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    • 2. 发明授权
    • Scheduling method, scheduling apparatus and multiprocessor system
    • 调度方法,调度设备和多处理器系统
    • US08166482B2
    • 2012-04-24
    • US13012054
    • 2011-01-24
    • Naohiro Nishikawa
    • Naohiro Nishikawa
    • G06F9/46
    • G06F9/5066
    • A thread status managing unit organizes a plurality of threads into groups and manages the status of the thread groups. A ready queue queues thread groups in a ready state or a running state in the order of priority and, within the same priority level, in the FIFO order. An assignment list generating unit sequentially retrieves the thread groups from the ready queue. The assignment list appends a retrieved thread group to a thread assignment list only when all threads belonging to the retrieved thread group are assignable to the respective processors at the same time. A thread assigning unit assigns all threads belonging to the thread groups stored in the thread assignment list to the respective processors.
    • 线程状态管理单元将多个线程组织成组并管理线程组的状态。 准备好的队列将处于就绪状态或运行状态的线程组以优先级顺序排队,并且在同一优先级别内以FIFO顺序排队。 分配表生成单元从就绪队列顺序地检索线程组。 只有当属于检索到的线程组的所有线程可以同时分配给相应的处理器时,分配列表将检索到的线程组添加到线程分配列表。 线程分配单元将属于线程分配列表中存储的线程组的所有线程分配给各个处理器。
    • 4. 发明申请
    • GALLIUM NITRIDE EPITAXIAL CRYSTAL, METHOD FOR PRODUCTION THEREOF, AND FIELD EFFECT TRANSISTOR
    • 氮化铝外延晶体,其生产方法和场效应晶体管
    • US20100117094A1
    • 2010-05-13
    • US12527116
    • 2008-02-07
    • Naohiro NishikawaHiroyuki SazawaMasahiko Hata
    • Naohiro NishikawaHiroyuki SazawaMasahiko Hata
    • H01L29/772H01L29/205H01L21/20
    • H01L29/66462H01L29/2003H01L29/7783
    • The present invention provides a gallium nitride type epitaxial crystal, a method for producing the crystal, and a field effect transistor using the crystal. The gallium nitride type epitaxial crystal comprises a base substrate and the following (a) to (e), wherein a connection layer comprising a gallium nitride type crystal is arranged in an opening of the non-gallium nitride type insulating layer to electrically connect the first buffer layer and the p-conductive type semiconductor crystal layer. (a) a gate layer, (b) a high purity first buffer layer containing a channel layer contacting an interface on the base substrate side of the gate layer, (c) a second buffer layer arranged on the base substrate side of the first buffer layer, (d) a non-gallium nitride type insulating layer arranged on the base substrate side of the second buffer layer, and having the opening at a part thereof, and (e) a p-conductive type semiconductor crystal layer arranged on the base substrate side of the insulating layer.
    • 本发明提供一种氮化镓型外延晶体,该晶体的制造方法以及使用该晶体的场效应晶体管。 氮化镓型外延晶体包括基底和以下(a)至(e),其中包括氮化镓型晶体的连接层被布置在非氮化镓型绝缘层的开口中,以将第一 缓冲层和p导电型半导体晶体层。 (a)栅极层,(b)高纯度第一缓冲层,其含有与栅极层的基底侧上的界面接触的沟道层,(c)第二缓冲层,其设置在第一缓冲层的基底侧 层,(d)配置在第二缓冲层的基板侧的非氮化镓系绝缘层,其一部分具有开口部,(e)配置在基板上的p导电型半导体晶体层 绝缘层的衬底侧。
    • 6. 发明申请
    • Sampling rate converter and a semiconductor integrated circuit
    • 采样率转换器和半导体集成电路
    • US20070046508A1
    • 2007-03-01
    • US11512171
    • 2006-08-30
    • Naohiro Nishikawa
    • Naohiro Nishikawa
    • H03M7/00
    • G11B20/10G11B20/10527G11B2020/1062
    • The present invention reduces the manufacturing cost of a sampling rate converter. The sampling rate converter disclosed herein comprises a buffer for buffering input data, a sampling rate converter core for converting a sampling rate of data output from the buffer, and a sampling rate conversion control unit capable of controlling sampling rate conversion by the sampling rate converter core. The sampling rate conversion control unit comprises a table of data for control of the sampling rate conversion by the sampling rate converter core and an input sampling rate calculating module which determines an input sampling rate for the sampling rate converter core by referring to the table, wherein the data for control in the table can be updated. A PLL circuit for sampling rate conversion is dispensed with and reducing the manufacturing cost of the sampling converter is achieved.
    • 本发明降低了采样率变换器的制造成本。 本文公开的采样率转换器包括用于缓冲输入数据的缓冲器,用于转换从缓冲器输出的数据的采样率的采样率转换器核心和能够控制采样率转换器核心的采样率转换的采样率转换控制单元 。 采样率转换控制单元包括用于控制采样率转换器核心的采样率转换的数据表和通过参考该表确定采样率转换器芯的输入采样率的输入采样率计算模块,其中 可以更新表中控制的数据。 用于采样率转换的PLL电路被省去,并且降低了采样转换器的制造成本。
    • 8. 发明申请
    • Semiconductor integrated circuit and record player
    • 半导体集成电路和唱机
    • US20070245218A1
    • 2007-10-18
    • US11699006
    • 2007-01-29
    • Naohiro Nishikawa
    • Naohiro Nishikawa
    • G11C29/00
    • G11B20/10G11B20/00007G11B20/00086G11B27/105G11B2020/00014G11B2020/10833G11B2220/2516G11B2220/2545G11B2220/41
    • The present invention provides a technique capable of performing a process for encoding data read from a first storing medium and writing the encoded data to a second storing medium seemingly at high speed and, moreover, excellently protecting the copyright of the data. A semiconductor integrated circuit includes: a first processor for performing primary encoding on data read from a first storing medium, thereby forming a temporary file in a second storing medium; and a second processor for performing secondary encoding on the temporary file so as to be converted to compressed stream data, thereby enabling the temporary file and the compressed stream data to be reproduced. Reproduction of the data in the second storing medium is enabled on completion of the primary encoding, so that the process for encoding data read from the first storing medium and writing the encoded data to the second storing medium can be performed seemingly at high speed. Since the temporary file is subjected to the primary encoding, the copyright of the data is protected.
    • 本发明提供了一种能够执行从第一存储介质读取的数据的编码处理,并将编码数据写入高速的第二存储介质,而且极好地保护数据版权的技术。 半导体集成电路包括:第一处理器,用于对从第一存储介质读取的数据进行主编码,从而在第二存储介质中形成临时文件; 以及第二处理器,用于对临时文件执行二次编码,以便将其转换为压缩流数据,从而使临时文件和压缩流数据得以再现。 可以在完成主编码之后使第二存储介质中的数据再现,从而可以高速地执行用于从第一存储介质读取的编码数据和将编码数据写入第二存储介质的处理。 由于临时文件经受主编码,所以数据的版权受到保护。
    • 9. 发明申请
    • Scheduling method, scheduling apparatus and multiprocessor system
    • 调度方法,调度设备和多处理器系统
    • US20060123420A1
    • 2006-06-08
    • US11291073
    • 2005-11-30
    • Naohiro Nishikawa
    • Naohiro Nishikawa
    • G06F9/46
    • G06F9/5066
    • A thread status managing unit organizes a plurality of threads into groups and manages the status of the thread groups. A ready queue queues thread groups in a ready state or a running state in the order of priority and, within the same priority level, in the FIFO order. An assignment list generating unit sequentially retrieves the thread groups from the ready queue. The assignment list appends a retrieved thread group to a thread assignment list only when all threads belonging to the retrieved thread group are assignable to the respective processors at the same time. A thread assigning unit assigns all threads belonging to the thread groups stored in the thread assignment list to the respective processors.
    • 线程状态管理单元将多个线程组织成组并管理线程组的状态。 准备好的队列将处于就绪状态或运行状态的线程组以优先级顺序排队,并且在同一优先级别内以FIFO顺序排队。 分配表生成单元从就绪队列顺序地检索线程组。 只有当属于检索到的线程组的所有线程可以同时分配给相应的处理器时,分配列表将检索到的线程组添加到线程分配列表。 线程分配单元将属于线程分配列表中存储的线程组的所有线程分配给各个处理器。