This section briefly describes how the visual elements relate to the physical file system layout.
这部分简要的描述了可见元件是如何与物理文件系统布局相关联的。
Files are stored in the current Orchard file system, which can be either the server's physical file system or Azure blob storage.
文件存储在当前Or chard系统中,可以是一个物理文件系统或者用azureblob存储。
A virtual file system can be a physical file system, a network file system, or a logical file system (one that does not have a physical backing store, such as ramfs).
虚拟文件系统可以为物理文件系统、网络文件系统、或者逻辑文件系统(没有物理后备存储,如ramfs)。
The virtual file system bridges the underlying disparate physical file system to the logical file system, providing a consistent directory tree hierarchy to the rest of the operating system.
虚拟文件系统建立了不同的基础物理文件系统到逻辑文件系统之间的桥梁,为操作系统中的其他部分提供了一致的目录树层次结构。
It reports on all layers of file system utilization, including the Logical Volume Manager (LVM), virtual memory, and physical disk layers.
它报告文件系统的所有层的使用率,包括逻辑卷管理器(LVM)、虚拟内存和物理磁盘层。
This includes the physical architecture, logical disk geometry, and logical volume and file system configuration.
这包括物理体系结构、逻辑磁盘排列,以及逻辑卷和文件系统配置。
If the source is not modified, the snapshot does not store any of the files in its own physical disk space and has the same content as the original file system.
如果源文件系统没有修改,快照不会在其自己的物理磁盘空间中存储任何文件,并且具有的内容与原始文件系统相同。
It spreads data over several physical servers, but the user treats the amalgam as one UNIX-like file system resource.
它把数据分散在几个物理服务器上,但是用户作为一个与UNIX相似的文件系统资源操作它。
As discussed earlier, ZFS incorporates a volume-management function to abstract underlying physical storage devices to the file system.
正如前面所讨论的,ZFS合并了卷管理功能来提取底层物理存储设备到文件系统。
It consists of a number of elements that track the relationship of the entry to other entries in the file system as well as physical data (such as the file name).
它由许多元素组成,这些元素在文件系统和物理数据中跟踪条目之间的关系(比如文件名)。
The structure and size of a file depends on the underlying file system—the subsystem that persists the file data to a physical device.
文件的结构和大小取决于底层文件系统 —即把文件数据存储到物理设备上的子系统。
Physical parameters range from the temperature of CPUs, utilization of memory and file system, interface utilization, and voltage reading, among other physical values.
物理参数包括CPU温度、内存与文件系统利用情况、接口利用、电压读数,以及其他物理值。
Figure 14 shows the logical volume, physical volume, file system, and volume group.
图14显示逻辑卷、它的物理卷、文件系统和卷组。
If the file system data structures happen to align perfectly with the underlying physical partition size, a read or write of a 4096-byte data structure results in a read or write of a single sector.
如果文件系统数据结构正好与底层物理分区大小一致,对4096字节数据结构的读写会产生对单一扇区的读写。
A little used and relatively new feature is the RAM disk, which allows for the use of physical RAM as the storage for a file system.
一个不常用并且较新的特性是RAM磁盘,它允许使用物理ram存储文件系统。
Or, you can add a CD-ROM file system to the WPAR, which enables you to use a CD-ROM attached to the physical server to install software on the WPAR.
或者,您可以将CD-ROM文件系统添加到WPAR,从而允许您使用附加到该物理服务器的 CD-ROM在 WPAR 中安装软件。
This initrd serves as a temporary root file system in RAM and allows the kernel to fully boot without having to mount any physical disks.
这个initrd 会作为RAM中的临时根文件系统使用,并允许内核在没有挂载任何物理磁盘的情况下完整地实现引导。
Though FileTable folders behave as any other Windows directory, the physical files are actually stored in SQL Server, not the file system.
尽管FileTable文件夹和所有其它Windows的目录行为一样,但是物理文件实际上是存储在SQLServer中,而不是文件系统中。
In the mount transcript in Listing 8, you can see the archivemount file system at the bottom and the typical physical devices mounted by a Linux machine at the top.
在清单8所示的mount脚本中,可以在底部看到archivemount文件系统,在顶部看到Linux挂装的典型物理设备。
In the mount transcript in Listing 8, you can see the archivemount file system at the bottom and the typical physical devices mounted by a Linux machine at the top.
在清单8所示的mount脚本中,可以在底部看到archivemount文件系统,在顶部看到Linux挂装的典型物理设备。
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