上位机、下位机之间通过RS232C串行通讯接口总线交换数据。
The communication between host computer and slave computers is accomplished through their serial ports, RS232C.
就像之前描述的,消息的消费者和生产者并不直接交换消息;他们从总线上发送和接收消息。
As described earlier, message consumers and producers do not exchange messages directly; they send and receive messages from the bus.
服务集成总线可以配置为连接到其他消息传递网络,并与其交换消息。
A service integration bus can be configured to connect to, and exchange messages with, other messaging networks.
因此,总线成员应该能够使用一种统一的机制来调用EIS提供的函数并与EIS交换数据。
Hence, Bus members should be able to use a unified mechanism to invoke functions provided by EIS and exchange data with EIS.
在push交换(也被称为事件通知)中,总线为某些等待的应用程序启动消息的传输。
In push exchanges, also known as event notifications, the bus initiates the transfer of the message to some waiting application.
在pull交换中,应用程序通过给总线发送某种形式的请求并接收一个或多个在响应中排队等候的消息来启动传输。
In pull exchanges the application initiates the transfer by sending some form of request to the bus and receiving one or more queued-up messages in response.
总线上交换的消息也是标准的(通常基于WSDL/XML)。
Standardized (usually WSDL/XML based) messages are exchanged on that bus.
规范化消息模型表示用于在服务总线上交换业务信息的标准化格式。
The canonical message model represents the standardized format used for exchanging business information on a service bus.
正如本系列第4篇文章所述,规范化消息模型表示用于在服务总线上交换业务信息的标准化格式。
As outlined in the fourth article in this series, the canonical message model represents the standardized format used for exchanging business information on a service bus.
服务器上有两个主机总线适配器 (HBAs)、RAID阵列上有两个SAN交换机和两个 RAID控制器。
There are two host bus adapters (HBAs) on the server, two SAN switches, and two RAID controllers on the RAID array.
变电站间隔层的保护测控单元可以通过网络交换信息和数据,因而CAN总线网构成了高效率信息、数据网络。
With high efficiency of CANbus network, the protection & monitor units of substation bays can exchange information through the network quickly to achieve data sharing in substation automation systems.
采用软件模拟时序使CPU的I/O口模拟I2C总线,实现了单片机与时钟芯片、温湿度传感器、存储芯片等器件的数据交换。
With time series simulation software, the CPU's I/O ports simulate I2C bus and exchange data with clock chips, temperature humidity sensors, memory chips and other devices.
GPIB总线接口目前越来越广泛地应用于各种智能化仪器之间的信息交换。
GPIB bus interface is at present more and more widely used to information interchange between various intelligent instruments.
航空电子综合化的支撑技术是航空总线技术,它负责飞机上各个子系统之间的信息交换和资源共享。
Aviation bus technology is the base of avionics integrated system, with responsibility for information exchange and resource sharing between different subsystem on the plane.
PC与DSP的数据交换采用高速静态RAM,并设计总线仲裁电路及相应的握手信号,以保证PC与DSP双方对RAM的正确读写。
PC and DSP exchange data using high speed static RAM and bus arbitration circuit and corresponding handshake signal is designed to ensure the correct reading and writing RAM.
发送器,致动器和可编程序控制器间信息交换用文件传送协议总线。数据链层。
Fip bus for exchange of information between transmitters, actuators and programmable controllers. Data link layer.
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.
星载数据总线用于各星载电子设备之间的通讯和数据交换,是整个星载电子系统的关键部件之一。
On-board data bus is one of the crucial modules in on-board electronic systems, used for communication and data exchange among on-board electronic devices.
本论文提出了一种基于企业服务总线(esb)技术的北京城轨信息交换平台。
This thesis presents the Beijing Subway information exchange platform based on ESB (Enterprise Service Bus).
该系统采用CAN现场总线增强各探测点与底层控制器之间的信息交换能力。
To enhance the capability of exchanging information among each detecting point and the bottom controller, the CAN field bus is adopted.
数据节点通过各自CAN控制器与总线相联,实现网络数据交换。
Data nodes are connected to the bus through their own CAN controllers to realize network data-changing.
智能采集器与控制器通过现场总线通信,交换信息、发送指令、采集数据和控制。
Intelligent data acquisition collector communicates with controller via field-bus, exchanges information, sends command, gather data and control.
针对传统的PCI总线结构形成系统通信瓶颈的缺陷,提出了以交换网络为中心的可扩展并行PC体系结构设计思想。
According to the traditional PCs defect that the PCI bus forms the bottleneck of system communication, we propose the design of Parallel PC architecture for switching network centric.
正如%准备%使用,使用的内存交换和磁盘总线重置,报告可以为您提供度量标准。
Reports give you metrics like percent ready, percent used, memory swap used and disk bus resets.
这种采用以太网总线适配器数据交换的方式,可以真正的实现上位组态系统和底层数据采集模块的无缝连接。
Seamless connection between epigyny configuration system and bottom data collection module can be realized by using this data exchange mode.
研究了实现这两种总线数据交换的关键设备,提出了相应系统的硬件和软件实现方法。
It can deal with the data of the both the buses. the software and hardware is given.
现场总线是,提供一个有效的数字串行数据交换中的一个或多个控制器和现场设备的数量数字网络。
Field buses are digital networks that provide an efficient digital serial data exchange among one or more controllers and a number of field devices.
最后,根据CAN总线的特性,提出了CAN总线通讯方案,实现UPS并联时的运行参数的交换和运行状态的监控。
At last, according to the characteristics of CAN bus, the method, which achieves communicating the run parameters and monitoring the run states when the UPS system is running, is presented.
也即当采用并行端口的众多多功能外设器件彼此相连时,在通用串行总线(usb)上可以实现他们的高速数据交换。
While many MFP devices still use the parallel port, there is a shift to Universal Serial Bus (USB) for the high-speed connection of peripheral devices.
也即当采用并行端口的众多多功能外设器件彼此相连时,在通用串行总线(usb)上可以实现他们的高速数据交换。
While many MFP devices still use the parallel port, there is a shift to Universal Serial Bus (USB) for the high-speed connection of peripheral devices.
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