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- logical device table (LDT) 逻辑设备表,逻辑输入输出设备表
- logical device table 逻辑设备表, 逻辑输入输出设备表
- The operator can assign a physical device to a logical device name through this command, as describe in the second chapter. 正如在第二章里所描述的,操作员通过这个命令,能把一个物理设备分配给一个逻辑设备名。
- The operator can assign a physical device to a logical device name through this command, as described in the second chapter. 正如在第二章里所描述的,操作员通过这个命令,能把一个物理设备分配。
- Capabilities and management of the flat panel logical device. 平面逻辑设备的功能和管理。
- Capabilities and management of the keyboard logical device. 键盘逻辑设备的功能和管理。
- Capabilities and management of the power supply logical device. 电源提供逻辑设备的功能和管理。
- Capabilities and management of the processor logical device. 处理器逻辑设备的功能和管理。
- Capabilities and management of the scanner logical device. 扫描仪逻辑设备的功能和管理。
- The logical device to which the resource is assigned. 指派了资源的逻辑设备。
- PLD is the logic device that can be programmed in system. 摘要PLD是可以由用户在系统现场进行编程的逻辑器件。
- The operator can assign a physical device to a logical device name through this command, as. 正如在第二章里所描述的,操作员通过这个命令,能把一个物理设备分配给一个逻辑设备名。
- In this paper, the design method and process of programmable logical device(PLD) is described. 描述了可编程逻辑器件PLD的设计方法和过程。
- For logic devices, the incremental current gain is very important. 对于逻辑器件来说,提高电流增益是非常重要的。
- Defining a new logical backup device that uses the original logical device name but maps to a different physical backup device. 定义新的逻辑备份设备,新设备使用原来的逻辑设备名称,但映射到不同的物理备份设备。
- A backup device is a logical device that corresponds to a resource provided by the operating system (the specified physical device). 备份设备是指对应于操作系统提供的资源(指定的物理设备)的逻辑设备。
- This paper mainly introduced how to use the programmable logical device CPLD to realize 1553B bus interior interface Manchester code encoder. 本论文的主要工作是使用可编程逻辑器件CPLD实现MIL-STD-1553B总线接口内部的曼彻斯特码编码器。
- Based on a complicated programmable logical device (CPLD), a miniaturized universal pulse height analysis (PHA) module of high performance is realized. 介绍一种基于复杂可编程逻辑器件(CPLD)的通用高性能脉冲幅度分析(PHA)模块设计。
- Alternating reading and writing of the two SDRAM that generates the jointless transmission buffer is controlled by programmable logical device FPGA. 用可编程逻辑器件FPGA控制两片SDRAM交替读写,实现视频信号的无缝缓冲传输;
- The operator can assign a physical device to a logical device name through this command, as described in the second chapter . 正如在第二章里所描述的,操作员通过这个命令,能把一个物理设备分配给一个逻辑设备名。
