您了解了网络配置的一些最佳实践,更改了您的以太网设置来支持最大帧,并查看了接口硬件和驱动程序数据。
You learned some best practices for network configuration, changed your Ethernet Settings to support jumbo frame, and viewed interface hardware and driver data.
帧缓冲区驱动程序通常有三层。
TAP驱动程序使访客操作系统能够将原始以太网帧写到一个虚拟以太网设备(用户空间的扩展)。
The TAP driver allows the guest operating system to read or write raw Ethernet frames to a virtual Ethernet device (extended to user space).
发布版本的网络驱动程序被使用,而且以太网Jumbo帧被配置好,以更好地支持这项散装流的情况。
Released versions of network drivers were used, and Ethernet jumbo frames were configured to better support this bulk streaming scenario.
有些驱动程序使用的是NAPI,但是大多数驱动程序仍然在使用老式的帧接收接口(比例大约是6比1)。
Some drivers use NAPI, but the large majority still use the older frame reception interface (by a rough factor of six to one).
系统测试结果表明,设计的CCD驱动程序可以满足其帧转移面阵CCD的各项驱动要求。
The system result indicates that the designing of CCD driving program can meet every demand of this array CCD of frame transfer.
设计的CCD驱动电路可以满足其帧转移面阵CCD的各项驱动要求。
Designing of CCD driving circuit can meet this array CCD of frame transfer of every demand of CCD.
给一个发送帧,在介质上传送该帧时,一但帧已经上传到NIC的内存以后,该帧的缓存会被驱动释放。
Given a frame to send, the buffer that holds it is released by the driver once the frame has been uploaded into the NIC's memory for transmission on the medium.
介绍了一种帧转移型面阵紫外CCD—CCD180—512-SFT,在对它的驱动时序进行分析的基础上,设计了驱动时序电路并完成了仿真。
One of frame transfer array UV-CCD—CCD180-512-SFT was introduced. According to its driving schedule, the driving scedule circuit was designed and the system simulation has been successfully fulfilled.
介绍了一种帧转移型面阵紫外CCD—CCD180—512-SFT,在对它的驱动时序进行分析的基础上,设计了驱动时序电路并完成了仿真。
One of frame transfer array UV-CCD—CCD180-512-SFT was introduced. According to its driving schedule, the driving scedule circuit was designed and the system simulation has been successfully fulfilled.
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