Difference between pages "Subarches" and "Install/Stage3"

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{{:Install/Header}}
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<noinclude>
= Funtoo Linux Sub-Architectures =
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{{InstallPart|the process of installing the Stage3 tarball}}
__NOTITLE__
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</noinclude>
This page provides an overview of Funtoo Linux sub-architectures (also called ''subarches'',) designed for quick and easy reference. While this information is available in other places, such as Wikipedia, it often takes some time to study and cross-reference the various articles to get a good understanding of each type of sub-architecture, and this information generally isn't all collected neatly in one place. That is the purpose of this page. When possible, links to more detailed Wikipedia pages are provided. You are encouraged to help maintain this page as well as the Wikipedia articles referenced here.
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=== Installing the Stage 3 tarball ===
  
== 64-bit Suport (Generic) ==
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After creating filesystems, the next step is downloading the initial Stage 3 tarball. The Stage 3 is a pre-compiled system used as a starting point to install Funtoo Linux. Load one of the following URLs in another browser window:
  
=== generic_64 ===
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{{MirrorList}}
  
The '''generic_64''' subarch is designed to support 64-bit PC-compatible CPUs, such as the [[Wikipedia:AMD_K8|AMD K8-series processors]], which were introduced in late 2003. They were notable as the first processors that supported the [[Wikipedia:X86-64|AMD64 (also called X86-64) 64-bit instruction set]] for PC-compatible systems, which was introduced as a backwards-compatible 64-bit alternative to Intel's IA-64 architecture. Intel followed suit and also began supporting this 64-bit instruction set, which they called "[[Wikipedia:X86-64#Intel_64|Intel 64]]", by releasing X86-64 64-bit compatible CPUs from mid-2004 onwards (See [[Wikipedia:X86-64#Intel_64_implementations|Intel 64 implementations]].)
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Now, let's navigate the directories on the mirrors to find the appropriate build of Funtoo Linux for you.
  
AMD desktop 64-bit CPUs include the Athlon 64, Athlon 64 FX, Athlon 64 X2, Athlon X2, Turion 64, Turion 64 X2 and Sempron series processors. AMD server processors were released under the Opteron brand and have codenames SledgeHammer, Venus, Troy, Athens, Denmark, Italy, Egypt, Santa Ana and Santa Rosa. All Opterons released through late 2006 were based on the K8 microarchitecture with original X86-64 instructions.
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==== Which Build? ====
  
== 64-bit AMD Processors ==
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'''If you're not sure, pick <code>funtoo-current</code>.'''
  
=== amd64-k10 ===
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Funtoo Linux has various different 'builds', or variants. Here is a list of the various builds that are available, and what their distinctive features are:
  
The '''amd64-k10''' subarch provides support for the [[Wikipedia:AMD_10h|AMD Family 10h processors]], which were released in late 2007 as a successor to the AMD K8 series processors.
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{{TableStart}}
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<tr><th class="info">Build</th><th class="info">Description</th></tr>
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<tr><td><code>funtoo-current</code></td><td>The most commonly-selected build of Funtoo Linux. Receives rapid updates and preferred by desktop users.</td></tr>
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<tr><td><code>funtoo-current-hardened</code></td><td>Same package set as <code>funtoo-current</code>, but with a hardened, exploit-resistant toolchain.</td></tr>
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<tr><td><code>funtoo-stable</code></td><td>Emphasizes less-frequent package updates and trusted, reliable versions of packages over the latest versions.</td></tr>
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{{TableEnd}}
  
Desktop amd64-k10 CPUs include [[Wikipedia:AMD Phenom|AMD Phenom]], [[Wikipedia:AMD_10h#Phenom_II_Models|AMD Phenom II]] and [[Wikipedia:AMD_10h#Athlon_II_Models|AMD Athlon II]]. Server CPUs include Opterons with codenames Budapest, Barcelona, Suzuka, Shanghai, Istanbul, Lisbon, and Magny-Cours. A full listing of amd64-k10 Opteron models [[Wikipedia:List_of_AMD_Opteron_microprocessors#K10_based_Opterons|can be found here]].
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If you want to read more about this, have a look at [[Funtoo_Linux#What_are_the_differences_between_.27stable.27.2C_.27current.27_and_.27experimental.27_.3F|Differences between stable, current and experimental]].
  
=== amd64-bulldozer ===
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==== What Architecture?  ====
  
The '''amd64-bulldozer''' subarch supports the [[Wikipedia:Bulldozer (microarchitecture)|AMD bulldozer microarchitecture]] CPUs, which were released from late 2011 through the first quarter of 2012 as a replacement for the [[Wikipedia:AMD_10h|K10 microarchitecture]] CPUs.
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'''If you're not sure, pick <code>x86-64bit</code>, or possibly <code>pure64</code> for server systems.'''
Bulldozer desktop CPUs use the [[Wikipedia:Socket_AM3+|AM3+ socket]] and server CPUs use the  [[Wikipedia:Socket_G34|G34 socket]].
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Desktop bulldozer CPUs include the [[Wikipedia:List_of_AMD_FX_microprocessors#.22Zambezi.22_.2832_nm_SOI.29|Zambezi FX-series CPUs]]. Server bulldozer CPUs include Opterons with codenames Zurich (Opteron 3200-series), Valencia (Opteron 4200-series) and Interlagos (Opteron 6200 series). A complete list of Opteron models [[Wikipedia:http://en.wikipedia.org/wiki/Opteron#Opteron_.2832_nm_SOI.29-_First_Generation_Bulldozer_Microarchitecture|can be found here.]].
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For PC-compatible systems, the following choices are available:
  
=== amd64-piledriver ===
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{{TableStart}}
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<tr><th class="info">Architecture</th><th class="info">Description</th></tr>
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<tr><td><code>x86-64bit</code></td><td>For modern 64-bit processors. Uses new 64-bit instructions and address space. Maintains 32-bit compatibility with multilib.</td></tr>
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<tr><td><code>pure64</code></td><td>For modern 64-bit processors but with no support for 32-bit compatibility.</td></tr>
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<tr><td><code>x86-32bit</code></td><td>For older 32-bit systems such as Athlon XP, Pentium 4, or earlier Atom.</td></tr>
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{{TableEnd}}
  
The '''amd64-piledriver''' subarch supports the [[Wikipedia:Piledriver (microarchitecture)|AMD Piledriver microarchitecture]] produced by AMD from mid-2012 through 2015, which is the successor to the [[Wikipedia:Bulldozer (microarchitecture)|AMD bulldozer microarchitecture]].
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==== Your SubArch ====
Piledriver CPUs and APUs are available that use the [[Wikipedia:FM2 Socket|FM2 socket]]. Desktop Piledriver CPUs use the [[Wikipedia:Socket_AM3+|AM3+ socket]]. Server Piledriver CPUs use a variety of sockets, including [[Wikipedia:Socket_AM3+|AM3+]], [[Wikipedia:Socket_C32|C32]] and [[Wikipedia:Socket_G34|G34]].
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Desktop piledriver CPU and APUs include FX-series with codename Vishera (FX-8350, FX-8370),  [[Wikipedia:List_of_AMD_accelerated_processing_unit_microprocessors#Virgo:_.22Trinity.22_.282012.2C_32_nm.29|A-series with codename Trinity]] (A6-5400K, A10-5800K) and [[Wikipedia:http://en.wikipedia.org/wiki/List_of_AMD_accelerated_processing_unit_microprocessors#.22Richland.22_.282013.2C_32_nm.29_2|A-series with codename Richland]].  
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Inside <code>/funtoo-current/x86-64bit/</code> on one of our mirrors, you'll see a bunch of directories for various ''subarches'' of Funtoo Linux. Subarches are builds of Funtoo Linux that are designed to run on a particular type of CPU, to offer the best possible performance. They also take advantage of the instruction sets available for each CPU.  
  
Server piledriver CPUs include Opterons with codenames Delhi (Opteron 3300-series, [[Wikipedia:Socket_AM3+|AM3+]]), Seoul (Opteron 4300-series, [[Wikipedia:Socket_C32|C32]])  and Abu Dhabi (Opteron 6300-series, [[Wikipedia:Socket_G34|G34]]). A full listing of Opteron models [[Wikipedia:Opteron#Opteron_.2832_nm_SOI.29_-_Piledriver_Microarchitecture|is available here]].
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If you are using an AMD-based CPU, download a stage3 from <code>generic_64</code>, <code>amd64-k8</code>, <code>amd64-k10</code>, <code>amd64-bulldozer</code>, <code>amd64-piledriver</code>, <code>amd64-steamroller</code> or <code>amd64-jaguar</code>.  See [[Subarches]] for help figuring out what AMD subarch is best for you.
  
Piledriver adds several new instructions over bulldozer, so AMD bulldozer systems cannot run amd64-piledriver-optimized stages. However, this subarch is instruction-compatible with its successor, the, so amd64-piledriver stages can run on amd64-steamroller systems, and vice versa.
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If you are using an Intel-based CPU, download a stage3 from <code>generic_64</code>, <code>atom_64</code>, <code>core2_64</code> or <code>corei7</code>. Note that <code>corei7</code> is ideal for any modern Intel processor, including Core i3 and Core i5, and many Xeons.
  
=== amd64-steamroller ===
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If you are using a 32-bit CPU, download a stage3 from <code>generic_32</code>, <code>i686</code>, <code>core2_32</code>, <code>atom_32</code> or <code>athlon-xp</code>.
  
The '''amd64-steamroller''' subarch supports the [[Wikipedia:Steamroller (microarchitecture)|AMD steamroller microarchitecture]], produced from early 2014. It is the successor to the [[Wikipedia:Piledriver (microarchitecture)|AMD Piledriver microarchitecture]].
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==== Setting the Date ====
Steamroller APUs are available that use the [[Wikipedia:FM2+ Socket|FM2+ socket]] and  [[Wikipedia:Socket_FP3|FP3 socket]] (mobile.)
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Desktop steamroller APUs include the [[Wikipedia:AMD_Accelerated_Processing_Unit#Steamroller_architecture_.282014.29:_Kaveri|A-Series with codename Kaveri]], such as the quad-core AMD A10-7850K APU. Steamroller APUs are also available in mobile versions. Server steamroller APUs will include the codename Berlin APUs, which are expected to be released some time in 2015.
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{{fancyimportant|If your system's date and time are too far off (typically by months or years,) then it may prevent Portage from properly downloading source tarballs. This is because some of our sources are downloaded via HTTPS, which use SSL certificates and are marked with an activation and expiration date. However, if you system time is relatively close to correct, you can probably skip this step for now.}}
  
Amd64-steamroller subarches are instruction-compatible with amd64-piledriver, but add new instructions over amd64-bulldozer.
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Now is a good time to verify the date and time are correctly set to UTC. Use the <code>date</code> command to verify the date and time:
  
=== amd64-jaguar ===
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<console>
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# ##i##date
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Fri Jul 15 19:47:18 UTC 2011
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</console>
  
The '''amd64-jaguar''' (also called AMD Family 16h) subarch supports the [[Wikipedia:Jaguar (microarchitecture)|AMD jaguar microarchitecture]], which is targeted at low-power devices, including notebooks, tablets and small form-factor desktops and servers. It is perhaps most well-known for being the microarchitecture used for the [[Wikipedia:Playstation 4|Playstation 4]] and [[Wikipedia:Xbox One|Xbox One]], which each use custom 8-core Jaguar APUs.
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If the date and/or time need to be corrected, do so using <code>date MMDDhhmmYYYY</code>, keeping in mind <code>hhmm</code> are in 24-hour format. The example below changes the date and time to "July 16th, 2011 @ 8:00PM" UTC:
Socketed Jaguar APUs use the [[Wikipedia:AM1 Socket|AM1 socket]], and  [[Wikipedia:Socket_FT3|FT3 socket]] for mobile devices. G-series [[Wikipedia:System_on_a_chip|"system on a chip" (SoC)]] APUs are available for non-socketed devices such as tablets and embedded system boards.
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Desktop Jaguar APUs include the [[Wikipedia:List_of_AMD_accelerated_processing_unit_microprocessors#.22Kabini.22.2C_.22Temash.22_.282013.2C_28_nm.29|Kabini A-series APUs and Temash E-series APUs]], such as the Athlon 5150 and 5350 APUs, and Sempron 2650 and 3850.
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<console>
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# ##i##date 071620002011
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Fri Jul 16 20:00:00 UTC 2011
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</console>
  
Amd64-jaguar subarches use the MOVBE instruction which is not available on amd64-bulldozer, amd64-piledriver or amd64-steamroller. They are thus not instruction-compatible with any of these subarches.
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==== Download the Stage3 ====
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Once you are in your Funtoo Linux root filesystem, use <code>wget</code> to download the Stage 3 tarball you have chosen to use as the basis for your new Funtoo Linux system. It should be saved to the <code>/mnt/funtoo</code> directory as follows:
  
== 64-bit intel Processors ==
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<console># ##i##cd /mnt/funtoo
* [[Wikipedia:Intel_Core|intel core processors]]
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# ##i##wget http://ftp.osuosl.org/pub/funtoo/funtoo-current/x86-64bit/generic_64/stage3-latest.tar.xz
* [[Wikipedia:Comparison_of_Intel_processors|comparison of intel processors]]
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</console>
  
=== corei7 ===
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Note that 64-bit systems can run 32-bit or 64-bit stages, but 32-bit systems can only run 32-bit stages. Make sure that you select a Stage 3 build that is appropriate for your CPU. If you are not certain, it is a safe bet to choose the <code>generic_64</code> or <code>generic_32</code> stage. Consult the [[Download]] page for more information.
* [[Wikipedia:List_of_Intel_Core_i7_microprocessors|core i7 processors]]
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=== core2_64 ===
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Once the stage is downloaded, extract the contents with the following command, substituting in the actual name of your stage 3 tarball:
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<console>
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# ##i##tar xpf stage3-latest.tar.xz
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</console>
  
Introduced July of 2006 and phased out July of 2011, the '''core2_64''' subarch supports the  [[Wikipedia:https://en.wikipedia.org/wiki/Core_(microarchitecture)|Core microarchitecture]]. Successor to the [[Wikipedia:Intel_Core|Intel Core (first gen; 32-bit)]], [[Wikipedia:Pentium_D|Pentium D]] and [[Wikipedia:Pentium_4|Pentium 4]], with up to four cores and available for Socket T ([[Wikipedia:LGA_775|LGA 775]]), [[Wikipedia:Socket_M|Socket M]] (µPGA 478), [[Wikipedia:Socket_P|Socket P]] (µPGA 478), [[Wikipedia:Micro-FCBGA|Micro-FCBGA]] (µBGA 479), [[Wikipedia:Micro-FCBGA|Micro-FCBGA]] (µBGA 965).
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{{important|It is very important to use <code>tar's</code> "<code>'''p'''</code>" option when extracting the Stage 3 tarball - it tells <code>tar</code> to ''preserve'' any permissions and ownership that exist within the archive. Without this option, your Funtoo Linux filesystem permissions will be incorrect.}}
 
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The ''Core 2''-branded CPUs include: "Conroe"/"Allendale" (dual-core for desktops), "Merom" (dual-core for laptops), "Merom-L" (single-core for laptops), "Kentsfield" (quad-core for desktops), and the updated variants named "Wolfdale" (dual-core for desktops), "Penryn" (dual-core for laptops),  and "Yorkfield" (quad-core for desktops). (Note: ''For the server and workstation "Woodcrest", "Tigerton", "Harpertown" and "Dunnington" CPUs see the [[Wikipedia:Xeon|Xeon]] brand''.)
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=== atom_64 ===
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The '''atom_64''' (also known under the Intel code names Diamondville, Pineview, Cedarview and Centerton) subarch supports the  [[Wikipedia:Bonnell_(microarchitecture)|Intel Bonnell microarchitecture]], representing a partial revival of the principles used in earlier Intel designs such as P5 and the i486, with the sole purpose of enhancing the performance per watt ratio. Successor to the [[Wikipedia:Stealey_(microprocessor)|Stealey_(microprocessor)]], which was derived from the [[Wikipedia:Pentium_M|Pentium M]], the Atom has been produced since 2008. Targeted at low-power devices, Atom processors can be found in a wide range of notebooks, tablets and small form-factor desktops and servers.  
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The Atom N2xx series Atom Diamondville models cannot support 64-bit operation, while the 2xx and 3xx Diamondville, Pineview, Cedarview and Centerton only can "with a processor, chipset, BIOS" that all support [[Wikipedia:X86-64#Intel_64|Intel 64]]. This can lead to situations where non-Intel branded motherboards can have a 64-bit capable Atom processor which cannot run a 64-bit operating system. In this situation, you would need to use the [[subarches#atom_32|atom_32]] subarch.
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== 32-bit Suport (Generic) ==
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=== generic_32 ===
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== 32-bit AMD Processors ==
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=== amd64-k8_32 ===
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=== athlon-xp ===
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== 32-bit ARM Processors ==
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=== armv5te ===
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=== armv6j_hardfp ===
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=== armv7a_hardfp ===
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== 32-bit Intel Processors ==
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=== atom_32 ===
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=== core2_32 ===
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=== i686 ===
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=== pentium4 ===
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{{:Install/Footer}}
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Revision as of 14:36, November 18, 2014


Note

This is a template that is used as part of the Installation instructions which covers: the process of installing the Stage3 tarball. Templates are being used to allow multiple variant install guides that use most of the same re-usable parts.


Installing the Stage 3 tarball

After creating filesystems, the next step is downloading the initial Stage 3 tarball. The Stage 3 is a pre-compiled system used as a starting point to install Funtoo Linux. Load one of the following URLs in another browser window:

Now, let's navigate the directories on the mirrors to find the appropriate build of Funtoo Linux for you.

Which Build?

If you're not sure, pick funtoo-current.

Funtoo Linux has various different 'builds', or variants. Here is a list of the various builds that are available, and what their distinctive features are:

BuildDescription
funtoo-currentThe most commonly-selected build of Funtoo Linux. Receives rapid updates and preferred by desktop users.
funtoo-current-hardenedSame package set as funtoo-current, but with a hardened, exploit-resistant toolchain.
funtoo-stableEmphasizes less-frequent package updates and trusted, reliable versions of packages over the latest versions.

If you want to read more about this, have a look at Differences between stable, current and experimental.

What Architecture?

If you're not sure, pick x86-64bit, or possibly pure64 for server systems.

For PC-compatible systems, the following choices are available:

ArchitectureDescription
x86-64bitFor modern 64-bit processors. Uses new 64-bit instructions and address space. Maintains 32-bit compatibility with multilib.
pure64For modern 64-bit processors but with no support for 32-bit compatibility.
x86-32bitFor older 32-bit systems such as Athlon XP, Pentium 4, or earlier Atom.

Your SubArch

Inside /funtoo-current/x86-64bit/ on one of our mirrors, you'll see a bunch of directories for various subarches of Funtoo Linux. Subarches are builds of Funtoo Linux that are designed to run on a particular type of CPU, to offer the best possible performance. They also take advantage of the instruction sets available for each CPU.

If you are using an AMD-based CPU, download a stage3 from generic_64, amd64-k8, amd64-k10, amd64-bulldozer, amd64-piledriver, amd64-steamroller or amd64-jaguar. See Subarches for help figuring out what AMD subarch is best for you.

If you are using an Intel-based CPU, download a stage3 from generic_64, atom_64, core2_64 or corei7. Note that corei7 is ideal for any modern Intel processor, including Core i3 and Core i5, and many Xeons.

If you are using a 32-bit CPU, download a stage3 from generic_32, i686, core2_32, atom_32 or athlon-xp.

Setting the Date

Important

If your system's date and time are too far off (typically by months or years,) then it may prevent Portage from properly downloading source tarballs. This is because some of our sources are downloaded via HTTPS, which use SSL certificates and are marked with an activation and expiration date. However, if you system time is relatively close to correct, you can probably skip this step for now.

Now is a good time to verify the date and time are correctly set to UTC. Use the date command to verify the date and time:

# date
Fri Jul 15 19:47:18 UTC 2011

If the date and/or time need to be corrected, do so using date MMDDhhmmYYYY, keeping in mind hhmm are in 24-hour format. The example below changes the date and time to "July 16th, 2011 @ 8:00PM" UTC:

# date 071620002011
Fri Jul 16 20:00:00 UTC 2011

Download the Stage3

Once you are in your Funtoo Linux root filesystem, use wget to download the Stage 3 tarball you have chosen to use as the basis for your new Funtoo Linux system. It should be saved to the /mnt/funtoo directory as follows:

# cd /mnt/funtoo
# wget http://ftp.osuosl.org/pub/funtoo/funtoo-current/x86-64bit/generic_64/stage3-latest.tar.xz

Note that 64-bit systems can run 32-bit or 64-bit stages, but 32-bit systems can only run 32-bit stages. Make sure that you select a Stage 3 build that is appropriate for your CPU. If you are not certain, it is a safe bet to choose the generic_64 or generic_32 stage. Consult the Download page for more information.

Once the stage is downloaded, extract the contents with the following command, substituting in the actual name of your stage 3 tarball:

# tar xpf stage3-latest.tar.xz

Important

It is very important to use tar's "p" option when extracting the Stage 3 tarball - it tells tar to preserve any permissions and ownership that exist within the archive. Without this option, your Funtoo Linux filesystem permissions will be incorrect.