Comparison: MBR or GPT
If you want to
integrate a new hard drive into an existing system, or reinstall your operating
system, the first step is to format the hard drive. This allows the storage
medium to acquire, store and process data as required – among other things
thanks to compatible file systems such as NTFS or FAT. A basic part of the
formatting process is partitioning, i.e. dividing the available memory into
several independent areas – the partitions (or “drives”).
Note: If you are changing the partitions of
a removable storage device that has already been set-up, it isn’t necessary to
reformat the whole device. You only need to format the storage areas that you
modify!
To split up a disk into multiple partitions, you have to use
a special table known as a partition table. Choosing a suitable table basically
comes down to one question: MBR or GPT? It doesn’t matter whether you’re using
Linux, Windows or Mac. For all operating systems, these two tables are the only
two solutions for partitioning. But what’s the difference between them? And
which one is best – MBR or GPT?
Advantages: MBR or GPT partitions
Splitting up hard drive space on well-known operating systems
like Windows is something of a tradition, but it is not actually necessary. Any
storage medium can be used without dividing up the memory, providing that it
has been formatted with a file system that is supported by the operating system
in question. So why is partitioning so popular when it comes to hard drive
management? The answer lies primarily in its advantages, which can be
summarized as follows:
The
operating system and system-related services such as a boot loader can be
stored in the fastest part of a hard drive (usually the outside of the disk),
in order to ensure maximum read and write speeds.
Data
that is not modified very often can be put in a separate partition as an easy
way of excluding it from regular defragmentation.
In
general, system and application programs can be easily separated using
partitions, which makes it much easier to do system backups or individual data
backups.
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History: MBR vs GPT
Along with the IBM Personal Computer XT and PC DOS 2.0, 1983 saw the introduction of the Master Boot Record (MBR).
Since then, the system component has been used on the one hand as a boot
manager to boot (and install) BIOS-based computer systems, and on the other
hand as a partition table to efficiently split up the available memory. This
second function is what helped MBR quickly become the standard for all kinds of
storage devices, for example hard drives, USB sticks and memory cards. More
recent systems now increasingly use MBR’s official successor, the GUID
Partition Table (GPT). This new partition table standard is a component of the
UEFI specification which was introduced in 2000 and has steadily been gaining popularity as an
alternative to BIOS.
Note: Although GPT is part of the UEFI
standard, GUID partition tables can also be used for partitioning on BIOS
machines. However, depending on the operating system, there are some limitations.
For instance, Windows versions with BIOS cannot boot from a disk that has been
partitioned using GPT.
Why was a new partition created: GPT or MBR
The MBR partition style shaped computer technology for many
years, but it nonetheless has some significant limitations which meant it was
only a matter of time before a successor came along.
For example, right from the beginning, one of the key
weaknesses of the Master Boot Record was that the technology only supports four
primary partitions. Anyone wanting to set up more than four areas has to use
“extended partitions”, and although these can be split up into as many “logical
partitions” as desired, the resulting memory structure is complex, and hardware
faults can quickly lead to data loss.
Another even more obvious problem with the traditional
partitioning concept is that MBR partitions can only be used on hard drives or
storage devices up to 2 terabytes (2,000 gigabytes). It’s true that for many decades that was
more than enough, but nowadays it is too small even for standard drives used by
private users. Alongside the increased security, the greater storage capacity
has also been a key factor in the development of GPT as a successor for MBR.
Side-by-side Comparison: MBR vs GPT
When developing the GUID partition table, one of the aims was
to address the abovementioned weaknesses of the Master Boot Record. The result
was a partition standard that has clear advantages in terms of security and
performance. The following table summarizes the key differences between MBR and
GPT:
|
Features |
MBR – Master Boot Record |
GPT – GUID partition Table |
|
Specification |
None |
UEFI |
|
Maximum number of primary partitions |
4 |
Unlimited (dependent on operating system; Windows: 128) |
|
Maximum partition size |
2 terabytes (2,000 gigabytes) |
18 exabytes (18 billion gigabytes) |
|
Maximum hard drive size |
2 terabytes (2,000 gigabytes) |
18 exabytes (18 billion gigabytes) |
|
Security |
Data sector without checksum |
Data sector with CRC32 checksum and backup GUID partition table |
|
Partition name |
Stored in the partition |
Unique GUID ID plus a 36-character name |
|
Multiboot support |
Poor |
Good (thanks to boot loader entries in separate partition) |
Which partition style is the best: MBR vs GPT
If you want to set up partitions on a storage device, both
MBR and GPT will usually still be offered as options. However, in principle
GUID partition tables have become the standard solution for modern hardware
because they support an unlimited number of partitions and have no restrictions
as regards the size of the storage device or the partitions (or at least none
that will become relevant in the near future). Moreover, for disks with more
than 2 terabytes of memory, GPT is the only solution. The use of the old
MBR partition style is therefore now only recommended for older hardware and
older versions of Windows and other older (or newer) 32-bit operating systems.
Converting from MBR to GPT
If you are using disks partitioned using the Master Boot
Record this isn’t a problem, but it is worth remembering that there is a higher
risk of data loss in the event of a hardware fault. Considering this, providing
your system offers the necessary support for GUID partition tables (i.e. a
modern 64-bit system; for Microsoft this means Windows 7 or higher), we
recommend that you convert your existing MBR partitions to GPT partitions.
There are special tools for doing this, although many systems have a built-in
conversion solution.
In Windows for example, you can convert partitions using the
“Disk Management” tool. The steps are as follows:
1. Open the control panel and click on “Administrative Tools”.
2. Find the icon for the “Computer Management” service and
double-click on it.
3. In the menu pane on the left, select “Disk Management”
(listed in the “Storage” section).
4. Windows will now show you a list of the disks set up on your
device, including any partitions that have been configured. Right-click on the
relevant storage device and select “Convert to GPT disk”.
If GPT conversion is not possible (e.g. because the partition
style is already active), the conversion option will automatically be grayed
out in the Windows menu.
Users of Linux operating systems such as Ubuntu can convert partitions via the terminal, using the gdisk program.
Cheers!!!
Edited by AdeDanCompTech
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