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    • 1. 发明申请
    • ORGANIC EL PANEL INSPECTION METHOD, ORGANIC EL PANEL INSPECTION DEVICE, AND ORGANIC EL PANEL
    • 有机EL面板检测方法,有机EL面板检查装置和有机EL面板
    • US20120062236A1
    • 2012-03-15
    • US13322024
    • 2010-05-11
    • Keiichi FurukawaKuniaki UezawaToshiyuki Kinoshita
    • Keiichi FurukawaKuniaki UezawaToshiyuki Kinoshita
    • G01R31/44H01L51/52
    • G09G3/006
    • In an organic EL panel inspection method, to determine whether an organic EL panel is good or bad, a plurality of voltages having different values are sequentially applied to the organic EL panel, thereby measuring the respective currents. According to the currents, the following three criteria are checked: criterion (1), whether or not a spike current is present in the measured currents, criterion (2), between when the plurality of voltages are sequentially applied from one direction to the other direction of the voltage and when the plurality of voltages are sequentially applied from the other direction to the one direction, whether or not currents having different current densities occur at the same voltage, and criterion (3), the absolute value of the current density of current flowing when a predetermined voltage in the reverse direction is applied to the organic EL panel.
    • 在有机EL面板检查方法中,为了确定有机EL面板是否良好,将有不同值的多个电压依次施加到有机EL面板,从而测量各自的电流。 根据电流,检查以下三个标准:标准(1),在从一个方向到另一个方向上顺次施加多个电压时,在测量电流中是否存在尖峰电流(标准(2)) 电压的方向,并且当从另一个方向向一个方向依次施加多个电压时,不管在相同的电压下是否发生具有不同电流密度的电流,并且标准(3),电流密度的绝对值 当向有机EL面板施加相反方向的预定电压时的电流流动。
    • 2. 发明授权
    • Organic EL panel inspection method, organic EL panel inspection device, and organic EL panel
    • 有机EL面板检查方法,有机EL面板检查装置和有机EL面板
    • US08841928B2
    • 2014-09-23
    • US13322024
    • 2010-05-11
    • Keiichi FurukawaKuniaki UezawaToshiyuki Kinoshita
    • Keiichi FurukawaKuniaki UezawaToshiyuki Kinoshita
    • G01R27/26G09G3/00
    • G09G3/006
    • In an organic EL panel inspection method, to determine whether an organic EL panel is good or bad, a plurality of voltages having different values are sequentially applied to the organic EL panel, thereby measuring the respective currents. According to the currents, the following three criteria are checked: criterion (1), whether or not a spike current is present in the measured currents, criterion (2), between when the plurality of voltages are sequentially applied from one direction to the other direction of the voltage and when the plurality of voltages are sequentially applied from the other direction to the one direction, whether or not currents having different current densities occur at the same voltage, and criterion (3), the absolute value of the current density of current flowing when a predetermined voltage in the reverse direction is applied to the organic EL panel.
    • 在有机EL面板检查方法中,为了确定有机EL面板是否良好,将有不同值的多个电压依次施加到有机EL面板,从而测量各自的电流。 根据电流,检查以下三个标准:标准(1),在从一个方向到另一个方向上顺次施加多个电压时,在测量电流中是否存在尖峰电流(标准(2)) 电压的方向,并且当从另一个方向向一个方向依次施加多个电压时,不管在相同的电压下是否发生具有不同电流密度的电流,并且标准(3),电流密度的绝对值 当向有机EL面板施加相反方向的预定电压时的电流流动。
    • 4. 发明授权
    • Memory hierarchy control method with replacement based on request
frequency
    • 存储器层次控制方法,根据请求频率进行替换
    • US4703422A
    • 1987-10-27
    • US687160
    • 1984-12-28
    • Toshiyuki KinoshitaToshiaki AraiTakao SatoTakashige KuboYasufumi YoshizawaHiromichi Mori
    • Toshiyuki KinoshitaToshiaki AraiTakao SatoTakashige KuboYasufumi YoshizawaHiromichi Mori
    • G06F12/08G06F9/50G06F12/12G06F13/00
    • G06F9/5016G06F12/122
    • In a memory hierarchy system having two or more hierarchy storages of different access speeds and programs and/or data to be loaded on the hierarchy storages, an activity information acquisition unit and a display unit are provided to present information regarding selection of programs and/or data to be loaded on a higher level in memory hierarchy, a unit is provided which automatically decides loading of the programs and/or data on the higher level and executes reallocation of the programs and/or data on the basis of the information, and a unit is provided which permits the user to change the loading by using a user command. The user can make full use of these units during execution of the memory hierarchy control. In an embodiment, priority for the programs and/or data to be loaded on the higher level is calculated and decided. The programs and/or data are written into the real storage in accordance with their priority to increase the real storage hit rate upon occurrence of a next request for loading.
    • 在具有不同访问速度的两个或多个层次存储器和要加载在层级存储器上的程序和/或数据的存储器层次系统中,提供活动信息获取单元和显示单元以呈现关于程序选择和/或 要在存储器层级中的较高级别上加载的数据,提供了一个单元,其自动地决定上级程序和/或数据的加载,并且基于该信息执行程序和/或数据的重新分配,并且 提供了允许用户通过使用用户命令改变负载的单元。 用户可以在执行存储器层级控制时充分利用这些单元。 在一个实施例中,计算并确定要在较高级上加载的程序和/或数据的优先级。 根据其优先级将程序和/或数据写入真实存储器,以在下一次加载请求发生时增加真实的存储命中率。
    • 8. 发明申请
    • FRICTION STIR WELDING DEVICE
    • 摩擦焊接装置
    • US20130119115A1
    • 2013-05-16
    • US13812642
    • 2011-05-27
    • Yoshinori KatoSatoshi FurutateToshiyuki Kinoshita
    • Yoshinori KatoSatoshi FurutateToshiyuki Kinoshita
    • B23K20/12
    • B23K20/1255B23K20/126
    • A friction stir welding device (1) includes a workpiece disposition unit (2) at which workpieces (W) is disposed, a main body section (3) disposed at a surface (W4) of the workpieces (W) disposed at the workpiece disposition unit (2), a tool holding unit (4) formed in the main body section (3) to enable advance and retreat in a direction facing the workpieces (Z), which is a direction approaching and separating from the workpieces (W) disposed at the workpiece disposition unit (2), and configured to hold a tool (100), and a support medium (5) formed to satisfy a predetermined relative positional relationship in the direction facing the workpieces (Z) with respect to a first shoulder surface of the tool (100) attached to the tool holding unit (4) and configured to support the tool holding unit (4) on the surface (W4) of the workpieces (W) disposed at the workpieces disposition unit (2).
    • 摩擦搅拌焊接装置(1)包括设置有工件(W)的工件配置单元(2),设置在设置在工件配置处的工件(W)的表面(W4)上的主体部分(3) 单元(2),形成在主体部分(3)中的工具保持单元(4),以能够在面向工件(Z)的方向上前进和后退,工件(Z)是与所设置的工件(W)接近和分离的方向 在所述工件配置单元(2)处,构造成保持工具(100),以及支撑介质(5),所述支撑介质形成为在与所述工件(Z)相对于第一台肩表面的方向上满足预定的相对位置关系 所述工具(100)安装在所述工具保持单元(4)上并被构造成将所述工具保持单元(4)支撑在设置在所述工件配置单元(2)的所述工件(W)的表面(W4)上。
    • 10. 发明授权
    • Task scheduling method in a multiprocessor system where task selection
is determined by processor identification and evaluation information
    • 多处理器系统中的任务调度方法,其中任务选择由处理器识别和评估信息确定
    • US5349656A
    • 1994-09-20
    • US797912
    • 1991-11-26
    • Seiji KanekoToshiyuki KinoshitaAkio YamamotoYasuhisa Tamura
    • Seiji KanekoToshiyuki KinoshitaAkio YamamotoYasuhisa Tamura
    • G06F15/16G06F9/46G06F9/48G06F9/50G06F15/177G06F9/445
    • G06F9/4881
    • A task scheduling method for a multiprocessor in a computer system having a main storage unit and a plurality of instruction processors each having a buffer storage unit, the buffer storage unit having a copy of a part of the main storage unit and deleting a part of the copy when reading a main storage unit area not stored in the buffer storage unit. The task scheduling method is accomplished by providing each task control block of a task control block queue with an area for storing processor identification of an instruction processor which executes a task and an area for storing evaluation information for evaluating a copied data amount for the task, remaining in the buffer storage unit of the instruction processor executing the task; causing the instruction processor to register the processor identification and evaluation information in the task control block when execution of the task is stopped; and when selecting a task to be executed by a subject instruction processor from a plurality of tasks to be executed in the computer system, causing the subject instruction processor to sequentially read task control blocks in the task control block queue to check each task in accordance with the processor identification and evaluation information, and if a checked result shows that the copied data amount corresponding to a checked task and remaining in the buffer storage unit of the instruction processor is greater than a predetermined amount, causing the subject instruction processor not to select the checked task and allowing another instruction processor to select the checked task.
    • 一种具有主存储单元和多个指令处理器的计算机系统中的多处理器的任务调度方法,每个具有缓冲存储单元,所述缓冲存储单元具有所述主存储单元的一部分的副本, 当读取未存储在缓冲存储单元中的主存储单元区域时复制。 任务调度方法是通过为任务控制块队列的每个任务控制块提供用于存储执行任务的指令处理器的处理器标识的区域和用于存储用于评估该任务的复制数据量的评估信息的区域, 剩余在执行任务的指令处理器的缓冲存储单元中; 使指令处理器在执行任务停止时将处理器识别和评估信息注册到任务控制块中; 并且当从计算机系统中要执行的多个任务中选择要由主体指令处理器执行的任务时,使得所述主题指令处理器顺序地读取任务控制块队列中的任务控制块,以根据 处理器识别和评估信息,并且如果检查结果示出与检查任务相对应并且保留在指令处理器的缓冲存储单元中的复制数据量大于预定量,则使得对象指令处理器不选择 检查任务并允许另一个指令处理器选择被检查的任务。