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"What should I be aware of if I'm not on an LTS kernel?"
About Manjaro
Add a Storage Partition & Modify your System to Suit
Aliases in .bashrc
ALSA
Alternative way to install ManjaroISO
Amlogic TV boxes
Arch User Repository
Audio Players
Avidemux - Cutting out sections of video
Awesome Community Edition
Basic Submission Rules
Basic Tips for conky
BIOS and UEFI
Block Lists for Deluge & qBittorrent
Bmpanel2
Btrfs
Budgie
Build Manjaro ISOs with buildiso
Buildiso with AUR packages: Using buildpkg
Burn an ISO File
Change to a Different Download Server
CheatSheet
Check a Downloaded ISO Image For Errors
ClamAV
Configure Graphics Cards
Configure NVIDIA (non-free) settings and load them on Startup
Contributing
Create Manjaro Packages
Deepin
Desktop Environments and Window Managers
Developer Tools
Did X.server recognise your monitor correctly?
Display Managers / Login Screens
Displaymanager / Loginmanager
DMenu
Dolphin
Downgrading packages
Download Manjaro
Enable Touchpad Horizontal and Vertical Scrolling
Encfs
File Systems
Firejail
Firewalls
Firewalls and Security
Flatpak
Forum Rules
Fstab
Fstab - Use SystemD automount
GNOME
Graphical Software Managers
GRUB/Restore the GRUB Bootloader
How to mount Windows (NTFS) filesystem due to hibernation
How-to verify GPG key of official .ISO images
Important hidden .dot files in your home partition
Improve Font Rendering
Install Desktop Environments
Install Display Managers
Installation Guides
Installation with Manjaro Architect
Internet Browsers
KDE
Kernel Fails to Load (pata acpi error)
Keyboard and Mouse Sharing
Keyboard Shortcuts
Kvantum
Limit the size of .log files & the journal
Linux Security
List of Qt Applications
Locale
LXDM Configuration
LXQt
LXQt with kwin
Main Page
Make GRUB menu & boot-up/down fonts bigger
Makepkg
Manjaro
Manjaro FAQ
Manjaro Forums
Manjaro Hardware Detection
Manjaro Hardware Detection Overview
Manjaro IRC
Manjaro Kernels
Manjaro Mirrors
Manjaro Online
Manjaro Packaging Standards
Manjaro Polkit Rules
Manjaro Settings Manager
Manjaro-ARM
Manjaro-tools
Manjaro:A Different Kind of Beast
ManjaroISO
Mounting disk images
Mozilla Firefox
Mplayer
Networking
Octopi
Openbox
Pacman
Pacman Overview
Pacman troubleshooting
Pacman-mirrors
Page Translation
Pamac
Partitioning Overview and Existing Partition Tables
PCmanFM-Qt
PKGBUILD
Plymouth
Power Management
Preserve Manjaro Bootloader
Printing
Proper ~/.xinitrc File
Reactivating the Backlight
Repositories and Servers
Set all Java apps to use GTK+ font & theme settings
Set all Qt app's to use GTK+ font & theme settings
Setup Kmail & Davmail to connect to an Exchange server
Sharing files with Python
Snap
Software Applications
Some basics of MBR v/s GPT and BIOS v/s UEFI
Spotify
Swap
Switching Branches
Sync dynamic IP with openDNS service via ddclient
System Maintenance
Systemd-boot
TeamViewer
The Rolling Release Development Model
UEFI - Install Guide
Undervolt intel CPU
Using autofs (automount) with NFS
Using Compton for a tear-free experience in Xfce
Using Manjaro for Beginners
Using Manjaro for Windows users
Using Samba in your File Manager
Various screen tearing fixes
VCS PKGBUILD Guidelines
Viewing and editing configuration files
Virt-manager
VirtualBox
Vivaldi Browser
VMware
Wacom Tablet And Pen
Western Digital Green - Drive Fix - Linux
Wiki tweak page
Worker - An Introduction
Workflow states
Language
aa - Afar
ab - Abkhazian
abs - Ambonese Malay
ace - Achinese
ady - Adyghe
ady-cyrl - Adyghe (Cyrillic script)
aeb - Tunisian Arabic
aeb-arab - Tunisian Arabic (Arabic script)
aeb-latn - Tunisian Arabic (Latin script)
af - Afrikaans
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alt - Southern Altai
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ang - Old English
anp - Angika
ar - Arabic
arc - Aramaic
arn - Mapuche
arq - Algerian Arabic
ary - Moroccan Arabic
arz - Egyptian Arabic
as - Assamese
ase - American Sign Language
ast - Asturian
atj - Atikamekw
av - Avaric
avk - Kotava
awa - Awadhi
ay - Aymara
az - Azerbaijani
azb - South Azerbaijani
ba - Bashkir
ban - Balinese
ban-bali - ᬩᬲᬩᬮᬶ
bar - Bavarian
bbc - Batak Toba
bbc-latn - Batak Toba (Latin script)
bcc - Southern Balochi
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be - Belarusian
be-tarask - Belarusian (Taraškievica orthography)
bg - Bulgarian
bgn - Western Balochi
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ce - Chechen
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el - Greek
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et - Estonian
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fy - Western Frisian
ga - Irish
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gan - Gan Chinese
gan-hans - Gan (Simplified)
gan-hant - Gan (Traditional)
gcr - Guianan Creole
gd - Scottish Gaelic
gl - Galician
glk - Gilaki
gn - Guarani
gom - Goan Konkani
gom-deva - Goan Konkani (Devanagari script)
gom-latn - Goan Konkani (Latin script)
gor - Gorontalo
got - Gothic
grc - Ancient Greek
gsw - Swiss German
gu - Gujarati
guc - Wayuu
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ha - Hausa
hak - Hakka Chinese
haw - Hawaiian
he - Hebrew
hi - Hindi
hif - Fiji Hindi
hif-latn - Fiji Hindi (Latin script)
hil - Hiligaynon
ho - Hiri Motu
hr - Croatian
hrx - Hunsrik
hsb - Upper Sorbian
ht - Haitian Creole
hu - Hungarian
hu-formal - magyar (formal)
hy - Armenian
hyw - Western Armenian
hz - Herero
ia - Interlingua
id - Indonesian
ie - Interlingue
ig - Igbo
ii - Sichuan Yi
ik - Inupiaq
ike-cans - Eastern Canadian (Aboriginal syllabics)
ike-latn - Eastern Canadian (Latin script)
ilo - Iloko
inh - Ingush
io - Ido
is - Icelandic
it - Italian
iu - Inuktitut
ja - Japanese
jam - Jamaican Creole English
jbo - Lojban
jut - Jutish
jv - Javanese
ka - Georgian
kaa - Kara-Kalpak
kab - Kabyle
kbd - Kabardian
kbd-cyrl - Kabardian (Cyrillic script)
kbp - Kabiye
kcg - Tyap
kg - Kongo
khw - Khowar
ki - Kikuyu
kiu - Kirmanjki
kj - Kuanyama
kjp - Eastern Pwo
kk - Kazakh
kk-arab - Kazakh (Arabic script)
kk-cn - Kazakh (China)
kk-cyrl - Kazakh (Cyrillic script)
kk-kz - Kazakh (Kazakhstan)
kk-latn - Kazakh (Latin script)
kk-tr - Kazakh (Turkey)
kl - Kalaallisut
km - Khmer
kn - Kannada
ko - Korean
ko-kp - Korean (North Korea)
koi - Komi-Permyak
kr - Kanuri
krc - Karachay-Balkar
kri - Krio
krj - Kinaray-a
krl - Karelian
ks - Kashmiri
ks-arab - Kashmiri (Arabic script)
ks-deva - Kashmiri (Devanagari script)
ksh - Colognian
ku - Kurdish
ku-arab - Kurdish (Arabic script)
ku-latn - Kurdish (Latin script)
kum - Kumyk
kv - Komi
kw - Cornish
ky - Kyrgyz
la - Latin
lad - Ladino
lb - Luxembourgish
lbe - Lak
lez - Lezghian
lfn - Lingua Franca Nova
lg - Ganda
li - Limburgish
lij - Ligurian
liv - Livonian
lki - Laki
lld - Ladin
lmo - Lombard
ln - Lingala
lo - Lao
loz - Lozi
lrc - Northern Luri
lt - Lithuanian
ltg - Latgalian
lus - Mizo
luz - Southern Luri
lv - Latvian
lzh - Literary Chinese
lzz - Laz
mad - Madurese
mai - Maithili
map-bms - Basa Banyumasan
mdf - Moksha
mg - Malagasy
mh - Marshallese
mhr - Eastern Mari
mi - Maori
min - Minangkabau
mk - Macedonian
ml - Malayalam
mn - Mongolian
mni - Manipuri
mnw - Mon
mo - Moldovan
mr - Marathi
mrh - Mara
mrj - Western Mari
ms - Malay
mt - Maltese
mus - Muscogee
mwl - Mirandese
my - Burmese
myv - Erzya
mzn - Mazanderani
na - Nauru
nah - Nāhuatl
nan - Min Nan Chinese
nap - Neapolitan
nb - Norwegian Bokmål
nds - Low German
nds-nl - Low Saxon
ne - Nepali
new - Newari
ng - Ndonga
nia - Nias
niu - Niuean
nl - Dutch
nl-informal - Nederlands (informeel)
nn - Norwegian Nynorsk
no - Norwegian
nov - Novial
nqo - N’Ko
nrm - Norman
nso - Northern Sotho
nv - Navajo
ny - Nyanja
nys - Nyungar
oc - Occitan
olo - Livvi-Karelian
om - Oromo
or - Odia
os - Ossetic
pa - Punjabi
pag - Pangasinan
pam - Pampanga
pap - Papiamento
pcd - Picard
pdc - Pennsylvania German
pdt - Plautdietsch
pfl - Palatine German
pi - Pali
pih - Norfuk / Pitkern
pl - Polish
pms - Piedmontese
pnb - Western Punjabi
pnt - Pontic
prg - Prussian
ps - Pashto
pt - Portuguese
pt-br - Brazilian Portuguese
qu - Quechua
qug - Chimborazo Highland Quichua
rgn - Romagnol
rif - Riffian
rm - Romansh
rmy - Vlax Romani
rn - Rundi
ro - Romanian
roa-tara - Tarantino
ru - Russian
rue - Rusyn
rup - Aromanian
ruq - Megleno-Romanian
ruq-cyrl - Megleno-Romanian (Cyrillic script)
ruq-latn - Megleno-Romanian (Latin script)
rw - Kinyarwanda
sa - Sanskrit
sah - Sakha
sat - Santali
sc - Sardinian
scn - Sicilian
sco - Scots
sd - Sindhi
sdc - Sassarese Sardinian
sdh - Southern Kurdish
se - Northern Sami
sei - Seri
ses - Koyraboro Senni
sg - Sango
sgs - Samogitian
sh - Serbo-Croatian
shi - Tachelhit
shi-latn - Tachelhit (Latin script)
shi-tfng - Tachelhit (Tifinagh script)
shn - Shan
shy - Shawiya
shy-latn - Shawiya (Latin script)
si - Sinhala
simple - Simple English
sk - Slovak
skr - Saraiki
skr-arab - Saraiki (Arabic script)
sl - Slovenian
sli - Lower Silesian
sm - Samoan
sma - Southern Sami
smn - Inari Sami
sn - Shona
so - Somali
sq - Albanian
sr - Serbian
sr-ec - Serbian (Cyrillic script)
sr-el - Serbian (Latin script)
srn - Sranan Tongo
ss - Swati
st - Southern Sotho
stq - Saterland Frisian
sty - себертатар
su - Sundanese
sv - Swedish
sw - Swahili
szl - Silesian
szy - Sakizaya
ta - Tamil
tay - Tayal
tcy - Tulu
te - Telugu
tet - Tetum
tg - Tajik
tg-cyrl - Tajik (Cyrillic script)
tg-latn - Tajik (Latin script)
th - Thai
ti - Tigrinya
tk - Turkmen
tl - Tagalog
tly - Talysh
tly-cyrl - толыши
tn - Tswana
to - Tongan
tpi - Tok Pisin
tr - Turkish
tru - Turoyo
trv - Taroko
ts - Tsonga
tt - Tatar
tt-cyrl - Tatar (Cyrillic script)
tt-latn - Tatar (Latin script)
tum - Tumbuka
tw - Twi
ty - Tahitian
tyv - Tuvinian
tzm - Central Atlas Tamazight
udm - Udmurt
ug - Uyghur
ug-arab - Uyghur (Arabic script)
ug-latn - Uyghur (Latin script)
uk - Ukrainian
ur - Urdu
uz - Uzbek
uz-cyrl - Uzbek (Cyrillic script)
uz-latn - Uzbek (Latin script)
ve - Venda
vec - Venetian
vep - Veps
vi - Vietnamese
vls - West Flemish
vmf - Main-Franconian
vo - Volapük
vot - Votic
vro - Võro
wa - Walloon
war - Waray
wo - Wolof
wuu - Wu Chinese
xal - Kalmyk
xh - Xhosa
xmf - Mingrelian
xsy - Saisiyat
yi - Yiddish
yo - Yoruba
yue - Cantonese
za - Zhuang
zea - Zeelandic
zgh - Standard Moroccan Tamazight
zh - Chinese
zh-cn - Chinese (China)
zh-hans - Simplified Chinese
zh-hant - Traditional Chinese
zh-hk - Chinese (Hong Kong)
zh-mo - Chinese (Macau)
zh-my - Chinese (Malaysia)
zh-sg - Chinese (Singapore)
zh-tw - Chinese (Taiwan)
zu - Zulu
qqq - Message documentation
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<languages/> __TOC__ == MBR == A master boot record (MBR) is a special type of boot sector at the very beginning of partitioned computer mass storage devices like fixed disks or removable drives intended for use with IBM PC-compatible systems and beyond. The concept of MBRs was publicly introduced in 1983 with PC DOS 2.0. The MBR holds the information on how the logical partitions, containing file systems, are organized on that medium. Besides that, the MBR also contains executable code to function as a loader for the installed operating system—usually by passing control over to the loader's second stage, or in conjunction with each partition's volume boot record (VBR). This MBR code is usually referred to as a boot loader. The organization of the partition table in the MBR limits the maximum addressable storage space of a disk to 2 TB (232 × 512 bytes). Therefore, the MBR-based partitioning scheme is in the process of being superseded by the GUID Partition Table (GPT) scheme in new computers. A GPT can coexist with an MBR in order to provide some limited form of a backwards compatibility for older systems. [http://en.wikipedia.org/wiki/Master_boot_record] == GPT == GUID Partition Table (GPT) is a standard for the layout of the partition table on a physical hard disk, using globally unique identifiers (GUID). Although it forms a part of the Unified Extensible Firmware Interface (UEFI) standard (Unified EFI Forum proposed replacement for the PC BIOS), it is also used on some BIOS systems because of the limitations of master boot record (MBR) partition tables, which use 32 bits for storing logical block addresses (LBA) and size information. MBR-based partition table schemes insert the partitioning information for (usually) four "primary" partitions in the master boot record (MBR) (which on a BIOS system is also the container for code that begins the process of booting the system). In a GPT, the first sector of the disk is reserved for a "protective MBR" such that booting a BIOS-based computer from a GPT disk is supported, but the boot loader and O/S must both be GPT-aware. Regardless of the sector size, the GPT header begins on the second logical block of the device. [http://en.wikipedia.org/wiki/GUID_Partition_Table] GPT uses modern logical block addressing (LBA) in place of the cylinder-head-sector (CHS) addressing used with MBR. Legacy MBR information is contained in LBA 0, the GPT header is in LBA 1, and the partition table itself follows. In 64-bit Windows operating systems, 16,384 bytes, or 32 sectors, are reserved for the GPT, leaving LBA 34 as the first usable sector on the disk. [http://www.diskinternals.com/glossary/guid_partition_table.html] == MBR vs. GPT == Compared with MBR disk, A GPT disk can support larger than 2 TB volumes where MBR cannot. A GPT disk can be basic or dynamic, just like an MBR disk can be basic or dynamic. GPT disks also support up to 128 partitions rather than the 4 primary partitions limited to MBR. Also, GPT keeps a backup of the partition table at the end of the disk. Furthermore, GPT disk provides greater reliability due to replication and cyclical redundancy check (CRC) protection of the partition table. [http://www.partition-tool.com/resource/GPT-disk-partition-manager/partition-gpt-disk.htm] The GUID partition table (GPT) disk partitioning style supports volumes up to 18 exabytes in size and up to 128 partitions per disk, compared to the master boot record (MBR) disk partitioning style, which supports volumes up to 2 terabytes in size and up to 4 primary partitions per disk (or three primary partitions, one extended partition, and unlimited logical drives). Unlike MBR partitioned disks, data critical to platform operation is located in partitions instead of unpartitioned or hidden sectors. In addition, GPT partitioned disks have redundant primary and backup partition tables for improved partition data structure integrity. [http://www.diskinternals.com/glossary/guid_partition_table.html] == BIOS == In IBM PC compatible computers, the Basic Input/Output System (BIOS), also known as System BIOS, ROM BIOS or PC BIOS, is a de facto standard defining a firmware interface. The name originated from the Basic Input/Output System used in the CP/M operating system in 1975. The BIOS software is built into the PC, and is the first software run by a PC when powered on. The fundamental purposes of the BIOS are to initialize and test the system hardware components, and to load a bootloader or an operating system from a mass memory device. The BIOS additionally provides abstraction layer for the hardware, i.e. a consistent way for application programs and operating systems to interact with the keyboard, display, and other input/output devices. Variations in the system hardware are hidden by the BIOS from programs that use BIOS services instead of directly accessing the hardware. Modern operating systems ignore the abstraction layer provided by the BIOS and access the hardware components directly. [https://en.wikipedia.org/wiki/BIOS] == UEFI == The Unified Extensible Firmware Interface (UEFI) (pronounced as an initialism U-E-F-I or like "unify" without the n) is a specification that defines a software interface between an operating system and platform firmware. UEFI is meant to replace the Basic Input/Output System (BIOS) firmware interface, present in all IBM PC-compatible personal computers. In practice, most UEFI images provide legacy support for BIOS services. UEFI can support remote diagnostics and repair of computers, even without another operating system. The original EFI (Extensible Firmware Interface) specification was developed by Intel. Some of its practices and data formats mirror ones from Windows.] In 2005, UEFI deprecated EFI 1.10 (final release of EFI). The UEFI specification is managed by the Unified EFI Forum. == BIOS vs. UEFI == UEFI enables better use of bigger hard drives. Though UEFI supports the traditional master boot record (MBR) method of hard drive partitioning, it doesn't stop there. It's also capable of working with the GUID Partition Table (GPT), which is free of the limitations the MBR places on the number and size of partitions. GPT ups the maximum partition size from 2.19TB to 9.4 zettabytes. UEFI may be faster than the BIOS. Various tweaks and optimizations in the UEFI may help your system boot more quickly it could before. For example: With UEFI you may not have to endure messages asking you to set up hardware functions (such as a RAID controller) unless your immediate input is required; and UEFI can choose to initialize only certain components. The degree to which a boot is sped up will depend on your system configuration and hardware, so you may see a significant or a minor speed increase. Technical changes abound in UEFI. UEFI has room for more useful and usable features than could ever be crammed into the BIOS. Among these are cryptography, network authentication, support for extensions stored on non-volatile media, an integrated boot manager, and even a shell environment for running other EFI applications such as diagnostic utilities or flash updates. In addition, both the architecture and the drivers are CPU-independent, which opens the door to a wider variety of processors (including those using the ARM architecture, for example). However, UEFI is still not widespread. Though major hardware companies have switched over almost exclusively to UEFI use, you still won't find the new firmware in use on all motherboards—or in quite the same way across the spectrum. Many older and less expensive motherboards also still use the BIOS system. [http://www.pcmag.com/article2/0,2817,2392944,00.asp] == MBR vs. GPT and BIOS vs. UEFI == Usually, MBR and BIOS (MBR + BIOS), and GPT and UEFI (GPT + UEFI) go hand in hand. This is compulsory for some systems (eg Windows), while optional for others (eg Linux). http://en.wikipedia.org/wiki/GUID_Partition_Table#Operating_systems_support http://en.wikipedia.org/wiki/Unified_Extensible_Firmware_Interface#DISKDEVCOMPAT === Converting from MBR to GPT === From http://www.rodsbooks.com/gdisk/mbr2gpt.html One of the more unusual features of gdisk is its ability to read an MBR partition table or BSD disklabel and convert it to GPT format without damaging the contents of the partitions on the disk. This feature exists to enable upgrading to GPT in case the limitations of MBRs or BSD disklabels become too onerous—for instance, if you want to add more OSes to a multi-boot configuration, but the OSes you want to add require too many primary partitions to fit on an MBR disk. Conversions from MBR to GPT works because of inefficiencies in the MBR partitioning scheme. On an MBR disk, the bulk of the first cylinder of the disk goes unused—only the first sector (which holds the MBR itself) is used. Depending on the disk's CHS geometry, this first cylinder is likely to be sufficient space to store the GPT header and partition table. Likewise, space is likely to go unused at the end of the disk because the cylinder (as seen by the BIOS and whatever tool originally partitioned the disk) will be incomplete, so the last few sectors will go unused. This leaves space for the backup GPT header and partition table. (Disks partitioned with 1 MiB alignment sometimes leave no gaps at the end of the disk, which can prevent conversion to GPT format—at least, unless you delete or resize the final partition.) The task of converting MBR to GPT therefore becomes one of extracting the MBR data and stuffing the data into the appropriate GPT locations. Partition start and end points are straightforward to manage, with one important caveat: GPT fdisk ignores the CHS values and uses the LBA values exclusively. This means that the conversion will fail on disks that were partitioned with very old software. If the disk is over 8 GiB in size, though, GPT fdisk should find the data it needs. Once the conversion is complete, there will be a series of gaps between partitions. Gaps at the start and end of the partition set will be related to the inefficiencies mentioned earlier that permit the conversion to work. Additional gaps before each partition that used to be a logical partition exist because of inefficiencies in the way logical partitions are allocated. These gaps are likely to be quite small (a few kilobytes), so you're unlikely to be able to put useful partitions in those spaces. You could resize your partitions with GNU Parted to remove the gaps, but the risks of such an operation outweigh the very small benefits of recovering a few kilobytes of disk space. === Switching from BIOS to UEFI === See: [[UEFI_-_Install_Guide#Switching_from_BIOS_to_UEFI]] === Note === '''Switching from [MBR + BIOS] to [GPT + UEFI]''' Switching from BIOS to UEFI consists of 2 parts- i. Conversion of disk from MBR to GPT. Side effects- Possible Data Loss, other OS installed on same disk may or may not boot (eg Windows).. ii. Changing from BIOS to UEFI (and installing GRUB in UEFI mode). Side Effects- Other OS (can be both Linux and Windows) may or may not boot, with systemd you need to comment out the swap partition in /etc/fstab on a GPT partition table (if you use a swap partition). After converting from MBR to GPT, probably your installed Manjaro wont work, so you would need to prepare beforehand what to do in such a case. (eg, chroot using a live disk and installing GRUB in UEFI way) And Windows 8 if installed in MBR way, would need to be repaired/reinstalled in accordance to UEFI way. == Feedback == Questions, suggestions, critics? Please post here: [http://forum.manjaro.org/index.php?topic=11427.0] == See Also == * '''[[UEFI_-_Install_Guide]]''' [[Category:Contents Page{{#translation:}}]]
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