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    • 1. 发明授权
    • Hierarchical system configuration method and integrated scheduling method to provide multimedia streaming service on two-level double cluster system
    • 分层系统配置方法和综合调度方法,提供双层双集群系统的多媒体流服务
    • US07584292B2
    • 2009-09-01
    • US11290073
    • 2005-11-30
    • Seung Jo BaeJin Mee KimSeung Hyub JeonHag Young KimMyung Joon Kim
    • Seung Jo BaeJin Mee KimSeung Hyub JeonHag Young KimMyung Joon Kim
    • G06F15/16
    • H04L67/1008H04L67/1002Y10S707/99939
    • A hierarchical system configuration method and an integrated scheduling method for offering a multimedia streaming service on a two-level double cluster system are provided. The hierarchical system configuration method includes the steps of: determining whether one server node exists; if one server node exists, determining whether one virtual server node/specific network storing and merging block exists; and if one virtual server node/specific network storing and merging block exists, setting a system configuration mode for configuring a single virtual server node based multimedia streaming server system and determining a representative network address of a current system, wherein depending on a scale and a characteristic of the multimedia streaming service, a hierarchical multimedia streaming server system is configured into a single virtual server node based system, which is a minimum-scale, a mono-level single virtual cluster based system, which is a medium-scale, and a two-level double cluster based system, which is a maximum-scale.
    • 提供了一种用于在两层双群集系统上提供多媒体流服务的分层系统配置方法和集成调度方法。 分级系统配置方法包括以下步骤:确定是否存在一个服务器节点; 如果存在一个服务器节点,则确定是否存在一个虚拟服务器节点/特定网络存储和合并块; 并且如果存在一个虚拟服务器节点/特定网络存储和合并块,则设置用于配置基于单个虚拟服务器节点的多媒体流服务器系统并确定当前系统的代表性网络地址的系统配置模式,其中取决于比例和 多媒体流服务的特征,分层多媒体流服务器系统被配置成基于单个虚拟服务器节点的系统,该系统是最小规模的,基于单级单个虚拟集群的系统,其是中等规模的,并且 两级双集群系统,最大规模。
    • 8. 发明授权
    • Multi-processor system and method for controlling reset and processor ID thereof
    • 多处理器系统及其控制方法及其处理器ID
    • US07734903B2
    • 2010-06-08
    • US11633811
    • 2006-12-05
    • Young Woo KimSung Nam KimKyoung ParkSeong Woon KimMyung Joon Kim
    • Young Woo KimSung Nam KimKyoung ParkSeong Woon KimMyung Joon Kim
    • G06F9/00
    • G06F15/02G06F15/16
    • Provided are a microprocessor suitable for constructing a multi-processor system and a method for controlling the reset and processor ID of the microprocessor. The microprocessor includes decoder receiving a reset ID having a predetermined binary value and a reset signal and decoding the reset ID, an ID generator receiving the decoding result of the decoder and generating at least one microprocessor ID and a reset ID of a microprocessor serially connected to the microprocessor, and a reset vector unit selecting a reset vector according to the decoding result of the decoder. The multi-processor system is constructed such that independent microprocessors of the system respectively generate their own reset vectors and processor IDs when a reset signal is input to the multi-processor system to initialize it. Thus, all the microprocessors of the system can be simultaneously started up when the reset signal is disabled. Accordingly, a resetting process in the multi-processor system is simplified, a period of time required for starting up the microprocessor is reduced, and the multi-processor system is easily designed.
    • 提供了适用于构造多处理器系统的微处理器和用于控制微处理器的复位和处理器ID的方法。 微处理器包括解码器,其接收具有预定二进制值的复位ID和复位信号,并对复位ID进行解码; ID生成器接收解码器的解码结果,并生成至少一个微处理器ID和与微处理器串行连接的微处理器的复位ID 微处理器和复位向量单元根据解码器的解码结果来选择复位向量。 多处理器系统被构造成使得当复位信号被输入到多处理器系统以初始化时,系统的独立微处理器分别产生它们自己的复位向量和处理器ID。 因此,当复位信号被禁止时,系统的所有微处理器都可以同时启动。 因此,简化了多处理器系统中的复位处理,减少了启动微处理器所需的时间,容易地设计多处理器系统。