帧缓冲区驱动程序通常有三层。
帧缓冲区支持提高了绘图的速度和整体性能。
Framebuffer support speeds both drawing and overall performance.
此外,接收帧缓冲区使用专用的方法描述。
In addition, a method for receiving frames using the dedicated buffer is described.
它现在的只是喜欢好过去,回时必须是帧缓冲区并软件游标。
It's now just like the good old days, back when all you had was a frame buffer and a software cursor.
允许一个应用程序通过访问帧缓冲区(一般一屏就是一帧)获取屏幕截图等帧数据。
Allows an application to take screen shots and more generally get access to the frame buffer data.
硬件游标采用时,鼠标光标的像素并不实际存在于帧缓冲区因为硬件负责执行覆盖。
When a hardware cursor is employed, the pixels of the mouse cursor do not actually exist in the frame buffer because the hardware is responsible for performing the overlay.
它具有对内核帧缓冲区的内置支持,并占用非常少的资源 ―这非常有助于内存相对较少的设备。
It has built-in support for kernel framebuffer, and a very small footprint -- which is very helpful for devices with less memory.
而在另一方面,当您使用支持软件的游标,然后GDI负责前其绘制到帧缓冲区保存在光标下的像素。
On the other hand, when you use a software-supported cursor, then the GDI is responsible for saving the pixels under the cursor before drawing it into the frame buffer.
帧的局部经过位块传输后保存在缓冲区,最终在屏幕显示。 这种预转换通过帧间转换,对保持色彩状态十分重要。
This pre-conversion is critical for maintaining color state through transitions of different frames as their portions are blitted to the buffer and, eventually, the screen.
探测器又叫做缓冲区探测器—它只在实际的数据块上被调用,比如视频帧。
The probe is what's called a buffer probe-it gets called only on actual blocks of data such as frames of video.
您的选择决定了比特率、帧速率和缓冲区大小等设置。
Your selections determine settings such as bit rate , frame rate , and buffer size .
为内容选择编码设置。您的选择决定了比特率、帧速率和缓冲区大小等设置。
Select encoding Settings for your content. Your selections determine Settings such as bit rate, frame rate, and buffer size.
本文设计了一种循环缓冲区,能够正确而有效的实现对参考帧队列的管理和维护。
The loop buffer in this paper can achieve the management of reference frame list correctly and efficiently.
为了改进此缺点,基于GOP的整体情况自适应调整I帧的量化参数,从而避免缓冲区溢位与跳帧的问题。
To modify this, we regulate adaptively the quantization parameter of each I-frame according to GOP complexion to avoid the buffer overflow and frame-skipping.
您要求的缓冲区大小可能导致由于内存交换而丢失帧。您确定要分配这样大小的缓冲区吗?
The buffer size you have requested may cause frames to be dropped due to swapping. Are you sure you want to allocate a buffer of this size?
这是一个双缓冲,因为有“进步”的缓冲区用于更新的房间,以及拥有最终的图像从上一帧缓冲,这是由监视器读。
It's a double-buffer, because there's room for the "in-progress" buffer used for the updates, as well as the buffer that holds the final image from the last frame, that's being read by the monitor.
专用接收缓冲区接收非数据帧的每一个端口提供两个在一个光纤端口节点通道仲裁环串行通信信道的设计。
Dedicated receive buffers for receiving non-data frames are provided for each port of a two-port node in a fibre-channel arbitrated-loop serial communications channel design.
PLC每接收到一帧数据,对该帧数据进行异或校验,如果无误则存送到指定缓冲区,如果有误则请求重新发送。
When PLC receive one frame data, it checkout the frame. If the data is correct, it is saved in the appointed buffer. If not, PLC request the IPC resend it.
PLC每接收到一帧数据,对该帧数据进行异或校验,如果无误则存送到指定缓冲区,如果有误则请求重新发送。
When PLC receive one frame data, it checkout the frame. If the data is correct, it is saved in the appointed buffer. If not, PLC request the IPC resend it.
应用推荐