最常见的数据交换需求是让希望与单元联合的所有定制节点知道部署管理器的主机名。
The most frequent need for this is to make the Deployment Manager hostname known to any custom nodes you wish to federate to the cell.
控制器的逻辑单元为多cpu网络体系,体系内各智能化功能模块通过CAN总线互联,实现模块间的数据交换和多cpu协同工作。
The logic elements in controller are multiple CPU network setup. Individual intelligent functional modules are interconnected by CAN bus for data exchanging and multiple CPU cooperating.
本文对数据交换接口的关键技术进行分析和研究,给出一种面向多核系统的接口单元设计方案。
Key technologies of data exchange interface are analyzed and researched in this paper, and a design plan of the interface unit faced to multi-core SoC is given.
它是在环网上增加计算机接口单元,通过接口机、光纤和数据交换机将生产过程的实时数据引入历史数据平台。
Computer interface Unit is added to I NFI net and the real-time data of manufacture process are retrieved to the historical data platform through interface PCs, fibers and switches.
由于该通讯单元采用双CPU结构,使所有的数据交换并行进行,因此系统通信速度快。
The communication system has rapid data flows attributed to parallel data transmission by using double CPU.
其次,围绕着TMS320C32核心处理单元设计了运动控制系统的存储模块,PC-DSP数据交换模块,D/A输出模块等各部分的电路组成。
Secondly, we designed the module in detail around TMS320C32, the core of control system, such as external storage module, PC-DSP data switch module, D/A output module.
其次,围绕着TMS320C32核心处理单元设计了运动控制系统的存储模块,PC-DSP数据交换模块,D/A输出模块等各部分的电路组成。
Secondly, we designed the module in detail around TMS320C32, the core of control system, such as external storage module, PC-DSP data switch module, D/A output module.
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