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    • 1. 发明申请
    • GENERAL PURPOSE EMBEDDED PROCESSOR
    • 一般用途嵌入式处理器
    • US20130185543A1
    • 2013-07-18
    • US13614011
    • 2012-09-13
    • Steven FrankShigeki Imai
    • Steven FrankShigeki Imai
    • G06F9/30
    • G06F9/3009G06F9/30047G06F9/30072G06F9/3013G06F9/3802G06F9/3814G06F9/383G06F9/3851G06F9/4812G06F9/542G06F2209/543Y02D10/24
    • The invention provides an embedded processor architecture comprising a plurality of virtual processing units that each execute processes or threads (collectively, “threads”). One or more execution units, which are shared by the processing units, execute instructions from the threads. An event delivery mechanism delivers events—such as, by way of non-limiting example, hardware interrupts, software-initiated signaling events (“software events”) and memory events—to respective threads without execution of instructions. Each event can, per aspects of the invention, be processed by the respective thread without execution of instructions outside that thread. The threads need not be constrained to execute on the same respective processing units during the lives of those threads—though, in some embodiments, they can be so constrained. The execution units execute instructions from the threads without needing to know what threads those instructions are from.
    • 本发明提供一种嵌入式处理器架构,其包括多个虚拟处理单元,每个虚拟处理单元执行处理或线程(统称为“线程”)。 由处理单元共享的一个或多个执行单元从线程执行指令。 事件传递机制通过非限制性的例子将事件(例如,硬件中断),软件发起的信令事件(“软件事件”)和存储器事件传送到相应的线程而不执行指令。 每个事件可以在本发明的各个方面由相应的线程处理,而不在该线程之外执行指令。 在这些线程的生命期间,线程不需要被限制为在相同的各个处理单元上执行 - 尽管在一些实施例中,它们可以被如此约束。 执行单元从线程执行指令,而不需要知道这些指令来自哪些线程。
    • 2. 发明授权
    • Electronic circuit device
    • 电子电路装置
    • US07769253B2
    • 2010-08-03
    • US10649661
    • 2003-08-28
    • Shigeki ImaiTomoyuki NagaiShunpei YamazakiJun Koyama
    • Shigeki ImaiTomoyuki NagaiShunpei YamazakiJun Koyama
    • G02B6/12H04B10/00H01L27/14
    • G02B6/43
    • An object of the present invention is to provide an electronic circuit device capable of reducing the occurrence of electromagnetic waves associated with the propagation of a signal by utilizing light as a signal. The electronic circuit device has a transparent substrate (hereinafter written as a substrate) over which an optical sensor and an optical shutter and an electronic circuit composed of thin film transistors (TFTs) are formed. An optical signal is inputted from an external into the electronic circuit device, the optical signal is directly irradiated on the optical sensor over the substrate, and penetrates through the substrate, and inputted into an optical sensor over another substrate. The optical sensor converts the optical signal into an electronic signal, and the circuit over the substrate operates. A control signal controls the optical shutter, a light is inputted from the external into this optical shutter, and whether it is transmitted or it is interrupted is determined, whereby the signal is taken out.
    • 本发明的目的是提供一种能够通过利用光作为信号来减少与信号的传播相关联的电磁波的发生的电子电路装置。 该电子电路装置具有形成由光电传感器和光学快门以及由薄膜晶体管(TFT)组成的电子电路的透明基板(以下称为基板)。 光信号从外部输入到电子电路装置中,光信号直接照射在基板上的光学传感器上,并穿透基板,并在另一个基板上输入到光学传感器。 光学传感器将光学信号转换成电子信号,并且衬底上的电路工作。 控制信号控制光学快门,确定从外部将光输入该光学快门,以及是否发送或中断光信号,从而取出信号。
    • 4. 发明授权
    • Virtual processor methods and apparatus with unified event notification and consumer-producer memory operations
    • 具有统一事件通知和消费者生成器内存操作的虚拟处理器方法和设备
    • US08621487B2
    • 2013-12-31
    • US13295777
    • 2011-11-14
    • Steven FrankShigeki ImaiTerumasa Yoneda
    • Steven FrankShigeki ImaiTerumasa Yoneda
    • G06F13/00
    • G06F9/3009G06F9/30047G06F9/30072G06F9/3013G06F9/3802G06F9/3814G06F9/383G06F9/3851G06F9/4812G06F9/542G06F2209/543Y02D10/24
    • The invention provides, in one aspect, a virtual processor that includes one or more virtual processing units. These virtual processing units execute on one or more processors, and each virtual processing unit executes one or more processes or threads (collectively, “threads”). While the threads may be constrained to executing throughout their respective lifetimes on the same virtual processing units, they need not be. The invention provides, in other aspects, virtual and/or digital data processors with improved dataflow-based synchronization. A process or thread (collectively, again, “thread”) executing within such processor can execute a memory instruction (e.g., and “Empty” or other memory-consumer instruction) that permits the thread to wait on the availability of data generated, e.g., by another thread and to transparently wake up when that other thread makes the data available (e.g., by execution of a “Fill” or other memory-producer instruction).
    • 本发明在一个方面提供了一种包括一个或多个虚拟处理单元的虚拟处理器。 这些虚拟处理单元在一个或多个处理器上执行,并且每个虚拟处理单元执行一个或多个进程或线程(统称为“线程”)。 虽然线程可能被限制为在相同的虚拟处理单元上在其各自的寿命期间执行,但是它们不需要。 本发明在其它方面提供具有改进的基于数据流的同步的虚拟和/或数字数据处理器。 在这种处理器内执行的过程或线程(统称为“线程”)可以执行允许线程等待生成的数据的可用性的存储器指令(例如和“空”或其他存储器 - 消费者指令),例如 ,另一个线程透明地唤醒,当另一个线程使数据可用时(例如,通过执行“填充”或其他存储器 - 生成器指令)。
    • 5. 发明申请
    • DISPLAY DEVICE AND DISPLAY METHOD THEREOF
    • 显示装置及其显示方法
    • US20120319936A1
    • 2012-12-20
    • US13582175
    • 2011-01-13
    • Yuhji TanakaShigeki Imai
    • Yuhji TanakaShigeki Imai
    • G09G3/36
    • G09G3/3426G02F1/133603G09G2320/064G09G2320/0646
    • Disclosed is a display device capable of changing a video image display area of high significance so as to be brighter than a video image display area of low significance, from among a plurality of video images. The display device comprises a liquid crystal display panel (1), a backlight unit (2), and a video image compositing unit (7) that generates composite video image data and backlight data. The backlight data is generated corresponding to the significance of the plurality of video images, and by the brightness of the backlight being adjusted for each display area on the basis of the backlight data, the video image display area of high significance is made brighter than the video image display area of low significance.
    • 公开了一种显示装置,其能够从多个视频图像中改变具有高重要性的视频图像显示区域,使其比具有低重要性的视频图像显示区域更亮。 显示装置包括产生复合视频图像数据和背光数据的液晶显示面板(1),背光单元(2)和视频图像合成单元(7)。 基于多个视频图像的重要性生成背光数据,并且基于背光数据对每个显示区域调整背光的亮度,使具有高重要性的视频图像显示区域比 视频图像显示区域意义不大。
    • 6. 发明授权
    • General purpose embedded processor
    • 通用嵌入式处理器
    • US08271997B2
    • 2012-09-18
    • US12700211
    • 2010-02-04
    • Steven FrankShigeki Imai
    • Steven FrankShigeki Imai
    • G06F13/00
    • G06F9/3009G06F9/30047G06F9/30072G06F9/3013G06F9/3802G06F9/3814G06F9/383G06F9/3851G06F9/4812G06F9/542G06F2209/543Y02D10/24
    • The invention provides an embedded processor architecture comprising a plurality of virtual processing units that each execute processes or threads (collectively, “threads”). One or more execution units, which are shared by the processing units, execute instructions from the threads. An event delivery mechanism delivers events—such as, by way of non-limiting example, hardware interrupts, software-initiated signaling events (“software events”) and memory events—to respective threads without execution of instructions. Each event can, per aspects of the invention, be processed by the respective thread without execution of instructions outside that thread. The threads need not be constrained to execute on the same respective processing units during the lives of those threads—though, in some embodiments, they can be so constrained. The execution units execute instructions from the threads without needing to know what threads those instructions are from. A pipeline control unit which launches instructions from plural threads for concurrent execution on plural execution units.
    • 本发明提供一种嵌入式处理器架构,其包括多个虚拟处理单元,每个虚拟处理单元执行处理或线程(统称为“线程”)。 由处理单元共享的一个或多个执行单元从线程执行指令。 事件传递机制通过非限制性的例子将事件(例如,硬件中断),软件发起的信令事件(“软件事件”)和存储器事件传送到相应的线程而不执行指令。 每个事件可以在本发明的各个方面由相应的线程处理,而不在该线程之外执行指令。 在这些线程的生命期间,线程不需要被限制为在相同的各个处理单元上执行 - 尽管在一些实施例中,它们可以被如此约束。 执行单元从线程执行指令,而不需要知道这些指令来自哪些线程。 管道控制单元,其从多个线程启动指令,用于在多个执行单元上并发执行。