| 1. | Gets or sets the scaling between world units and page units for this
的全局单位和页单位之间的比例。 |
| 2. | Linux uses the paging unit more than it does the segmentation unit
在linux中,分页单元的使用多于分段单元。 |
| 3. | The result is that the paging unit refers to correct set of page tables
寄存器中。从而使分页单元引用一组正确的页表。 |
| 4. | The paging unit translates the linear addresses into physical ones see figure 1
分页单元负责将线性地址转换成物理地址(请参见图1 ) 。 |
| 5. | Note that the paging unit visualizes ram to be partitioned into a fixed size of page frames
注意,分页单元会直观地将ram划分成固定大小的页框。 |
| 6. | Register which i suppose is first step in setting the paging unit for linux processes
寄存器中,我认为这是为linux进程设置分页单元的第一阶段。 |
| 7. | These page tables are stored in main memory and are properly initialized by the kernel before enabling paging unit
页表存储在主存储器中,可由内核在启用分页单元之前对其进行恰当的初始化。 |
| 8. | The paging unit gets in the linear address as an output of segmentation unit which it then further divides into the following fields
分页单元进入作为分段单元输出结果的线性字段,然后进一步将其划分成以下3个字段: |
| 9. | These linear addresses are contiguous in nature - the paging unit maps these sets of contiguous memory to corresponding set of contiguous physical addresses called
这些线性地址实际上都是连续的分页单元将这些连续的内存映射成对应的连续物理地址范围(称为 |
| 10. | By using the paging unit more than the segmentation unit , linux greatly facilitates memory management and portability across different hardware platforms
通过更多地使用分页单元而非分段单元, linux可以极大地促进内存管理及其在不同硬件平台之间的可移植性。 |
