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    • 1. 发明授权
    • External metadata processing
    • 外部元数据处理
    • US07386566B2
    • 2008-06-10
    • US10891609
    • 2004-07-15
    • James K. HoweyJeffrey R. BernhardtTheodore T. Lee
    • James K. HoweyJeffrey R. BernhardtTheodore T. Lee
    • G06F17/00
    • G06F17/30563Y10S707/99942Y10S707/99943Y10S707/99944Y10S707/99945
    • The operation of a data flow is improved by providing for validation of the consistency of the data flow with the external data files it works with, even in the face of changes in those external data files Metadata is stored regarding the external data files. Because external data files may change, this metadata is used when determining whether the external data files are still compatible with the data flow. In such performing such validation, the metadata tracks what changes in the external data files have occurred, and allows increased flexibility in presenting the user with options or in automatically fixing the data flow to correspond with changes in external data files. When the external data files are not available, the stored metadata can be used to validate the data flow to the last information regarding the external data files. The external metadata can be resynchronized to the data flow or to the external data files to provide updated external metadata for later validation.
    • 通过提供数据流与其工作的外部数据文件的一致性的验证来改进数据流的操作,即使面对这些外部数据文件的变化,存储有关外部数据文件的元数据。 因为外部数据文件可能会改变,所以在确定外部数据文件是否仍然与数据流兼容时使用此元数据。 在这种执行这样的验证中,元数据跟踪外部数据文件发生了什么变化,并且允许在向用户呈现选项或者自动修复数据流以对应于外部数据文件的变化的灵活性方面。 当外部数据文件不可用时,可以使用存储的元数据来验证数据流到有关外部数据文件的最新信息。 可以将外部元数据重新同步到数据流或外部数据文件,以提供更新的外部元数据,以供稍后验证。
    • 2. 发明授权
    • Systems and methods for scheduling data flow execution based on an arbitrary graph describing the desired data flow
    • 基于描述所需数据流的任意图来调度数据流执行的系统和方法
    • US08639847B2
    • 2014-01-28
    • US13116977
    • 2011-05-26
    • Michael A. BlaszczakJames K. Howey
    • Michael A. BlaszczakJames K. Howey
    • G06F15/16
    • G06F12/023
    • The data transformation system in one embodiment, comprises a capability to receive data, a data destination and a capability to store transformed data, and a data transformation pipeline that constructs complex end-to-end data transformation functionality by pipelining data flowing from one or more sources to one or more destinations through various interconnected nodes for transforming the data as it flows. Each component in the pipeline possesses predefined data transformation functionality, and the logical connections between components define the data flow pathway in an operational sense.The data transformation pipeline enables a user to develop complex end-to-end data transformation functionality by graphically describing and representing, via a GUI, a desired data flow from one or more sources to one or more destinations through various interconnected nodes (graph). Each node in the graph selected by the user represents predefined data transformation functionality, and connections between nodes define the data flow pathway.
    • 一个实施例中的数据转换系统包括接收数据,数据目的地和存储变换数据的能力的能力,以及通过流水线从一个或多个数据流流出的数据来构建复杂的端到端数据转换功能的数据变换流水线 通过各种互连节点向一个或多个目的地发送数据,用于在数据流动时转换数据。 管道中的每个组件具有预定义的数据转换功能,组件之间的逻辑连接在操作意义上定义数据流通路。 数据转换流水线允许用户通过图形地描述和表示通过各种互连节点(图)从一个或多个源到一个或多个目的地的期望数据流来开发复杂的端到端数据变换功能。 由用户选择的图中的每个节点表示预定义的数据变换功能,并且节点之间的连接定义数据流通路。
    • 4. 发明授权
    • Optical mountings for gas discharge MOPA laser spectral analysis module
    • 用于气体放电MOPA激光光谱分析模块的光学安装
    • US06873418B1
    • 2005-03-29
    • US10676224
    • 2003-09-30
    • James K. HoweyRajasekhar M. Rao
    • James K. HoweyRajasekhar M. Rao
    • G01B9/02G01J11/00G02B7/02G02B7/182H01S3/13
    • G02B7/1825G01J11/00G02B7/021
    • A wavemeter for a high repetition rate gas discharge laser having an output laser bean comprising a pulsed output of greater than or equal to 15 mJ per pulse, sub-nanometer bandwidth tuning range pulses having a femptometer bandwidth precision and tens of femptometers bandwidth accuracy range, for measuring bandwidth on a pulse to pulse basis at pulse repetition rates of 4000 Hz and above, is disclosed which may comprise an adjustable optic mounting containing an optic element having an assigned vertical optical plane in the wavemeter optical layout and comprising: a mounting dowel pin positioned on a platform holding the components of the wavemeter; a dowel receiving opening on the adjustable mirror mounting a tangent to which is in the assigned vertical optical plane. The adjustable optic mounting may contain a tilt mechanism incorporated into the adjustable optic mounting enabling tilting the optic element about an axis in a plane parallel to a platform holding components of the wavemeter. The mounting may also have an optic receiving recess indexed to the size of the optic element. The optic element may be retained by at least one spring clip and may be a flat rectangular mirror or a circular optic, e.g., a mirror or a lens. The mounting may also have an optic mounting frame containing an optical element; a slit assembly containing a microslit adapted to selectively pass a slit of the optical output of the optical diffusion element to a succeeding optical element, moveably mounted to the optic mounting frame; a microslit position adjustment mechanism moving the slit assembly from a retracted position exposing the optic diffusion element for purposes of alignment to a down position with the slit aligned and moving the microslit into alignment.
    • 一种用于具有输出激光束的高重复率气体放电激光器的波长计,其包括脉冲输出大于或等于15mJ /脉冲,亚纳米带宽调谐范围脉冲具有飞行器带宽精度和数十个飞行器带宽精度范围, 用于以4000Hz及以上的脉冲重复频率在脉冲到脉冲基础上测量带宽,其可以包括可调光学安装件,其包含在波长计光学布局中具有指定的垂直光学平面的光学元件,并且包括:安装销钉 位于保持波长计的组件的平台上; 可调节镜上的定位销接收开口安装在指定的垂直光学平面中的切线。 可调节光学安装件可以包含结合到可调节光学安装件中的倾斜机构,使得可以在与保持波长计的部件的平台平行的平面中的轴线处倾斜光学元件。 安装件还可以具有与光学元件的尺寸分度的光学接收凹部。 光学元件可以由至少一个弹簧夹保持,并且可以是平面矩形镜或圆形光学器件,例如镜子或透镜。 安装件还可以具有包含光学元件的光学安装框架; 狭缝组件,其包含适于选择性地将光扩散元件的光输出的狭缝传递到可移动地安装到光学安装框架的后续光学元件的微型灯; 微型位置调节机构使狭缝组件从缩回位置移动,该缩回位置暴露光学扩散元件,以便对准到下部位置,同时狭缝对准并将微光线移动到对准位置。
    • 5. 发明授权
    • Soldered fan assembly for electric discharge laser
    • 用于放电激光的焊接风扇组件
    • US6023486A
    • 2000-02-08
    • US311680
    • 1999-05-12
    • Thomas HofmannJames K. HoweyRobert A. ShannonRichard C. Ujazdowski
    • Thomas HofmannJames K. HoweyRobert A. ShannonRichard C. Ujazdowski
    • G03F7/20H01S3/036H01S3/225H01S3/22
    • H01S3/036G03F7/708H01S3/225
    • A tangential fan with cutoff assembly for recirculating a lasing gas mixture has blade members, which vary in circumferential position stepwise from end to end, and/or a tapered anode assembly. The number of blade members can be constant or variable between ends. The circumferential positions of blade members can shift monotonically or reversibly between ends. Blade members can be formed into air foil shapes and are stiffened by one or more transverse annular hub members. Processes for making tangential fans include soldering, casting, and machining from a solid block. Monolithic structures can be joined, typically by soldering or electron-beam welding. Casting, welding, and machining processes introduce no additional contaminants. Soldering produces substantially silicon-free assemblies. Tangential fans produced in accordance with the invention have improved mechanical rigidity, accurate tolerances, and low contaminant concentrations.
    • 具有用于再循环激光气体混合物的切断组件的切向风扇具有叶片构件,其从端到端逐步地沿周向位置变化,和/或锥形阳极组件。 刀片构件的数量可以在端部之间是恒定的或可变的。 叶片构件的圆周位置可以在端部之间单调地或可逆地移动。 叶片构件可以形成为空气箔形状并且被一个或多个横向环形毂构件加固。 制造切向风扇的过程包括从固体块进行焊接,铸造和加工。 通常可以通过焊接或电子束焊接来连接整体结构。 铸造,焊接和加工过程不会引起额外的污染物。 焊接产生基本无硅组件。 根据本发明生产的切向风扇具有改善的机械刚性,精确的公差和低的污染物浓度。
    • 7. 发明授权
    • Systems and methods for scheduling data flow execution based on an arbitrary graph describing the desired data flow
    • 基于描述所需数据流的任意图来调度数据流执行的系统和方法
    • US07953891B2
    • 2011-05-31
    • US10391726
    • 2003-03-18
    • Michael A. BlaszczakJames K. Howey
    • Michael A. BlaszczakJames K. Howey
    • G06F15/16
    • G06F12/023
    • The data transformation system in one embodiment, comprises a capability to receive data, a data destination and a capability to store transformed data, and a data transformation pipeline that constructs complex end-to-end data transformation functionality by pipelining data flowing from one or more sources to one or more destinations through various interconnected nodes for transforming the data as it flows. Each component in the pipeline possesses predefined data transformation functionality, and the logical connections between components define the data flow pathway in an operational sense.The data transformation pipeline enables a user to develop complex end-to-end data transformation functionality by graphically describing and representing, via a GUI,a desired data flow from one or more sources to one or more destinations through various interconnected nodes (graph). Each node in the graph selected by the user represents predefined data transformation functionality, and connections between nodes define the data flow pathway.
    • 一个实施例中的数据转换系统包括接收数据,数据目的地和存储变换数据的能力的能力,以及通过流水线从一个或多个数据流流出的数据来构建复杂的端到端数据转换功能的数据变换流水线 通过各种互连节点向一个或多个目的地发送数据,用于在数据流动时转换数据。 管道中的每个组件具有预定义的数据转换功能,组件之间的逻辑连接在操作意义上定义数据流通路。 数据转换流水线允许用户通过图形地描述和表示通过各种互连节点(图)从一个或多个源到一个或多个目的地的期望数据流来开发复杂的端到端数据变换功能。 由用户选择的图中的每个节点表示预定义的数据变换功能,并且节点之间的连接定义数据流通路。