As such, the next section Outlines the various problems programmers currently face when they adopt a conventional data buffer management scheme.
因而,下一节将概略介绍程序员在采用传统数据缓冲区管理方案时所面对的各种问题。
In the last section, you saw how the conventional buffer management scheme produces several problems.
在上一节中,您看到了传统缓冲区方案如何会产生多种问题。
This section discusses some important points to consider when using a ring buffer to enable logging in a multi-threaded application.
这个部分介绍了在多线程应用程序中使用循环缓冲区启用日志记录时需要考虑的一些重要方面。
This setting controls the size of the NSF buffer pool, a section of memory dedicated to buffering I/O transfers between the NIF indexing functions and disk storage.
这个设置控制NSF缓冲池的大小,后者是用于缓冲NIF索引函数与磁盘存储之间的I/O传输的一部分内存。
(buffer pool size in the db2exfmt output is discussed further in the buffer pool size section below.).
db 2 exfmt输出中的缓冲池大小将在下面的缓冲池大小一节中进行进一步的讨论。
Sure, but as you'll soon see in Section 2.4.4, ByteBuffer objects possess a host of convenience methods for getting and putting the buffer content as other primitive data types.
当然,但是您将很快看见,在2.4.4,字节缓冲区对象拥有一大堆方便的方法,作为别的基本数据类型用来获取和存放缓冲区内容。
Buffer rollers: conveyor by the material installed in the bottom section to reduce the belt blow to extend belt life.
缓冲托辊:安装在输送机受料段下方,减少输送带所受的冲击,延长输送带使用寿命。
Buffer rollers: conveyor by the material installed in the bottom section to reduce the belt blow to extend belt life.
缓冲托辊:安装在输送机受料段下方,减少输送带所受的冲击,延长输送带使用寿命。
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