The performance improvement is due to the reduction of Translation Lookaside Buffer (TLB) misses, which occurs because the TLB can now map to a much larger virtual memory range.
性能之所以得到了改进,是因为提高了TranslationLookasideBuffer (TLB)的命中率,这是因为TLB可以映射到更大的虚拟内存范围。
Increasing the size of this buffer allows the system to map more virtual memory, which results in a lower miss rate for applications that use a lot of virtual memory like Oracle.
增加这个缓冲区的大小允许系统映射更多的虚拟内存,其结果是使得使用大量虚拟内存的应用程序(如Oracle)的缺页率更低。
Existing tablespace can now be altered to map to buffer pool bp1. The following example maps the emp tablespace to buffer pool bp1.
现在就可以更改当前的表空间以映射缓冲池bp1。
The DBA can map the buffer pool to the tablespace when creating or altering the tablespace.
DBA在创建或更改表空间时可以将缓冲池映射到该表空间。
This parameter sets the buffer size for map-side sorting, in units of MB, 100 by default.
这个参数设置用于 map 端排序的缓冲区大小,单位是MB,默认值是 100。
We're apparently using the wrong APIs to map this buffer, because it appears to be uncached, and the access speed is terrible.
我们显然使用了错误的API来映射这个缓冲区,因为它似乎未缓存,并且访问速度是可怕的。
As to the multiple classification algorithms of large size rule set, we introduce a algorithms named recursive flow classification and this algorithms use the linear buffer to implement recursive map.
接着本文介绍了应用于大规模规则库的快速分类算法的解决方案——递归流分类,该算法是一种利用线性存储区分块递归映射的算法。
The results demonstrate the dynamic organization methods and the dual buffer pool map display strategy can improve the speed of map display.
试验结果表明,本文研究的数据动态组织方法和地图显示策略提高了地图显示速度。
Considering most GIS buffer analysis is data intensive computing, the task was decomposed according to the map layer and geographic spatial area.
考虑到大多数地理信息系统中缓冲区分析数据的特点,提出了基于图层和地理空间区域的任务分解方法。
Considering most GIS buffer analysis is data intensive computing, the task was decomposed according to the map layer and geographic spatial area.
考虑到大多数地理信息系统中缓冲区分析数据的特点,提出了基于图层和地理空间区域的任务分解方法。
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