: E04H4/1654 E04H4/1663

    摘要: A self-propelled cleaning apparatus for cleaning a submerged surface of a pool or tank includes a housing having a front portion as defined by the direction of movement of the apparatus when propelled by a water jet, an opposing rear portion and adjoining side portions defining the periphery of the apparatus, and a baseplate with at least one water inlet. Rotationally-mounted supports are coupled proximate the front and rear portions of the housing to enable movement of the apparatus over the submerged surface. A water pump is configured to draw water and debris from the pool through the inlet for filtering. A stationary directional discharge conduit is in fluid communication with the pump and has at least one discharge opening through which a pressurized stream of water forming the water jet is directionally discharged at an acute angle with respect to the surface over which the apparatus is moving.

    Recording the power distribution hierarchy in datacenters
    4.
    发明授权
    Recording the power distribution hierarchy in datacenters 有权
    记录数据中心的配电层次结构

    公开(公告)号:US08333316B2

    公开(公告)日:2012-12-18

    申请号:US12827765

    申请日:2010-06-30

    IPC分类号: G06F17/00

    摘要: A power consuming device is configured to be electrically connected to a power connection point of a power distribution system of a datacenter. The power distribution system includes a hierarchy of power supply equipment. A first label is associated with the power connection point and includes power supply information that indicates the power connection point's place in the hierarchy of power supply equipment. A second label is associated with the power consuming device and includes identification information that identifies the power consuming device. A reader is configured to read the first label to obtain the power supply information and to read the second label to obtain the identification information. An electrical connection management system is configured to receive the power supply information and the identification information obtained by the reader such that the electrical connection management system records the connection of the power consuming device to the power connection point and the power connection point's place in the hierarchy of power supply equipment.

    摘要翻译: 电力消耗装置被配置为电连接到数据中心的配电系统的电力连接点。 配电系统包括供电设备的层次结构。 第一个标签与电源连接点相关联,并包括指示电源连接点在电源设备层级中的位置的电源信息。 第二标签与功耗设备相关联并且包括识别功耗设备的识别信息。 读取器被配置为读取第一标签以获得电源信息并读取第二标签以获得识别信息。 电连接管理系统被配置为接收由读取器获得的电源信息和识别信息,使得电连接管理系统将电力消耗装置的连接记录到电力连接点和电力连接点的层级中的位置 的供电设备。

    Directional control method for dual brush robotic pool cleaners
    5.
    发明授权
    Directional control method for dual brush robotic pool cleaners 有权
    双刷自动清洗机的定向控制方法

    公开(公告)号:US08241430B2

    公开(公告)日:2012-08-14

    申请号:US11824447

    申请日:2007-06-29

    IPC分类号: B08B7/04 E04H4/16

    摘要: A method for accurately controlling the directional and turning movement of a self-propelled robotic pool cleaner while cleaning a pool includes the steps of propelling the pool cleaner in a first direction along a generally straight path from a first sidewall toward an opposing sidewall of the pool, wherein said pool cleaner is propelled to a position in the pool corresponding to a distance greater than the midpoint between the first sidewall and the opposing sidewall and before contacting the opposing sidewall of the pool; stopping the pool cleaner at the position and pivoting the pool cleaner to a predetermined angular change in direction; and reversing direction and resuming propulsion of the pool cleaner, wherein the pool cleaner moves in a second direction along a generally straight path that is angularly displaced from the first direction.

    摘要翻译: 一种用于在清洁游泳池的同时精确地控制自走式机器人清洁器的方向和转动运动的方法包括以下步骤:沿第一方向推进泳池清洁器,该第一方向沿着从池的第一侧壁朝向池的相对侧壁 ,其中所述池清洁器被推进到对应于在第一侧壁和相对侧壁之间的中点处的距离之前以及在与池的相对侧壁接触之前的位置中; 在该位置停止游泳池清洁器并将泳池清洁器枢转到预定的方向上的角度变化; 以及反转方向和恢复游泳池清洁器的推进,其中池清洁器沿着从第一方向成角度地移位的大致直线的路径沿第二方向移动。

    Polymer system with switchable physical properties and its use in direct exposure printing plates
    6.
    发明授权
    Polymer system with switchable physical properties and its use in direct exposure printing plates 失效
    具有可切换物理性能的聚合物体系及其在直接曝光印版中的应用

    公开(公告)号:US07129021B2

    公开(公告)日:2006-10-31

    申请号:US10647905

    申请日:2003-08-25

    摘要: Polymer materials are described that undergo a two-level three-dimensional crosslinking process. During this process, hydrophilic polymers are crosslinked at two levels, the first results in a low level of crosslinking which leads to a toughening of the layer preventing dissolution by the fountain solution but with the layer remaining hydrophilic. The second level of crosslinking is higher and is the result of exposure to a laser diode thermal imaging device. The crosslinking at this second level results in a loss of hydrophilicity and provides instead an oleophilic image capable of accepting and transferring oil-based ink. The polymer materials are particularly useful in lithographic printing systems where they may used in articles such as a printing plate comprising a substrate having coated thereon a layer that becomes less hydrophilic upon exposure to thermal energy (e.g., heat applied by a laser, other collimated light, or thermal printhead) that effects crosslinking (initial crosslinking or increased crosslinking) in the layer, the layer comprising a mixture of a crosslinked polymer and a thermally active crosslinking metal compound. The invention also provides an overcoat layer eluable in aqueous media for a printing plate precursor comprising on a substrate a layer comprising a mixture of a crosslinked polymer and a thermally active crosslinking metal compound. The overcoat layer protects the heat-sensitive crosslinked polymer layer from discoloration, contamination and scratching and reduces odor and particulate emissions.

    摘要翻译: 描述了经历两级三维交联过程的聚合物材料。 在此过程中,亲水性聚合物以两个水平交联,首先导致低水平的交联,这导致层的增韧,防止润版液溶解,但是该层保持亲水性。 第二级交联更高,并且是暴露于激光二极管热成像装置的结果。 在该第二水平下的交联导致亲水性的丧失,并提供能够接受和转移油基油墨的亲油图像。 聚合物材料在平版印刷系统中特别有用,其中它们可用于制品中,例如印版,其包括其上涂覆有暴露于热能时变得不那么亲水的层(例如,由激光施加的热量,其他准直光 ,或热打印头),其在层中实现交联(初始交联或增加交联),所述层包含交联聚合物和热活性交联金属化合物的混合物。 本发明还提供了可在含水介质中洗脱的印刷版前体的外涂层,其在基底上包含交联聚合物和热活性交联金属化合物的混合物的层。 外涂层保护热敏交联聚合物层免受变色,污染和划伤,并减少气味和微粒排放。

    Aquarium sand fountain
    7.
    发明授权
    Aquarium sand fountain 失效
    水族馆沙喷泉

    公开(公告)号:US6073585A

    公开(公告)日:2000-06-13

    申请号:US1977

    申请日:1997-12-31

    申请人: Tibor Horvath

    发明人: Tibor Horvath

    IPC分类号: A01K63/00

    CPC分类号: A01K63/006

    摘要: An aquarium fountain for the improved circulation in a cascading manner of a fixed quantity of particulate matter such as sand. The fountain includes a housing having a receptacle for containing and receiving the fixed quantity of sand. The housing includes an air lift tube having an inlet end in communication with the particulate matter to be circulated and an outlet end out of which the particulate matter is expelled. The outlet end of the air lift tube extends into an upper chamber of the housing. The upper chamber is configured to have an air pocket located between the outlet end and an air escape opening located in a wall of the housing.

    摘要翻译: 用于以固定数量的颗粒物质如沙子的级联方式改善循环的水族馆喷泉。 喷泉包括具有用于容纳和接收固定数量的砂的容器的壳体。 壳体包括具有与要循环的颗粒物质连通的入口端的气动提升管和排出微粒物质的出口端。 空气提升管的出口端延伸到壳体的上部腔室中。 上室被构造成具有位于出口端和位于壳体的壁中的排气口之间的气囊。

    Directional control for dual brush robotic pool cleaners
    8.
    发明授权
    Directional control for dual brush robotic pool cleaners 有权
    双刷自动清洗机的定向控制

    公开(公告)号:US09051750B2

    公开(公告)日:2015-06-09

    申请号:US13399355

    申请日:2012-02-17

    IPC分类号: B08B3/00 E04H4/16

    CPC分类号: E04H4/1654

    摘要: A self-propelled robotic pool cleaner (100) has a first pair of driven brushes (12, 14) and second pair of free brushes co-axially mounted for rotation on axles (16) at the opposite ends of the pool cleaner. The first pair of brushes are mounted on one side and are driven by a drive motor (110); the second pair of brushes are mounted on the opposite side of the cleaner. A rotational delay clutch (30) is co-axially positioned between each pair of the first and second brushes so that reversing the drive motor causes the first pair of driven brushes to temporarily rotate at an angular rotational velocity that is greater than that of the second pair of brushes, thereby pivoting the pool cleaner through a predetermined angular change in direction before the synchronous rotation of the second pair of dual brushes is initiated by the engagement of the clutch.

    摘要翻译: 自推进式机器人池清洁器(100)具有第一对从动刷(12,14)和第二对自由刷同轴安装,用于在池清洁器的相对端处在轴(16)上旋转。 第一对电刷安装在一侧并由驱动马达(110)驱动; 第二对刷子安装在清洁器的相对侧上。 旋转延迟离合器(30)同轴地定位在每对第一和第二电刷之间,使得驱动马达的反转使得第一对驱动电刷以大于第二电刷的旋转速度临时旋转 从而在通过离合器的接合开始第二对双电刷的同步旋转之前使泳池清洁器枢转预定的方向角度变化。

    Directional control method and apparatus for dual brush robotic pool cleaners
    9.
    发明授权
    Directional control method and apparatus for dual brush robotic pool cleaners 有权
    双刷自动清洗机定向控制方法及装置

    公开(公告)号:US08696821B2

    公开(公告)日:2014-04-15

    申请号:US13557876

    申请日:2012-07-25

    IPC分类号: B08B7/04 E04H4/16

    摘要: A method and apparatus for controlling the directional movement of a self-propelled robotic pool cleaner having at least one pair of rotational support members for propelling and cleaning a surface of a pool. The method includes accelerating the at least one pair of rotational support members of the pool cleaner from a stopped position to a first predetermined rotational rate in a first predetermined time period; rotating the at least one pair of rotational support members at said first predetermined rotational rate for a second predetermined time period; and increasing the first rate of rotation to a second greater predetermined rotational rate, wherein said pool cleaner is propelled at a normalized rate for cleaning said pool.

    摘要翻译: 一种用于控制具有至少一对旋转支撑构件的自推进机器人池清洁器的方向运动的方法和装置,用于推进和清洁池的表面。 所述方法包括:在第一预定时间段内将所述池清洁器的所述至少一对旋转支撑构件从停止位置加速到第一预定旋转速率; 使所述至少一对旋转支撑构件以所述第一预定旋转速度旋转第二预定时间段; 以及将所述第一转速提高到第二更大的预定旋转速率,其中所述池清洁器以用于清洁所述池的标准化速率被推进。

    Cleaner with high pressure cleaning jets
    10.
    发明授权
    Cleaner with high pressure cleaning jets 有权
    清洁用高压清洗喷嘴

    公开(公告)号:US07316751B2

    公开(公告)日:2008-01-08

    申请号:US11233595

    申请日:2005-09-22

    IPC分类号: B08B5/04

    CPC分类号: E04H4/1654

    摘要: A swimming pool cleaner discharges water jets under the cleaner body, directed toward its center from its sides, to agitate and lift debris toward one or more vacuum intake openings, to greatly enhance the cleaning ability of the cleaner. The suspended dirt and debris become semi-buoyant under the force of the jetted water which is preferably moving in the same direction as the cleaner, so that the relative speed between the cleaner and the suspended dirt and debris is reduced, thereby enabling the cleaner to move at a relatively faster rate and still clean with equivalent or even greater efficiency than a pool cleaner that is not equipped with directional cleaning water jets. In addition, displaced front and back orientations of the intake ports allow for longer time for any dirt and debris to be picked up.

    摘要翻译: 游泳池清洁剂将清洁器身体下方的水射流器从其侧面排向其中心,以将碎屑向一个或多个真空吸入口进行搅动和提升,以大大提高清洁剂的清洁能力。 悬浮的污物和碎屑在喷射水的作用下变成半浮力,优选沿与清洁器相同的方向移动,使得清洁器和悬浮污物和碎屑之间的相对速度减小,从而使清洁器 以相对较快的速度移动,并且与没有配备定向清洁水射流的游泳池清洁器相当或甚至更高的效率仍然清洁。 此外,进气口的排出的前后方向允许更长的时间拾取任何污垢和碎屑。