察看分区类型的列表按“l ”。
那将非常讨厌,所以要正确设置分区类型。
“l”将为您列出可用分区类型的完全列表。
"L" will show you the full list of partition types available.
无法决定磁盘上的磁盘分区类型。
Unable to determine the partition type of a partition on a disk.
无法读取这个卷记录的分区类型字段。
The partition type field for this volume record cannot be read.
改变分区类型,按“t ”。要删除一个分区?
To change the partition type, hit "t". Want to delete a partition?
VSE 支持许多分区类型,包括硬分区和软分区。
With VSE, there are many types of partitioning, including hard and soft partitioning.
在下一屏幕上,选择2:guest作为要创建的分区类型。
On the next screen, select 2: Guest as the type of partition to create.
根据不同的磁盘分区类型,分别有3个程序可供选用。
There are 3 programs you use to label a drive. The program used depends on the partition type.
如果使用fdisk,您可以使用t命令来将分区类型代码设置为8e。
Using fdisk, you should use the t command to set the partition's type code to 8e.
分区类型的处理方式有一些奇怪:一些分区类型称为flags。
Partition type codes are handled a bit strangely; some of them are referred to as flags.
另一点需要特别注意的是——当您创建分区时,将分区类型指定为“FD ”。
One other important note — when you create your partitions, give them the partition type "FD".
如果您将分区类型正确设置为“FD ”,您的raid卷就会在引导时自动启动。
If you set the partition type correctly to "FD", your RAID volume will be auto-started at boot time.
如果添加物理分区,它还包括设置正确的分区类型,以及运行pvcreate命令。
This involves setting the correct partition type if we're adding a physical partition, and running the pvcreate command.
为了为LVM准备此单元,创建一个包含整个磁盘的主lvm分区(分区类型8e)。
To prepare the unit for LVM, create a primary LVM partition (partition type 8e) spanning the whole disk.
这一次,不需要关心分区类型,因为Clonezilla将在映像恢复过程中重新创建它。
The partition type is not a concern at this time because it will be re-created by Clonezilla during the image restoration.
事实上,硬盘注释考虑大量参数比如磁盘类型和数目,分区类型,等等,RAID设备相比较就非常简单。
In fact, compared to hard disk notation, which takes into consideration a lot of parameters like disk type and number, partition type, etc, RAID devices are fairly simple.
在理论上,这使分区类型更不容易冲突,但在实践中,这种方法也出现了一些问题。本文将在稍后介绍这个问题。
In theory, this makes partition-type collisions less likely; however, in practice, this rose already has some thorns, as described shortly.
您可能已经注意到,Linux采用了少量MBR分区类型代码(比如0x82和0x83)来识别它的mbr分区。
As you're probably aware, Linux employs a handful of MBR partition type codes, such as 0x82 and 0x83, to identify its MBR partitions.
虽然文件系统很多种,但分区类型只有三种:主分区,扩展分区,逻辑分区,其中逻辑分区是在扩展分区中的。
While there are tons of file system types, there are only three kinds of partitions: primary, extended, and logical.
磁盘的第一个扇区专用于一个保护性MBR,它是一个法定 MBR数据结构,它定义一个单一分区类型0xEE (EFIGPT)。
The first sector of the disk is reserved for a protective MBR, which is a legal MBR data structure that defines a single partition of type 0xEE (EFI GPT).
默认情况下,每个处理单元使用三个线程,由于这个配置将复制到每个分区,该配置对许多类型的应用程序都比较理想。
By default, each processing unit USES three threads, and since this is replicated for each partition, it would likely be ideal for many types of applications.
您可以创建、删除和修改现有分区的类型。
You can create, delete, and modify the type for existing partitions.
将用户按类型分区。
支持用户表、临时表、常规表以及范围、哈希和多维簇类型的分区表。
Supports user, temporary, regular and partitioned tables of different types range, hash and multidimensional clusters.
您可以使用它来设置文件系统类型、挂载点、分区大小等等。
You can use it to set the file system types, mount points, partition sizes, and more.
支持临时表、常规表以及范围和列表类型的分区表。
Supports temporary, regular and partitioned tables of different types of range and list.
此部分将进一步定义不同类型的工作负载分区,并讨论应该使用WPAR的各个场景。
This section further defines the different types of workload partitions and discusses scenarios where WPARs should be used.
图1演示了不同类型的分区和基于管理程序的虚拟化解决方案之间的一些基本差异。
Figure 1 illustrates some of the fundamental differences between the different types of partitioning and hypervisor-based virtualization solutions.
源代码查看器处理过的文档可以划分为具有不同内容类型的多个分区。
Documents processed by source viewers can be segmented into several partitions of different content type.
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