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    • 86. 发明授权
    • Dual wafer stage switching system for a lithography machine
    • 用于光刻机的双晶片级切换系统
    • US09547245B2
    • 2017-01-17
    • US14009289
    • 2012-03-23
    • Yu ZhuYaying ChenMing ZhangDengfeng XuJinsong Wang
    • Yu ZhuYaying ChenMing ZhangDengfeng XuJinsong Wang
    • G03B27/58G03F7/20
    • G03F7/70725G03F7/70733
    • Disclosed is a dual wafer stage switching system for a lithography machine. The system comprises a base stage (30), a wafer stage (16.1) running at a pre-processing workstation, and a wafer stage (16.2) running at an exposure workstation. A rotating motor (41) is mounted under the base stage (30) for rotating the two wafer stages after the wafer stages have completed pre-processing and exposure operations in order to complete position switch of the wafer stages, wherein the base stage (30) is kept stationary during the switch. The present invention avoids rotation of a large inertia base stage and has low requirement for motor power, while eliminating a guide rail docking device and an auxiliary device and greatly simplifying system configuration. The system is easy and convenient to operate and easy to control.
    • 公开了一种用于光刻机的双晶片级切换系统。 该系统包括基台(30),在预处理工作站处运行的晶片台(16.1)和在曝光工作站运行的晶片台(16.2)。 旋转马达(41)安装在底座(30)的下面,用于在晶片台完成预处理和曝光操作之后旋转两个晶片台,以便完成晶片台的位置切换,其中基台 )在开关期间保持静止。 本发明避免了大惯性基台的旋转,并且对电机功率的要求较低,同时消除了导轨对接装置和辅助装置,并大大简化了系统配置。 该系统操作简便,易于控制。
    • 87. 发明授权
    • Techniques for resource location and migration across data centers
    • 数据中心资源定位和迁移技术
    • US09367257B2
    • 2016-06-14
    • US12209008
    • 2008-09-11
    • James R HamiltonMichael J ManosJohn D DunaganAlastair WolmanSharad AgarwalMing Zhang
    • James R HamiltonMichael J ManosJohn D DunaganAlastair WolmanSharad AgarwalMing Zhang
    • G06F17/30G06F3/06
    • G06F3/0647G06F3/0604G06F3/067
    • An exemplary system includes a front-end component to receive requests for resources in a data center and configured to associate each request with identifying information, to locate one or more resources for each request and to store, in a log file, the identifying information and information about the location of the one or more resources; one or more distributed computation and storage components to acquire log file information and configured to analyze log information to decide if one or more resources associated with one or more requests should be migrated to a data center in a different geographical location; and a location service component to receive decisions made by the one or more distributed computation and storage components and configured to inform the front-end component when a decision causes one or more resources to be migrated to a data center in a different geographical location to thereby allow the front-end component to re-direct future requests for the one or more migrated resources to the data center in the different geographical location. Various other devices, systems and methods are also described.
    • 示例性系统包括前端组件,用于接收对数据中心中的资源的请求,并且被配置为将每个请求与标识信息相关联,以便为每个请求定位一个或多个资源,并在日志文件中存储识别信息和 关于一个或多个资源的位置的信息; 一个或多个分布式计算和存储组件,用于获取日志文件信息并被配置为分析日志信息以确定与一个或多个请求相关联的一个或多个资源是否应迁移到不同地理位置的数据中心; 以及位置服务组件,用于接收由所述一个或多个分布式计算和存储组件做出的决定,并且被配置为当决策导致一个或多个资源迁移到不同地理位置中的数据中心时通知前端组件,从而 允许前端组件将一个或多个已迁移资源的未来请求重新定向到不同地理位置的数据中心。 还描述了各种其它装置,系统和方法。
    • 88. 发明申请
    • Prioritizing Cloud-based Computing Tasks
    • 确定基于云计算任务的优先级
    • US20160162331A1
    • 2016-06-09
    • US14565255
    • 2014-12-09
    • Mao GengYukching LeungMing ZhangFan Wang
    • Mao GengYukching LeungMing ZhangFan Wang
    • G06F9/48
    • G06F9/5027G06F2209/5021
    • Systems and methods for prioritizing cloud-based computing tasks are provided. An example method includes, identifying a first plurality of service requests submitted by a plurality of users including a first user; selecting a first service request, in the plurality of service requests, in accordance with a first priority, where the first service request is submitted by the first user; selecting a second service request submitted by the first user, in a second plurality of service requests submitted by the first user, in accordance with a second priority, where the second service request is associated with a first job type; and selecting a third service request submitted by the first user, in a third plurality of service requests submitted the first user, in accordance with a third priority, where the third plurality of service requests submitted the first user are associate with a same job type.
    • 提供了基于云计算任务优先级的系统和方法。 一种示例性方法包括:识别由包括第一用户的多个用户提交的第一多个服务请求; 根据第一优先级在多个服务请求中选择第一服务请求,其中第一服务请求由第一用户提交; 根据第二优先级,在第二服务请求与第一作业类型相关联的情况下,选择第一用户提交的第二服务请求,在由第一用户提交的第二多个服务请求中; 以及根据第三优先级,在提交第一用户的第三多个服务请求与相同作业类型相关联的情况下,在提交给第一用户的第三多个服务请求中选择由第一用户提交的第三服务请求。
    • 89. 发明授权
    • Device and method for field expansion
    • 现场扩展的装置和方法
    • US09343893B2
    • 2016-05-17
    • US14116298
    • 2011-07-27
    • Ming ZhangJinquan YangZheng HuangZhigang XuJiangjiang MaLei Guo
    • Ming ZhangJinquan YangZheng HuangZhigang XuJiangjiang MaLei Guo
    • B29C55/00H02G15/18B29C55/24B29C61/06B29K21/00B29C63/18
    • H02G15/1826B29C55/24B29C61/065B29C63/18B29K2021/00H02G15/182Y10T29/4987Y10T29/53391Y10T29/53657
    • A device and a method for a field expansion. A support core (30) is inserted into the device by a field expansion apparatus. The field expansion apparatus has a pressure applying means (20) defining a radially expandable inner surface and a flat surface radially outwardly extending from the radially expandable inner surface. The device comprises an elastomeric tubing (10) and an adapter (40). The elastomeric tubing (10) has a forward end opposite a rearward end and an axial bore extending therethrough configured to receive the support core (30). The adapter (40) has a step portion (41) defined by a radial outer surface (42) and a flat surface (43) radially outwardly extending from the radial outer surface (42), and an axial bore (44) extending therethrough. The axial bore (44) has a diameter substantially the same as the diameter of the axial bore (12) of the elastomeric tubing (10). The adapter (40) is positioned substantially coaxially with the elastomeric tubing (10) between the pressure applying means (20) and the elastomeric tubing (10) such that, in response to inserting the support core (30) from the rearward end into the elastomeric tubing (10), the flat surface of the adapter (40) is pushed against the flat surface of the pressure applying means (20) by the elastomeric tubing (10); the interface between a rearward end of the adapter (40) and the forward end of the elastomeric tubing (10) is of high friction so that the adapter (40) and the elastomeric tubing (10) expand radially in unison, and the radial outer surface of the adapter (40) exerts a radially outward pressure against the radially expandable inner surface of the pressure applying means (20). device and method for field expansion device and method for field expansion.
    • 一种用于现场扩展的设备和方法。 通过现场扩张装置将支撑芯(30)插入到装置中。 场扩展装置具有限定径向可膨胀的内表面的压力施加装置(20)和从径向可膨胀的内表面径向向外延伸的平坦表面。 该装置包括弹性管(10)和适配器(40)。 弹性体管道(10)具有与后端相对的前端和延伸穿过其构造成接纳支撑芯(30)的轴向孔。 适配器(40)具有由径向外表面(42)和从径向外表面(42)径向向外延伸的平坦表面(43)和从其延伸的轴向孔(44)限定的台阶部分(41)。 轴向孔(44)具有与弹性管(10)的轴向孔(12)的直径基本相同的直径。 适配器(40)与压力施加装置(20)和弹性体管(10)之间的弹性体管(10)基本上同轴地定位,使得响应于从后端将支撑芯(30)插入到 弹性管(10),适配器(40)的平坦表面通过弹性管(10)推压到压力施加装置(20)的平坦表面上。 适配器(40)的后端与弹性体管道(10)的前端之间的界面具有高摩擦力,使得适配器(40)和弹性体管道(10)一致地径向扩张,并且径向外部 适配器(40)的表面对压力施加装置(20)的径向可膨胀的内表面施加径向向外的压力。 现场扩容装置及方法及现场扩展方法。
    • 90. 发明授权
    • Microchannel suction line heat exchanger
    • 微通道吸管换热器
    • US09303925B2
    • 2016-04-05
    • US13399511
    • 2012-02-17
    • Ming ZhangKen Nguyen
    • Ming ZhangKen Nguyen
    • F25B1/00F28F9/02F28D7/16F28F1/02F25B40/00
    • F25B40/00F25B40/02F28D7/1653F28D7/1684F28F1/022F28F9/02F28F9/0202F28F2255/16
    • A refrigeration system including a refrigeration circuit that has an evaporator, a compressor, a condenser, and a heat exchanger. The evaporator, compressor, and condenser are fluidly connected and arranged in series with each other. A liquid line fluidly connects the evaporator to the condenser and a suction line fluidly connects the compressor to the evaporator. The heat exchanger includes a plurality of first refrigerant flow tubes that is in fluid communication with one of the suction line and the liquid line, and a second refrigerant flow tube that is in fluid communication with the other of the suction line and the liquid line. Each of the first refrigerant flow tubes and the second refrigerant flow tube have microchannels, and the second refrigerant flow tube positioned between and cooperates with the first refrigerant flow tubes to heat vapor refrigerant flowing in the suction line.
    • 一种包括具有蒸发器,压缩机,冷凝器和热交换器的制冷回路的制冷系统。 蒸发器,压缩机和冷凝器彼此流体连接和排列。 液体管线将蒸发器流体地连接到冷凝器,并且吸入管线将压缩机流体地连接到蒸发器。 所述热交换器包括与吸入管线和液体管线中的一个流体连通的多个第一制冷剂流管,以及与吸入管线和液体管线中的另一个流体连通的第二制冷剂流管。 第一制冷剂流管和第二制冷剂流管中的每一个具有微通道,并且第二制冷剂流管位于第一制冷剂流管之间并与第一制冷剂流管合作,以加热在吸入管线中流动的蒸气制冷剂。