| 1. | The following diagram illustrates the mapping of linear addresses to ram
下图是在ram中的线性地址映射。 |
| 2. | The cpu control unit transforms a linear address into a physical address automatically
Cpu会自动把一个虚地址映射成一个物理地址。 |
| 3. | After changing address mappings , close and reopen the external address book window for changes to take effect
更改地址映射后,关闭并重新打开“外部通讯录”窗口,使更改生效。 |
| 4. | For every page mapped by each process , page - table entries must also be created to map the virtual address to the physical address
由于每个页都要由每个进程映射,必须创建页表条目来将虚拟地址映射到物理地址。 |
| 5. | This has led to the use of network address translators nats that map multiple private addresses to a single public ip address
这导致使用网络地址转换程序( nat ) ,这些转换程序将多个专用地址映射到单个公共ip地址。 |
| 6. | It translates the internal private address into an assigned public address and can multiplex many internal addresses to one external one
它能把内部私有的地址转换成合法的公共地址,即将多个内部地址映射成唯一的外部地址。 |
| 7. | The address mapping scheme can reduce half of the bandwidth demand of chroma data , and map the memory requests to 4 banks equably
该地址映射方式可减少色度分量对带宽要求的一半,并且将存取请求均匀交错地分布到4个bank中。 |
| 8. | Extended paging coexists with normal paging and is enabled to map large contiguous linear addresses into corresponding physical ones
扩展分页可以与普通的分页模型一起使用,并可用于将大型的连续线性地址映射为对应的物理地址。 |
| 9. | Helpfully , a calculation from a linear address to a physical one is quite simple and this will be shown several times in the following chapters
不过还好把一个虚地址映射成一个物理地址的过程还算是相当简单的,在下面的章节里我们会多次展示这些技巧。 |
| 10. | The kernel , however , maps the attachment address for shared libraries to an address somewhere in the middle of the address space , limiting the contiguous area
但是,内核会将共享库的连接地址映射到地址空间靠中间的某个地址,从而限制了连续地址的获得。 |
