1.
Research on Linux network packet buffer recycling toward multi-core processor
面向多核处理器的Linux网络报文缓冲区重用机制研究
2.
look aside buffer
后备缓冲器后备缓冲区
3.
The tag present in the reparse point buffer is invalid.
在重解析点缓冲区中的标签无效。
4.
The data present in the reparse point buffer is invalid.
在重解析点缓冲区中的数据无效。
5.
Number of buffers in the cache that have been moved to a higher priority, based on usage and relative importance.
被移到高一级高速缓存中的缓冲区数,这种移动是以用途和相对的重要性为基础的。
6.
Buffer offset '{1}' plus the bytes available '{0}' is greater than the length of the passed in buffer.
缓冲区偏移量“{1}”加上“{0}”可用字节数大于在缓冲区中传递的长度。
7.
Bytes of cache memory in use by the server for burst buffers
服务器用于快速缓冲区的高速缓存字节数
8.
The buffer supplied for the user identifier property is too small.
为用户标识符属性提供的缓冲区太小。
9.
Error: Out of memory for video buffers.
错误: 内存不足以供视频缓冲区使用。
10.
Select the data buffer size you want to use.
选择您要使用的数据缓冲区大小。
11.
Select the variable compression buffer size you want to use.
选择您要使用的可变压缩缓冲区大小。
12.
No slots are free to keep buffers for table '%.*ls'.
没有可供保管表 ''%1!'' 的缓冲区的可用槽。
13.
The extended attributes did not fit in the buffer.
扩展属性在缓冲区中不适用。
14.
The supplied user buffer is not valid for the requested operation.
提供给请求操作的用户缓冲区无效。
15.
A Study on the Application of FML32 Buffer in Middleware TUXEDO;
TUXEDO中间件中FML32缓冲区的应用研究
16.
Study on the Network Performance of Recycling Socket Buffer;
Socket缓冲区回收利用的网络性能研究
17.
An Application-specific Buffer Allocation Algorithm for Network-on-chip
一种面向应用的NOC缓冲区分配算法
18.
The entity body was not buffered and could not be resubmitted.
实体主体尚未存入缓冲区,未能重新提交。