光交叉互连的基本核心元件是光开关。
Optical switching is basic component in optical cross connector.
光交叉互连是全光网络技术中的关键技术之一,而其核心技术就是可用于交叉互连的高性能光开关。
OXC, Optical cross Connector, is one of the most important technologies in AON, and one of its core technology is high powered optical switching which can be used for OXC .
光互连全交叉网络在巨型计算机和光子交换网络系统等领域具有十分重要的潜在应用。
Optical interconnection networks have important potential applications in the fields of super-computers and photonic switching network systems etc.
利用现场可编程门阵列(FP GA)在光互连网络中实现了数据包的硬件路由以及数字交叉开关的动态配置。
With field programmable gate array(FPGA), hardware routing of data packages and dynamic configuration of digital crosspoint switch are realized.
接着从互连拓扑方式出发,系统地介绍了总线式、交叉开关式、开关枢纽式的不同系统结构及其内在联系。
Then the definite architectures of bus, interleare switch, switch hub types and interconnection are stated systematically from an interconnected topologic way.
接着从互连拓扑方式出发,系统地介绍了总线式、交叉开关式、开关枢纽式的不同系统结构及其内在联系。
Then the definite architectures of bus, interleare switch, switch hub types and interconnection are stated systematically from an interconnected topologic way.
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