Subarches

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Download/Browse Funtoo Linux Subarches

This page provides an overview of Funtoo Linux sub-architectures (also called subarches) designed for quick and easy reference. Funtoo Linux provides optimized installation images for all sub-architectures listed below. Clicking on a particular subarch will bring you to a detail page where you can learn more about that subarch and download a stage3 for installation.

   Important

These stages have been optimized for 64-bit Intel processor families. Stages optimized for AMD processors are also available -- select "64-bit AMD Processors" in the tab above.

Core2 64core2_64The core2_64 subarch supports 64-bit-capable processors based on the Core microarchitecture and all processors of the Penryn microarchitecture. This includes all Intel Core 2 branded processors, some Celeron, some Pentium and some Xeon branded processors.-march=core2 -O2 -pipe
Intel64-broadwellintel64The intel64-broadwell subarch specifically supports processors based on Intel's Broadwell microarchitecture. Broadwell desktop processors are branded as 5th Generation Intel Core i3, Core i5, and Core i7 Processors.-march=broadwell -O2 -pipe
Intel64-haswellintel64The intel64-haswell subarch specifically supports processors based on Intel's Haswell microarchitecture. Haswell desktop processors are branded as 4th Generation Intel Core i3, Core i5, and Core i7 Processors.-march=haswell -O2 -pipe
Intel64-ivybridgeintel64The intel64-ivybridge subarch specifically supports processors based on Intel's Ivy Bridge microarchitecture and AVX instructions. These processors are branded as 3rd Generation Intel Core i3, Core i5, and Core i7 Processors.-march=ivybridge -O2 -pipe
Intel64-nehalemintel64The intel64-nehalem subarch supports first-generation Intel Core processors: Nehalem microarchitecture-based Intel Pentium/Celeron, Intel Core i3, i5, i7 and Xeon Processors.-march=nehalem -O2 -pipe
Intel64-sandybridgeintel64The intel64-sandybridge subarch specifically supports processors based on Intel's Sandy Bridge microarchitecture and AVX instructions. These processors are branded as 2nd Generation Intel Core i3, Core i5, and Core i7 Processors.-march=sandybridge -O2 -pipe
Intel64-silvermontintel64Silvermont is a low-power Atom-based microarchitecture that includes Intel Bay Trail, Avoton and Rangeley Processors.-march=silvermont -O2 -pipe
Intel64-skylakeintel64The intel64-skylake subarch specifically supports processors based on Intel's Skylake microarchitecture. Skylake desktop processors are branded as 6th (Skylake) and 7th (Kaby Lake) Generation Intel Core i3, Core i5, and Core i7 Processors.-march=skylake -O2 -pipe
Intel64-westmereintel64Intel Westmere processors are updated first-generation Nehalem processors that included a die-shrink and additional AES and PCLMUL instructions.-march=westmere -O2 -pipe
Generic 64generic_64The generic_64 subarch is designed to support all 64-bit PC-compatible CPUs (x86_64), from their initial release in 2003 to current.-mtune=generic -O2 -pipe
Amd64-bulldozeramd64The amd64-bulldozer subarch supports the AMD bulldozer microarchitecture CPUs, which were released from late 2011 through the first quarter of 2012 as a replacement for K10 microarchitecture CPUs.-march=bdver1 -O2 -pipe
Amd64-excavatoramd64The amd64-excavator subarch supports the AMD excavator microarchitecture, produced from 2015. It is the successor to the AMD Steamroller microarchitecture and will be the last revision of the 'bulldozer' family of processors, and is succeeded by AMD Ryzen processors. These processors also include the Bristol Ridge/Carizzo and Stoney Ridge APUs such as the AMD Athlon FX 9830P that include excavator cores along with integrated graphics cores.-march=bdver4 -O2 -pipe
Amd64-jaguaramd64AMD jaguar microarchitecture debuted in mid-2013 and 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 Playstation 4 and Xbox One,
Amd64-k10amd64The amd64-k10 subarch provides support for the AMD Family 10h processors, which were released in late 2007 as a successor to the AMD K8 series processors.-march=amdfam10 -O2 -pipe
Amd64-piledriveramd64The amd64-piledriver subarch supports the AMD Piledriver microarchitecture produced by AMD from mid-2012 through 2015, which is the successor to the AMD bulldozer microarchitecture.-march=bdver2 -O2 -pipe
Amd64-steamrolleramd64The amd64-steamroller subarch supports the AMD steamroller microarchitecture, produced from early 2014. It is the successor to the AMD Piledriver microarchitecture.-march=bdver3 -O2 -pipe
Amd64-zenamd64The amd64-zen subarch is optimized for AMD Ryzen and EPYC processors.-march=znver1 -O2 -pipe
Amd64-zen2amd64The amd64-zen2 subarch is optimized for AMD Ryzen and EPYC processors series 3000 and above.-march=znver2 -O2 -pipe
Amd64-zen3amd64The amd64-zen3 subarch is optimized for AMD Ryzen and ThreadRipper 5-Series processors, as well as 3rd generation EPYC processors. See Zen 3 on Wikipedia for more information.-march=znver3 -O2 -pipe
Generic 64generic_64The generic_64 subarch is designed to support all 64-bit PC-compatible CPUs (x86_64), from their initial release in 2003 to current.-mtune=generic -O2 -pipe
Generic 32generic_32This subarch supports generic 32-bit PC-compatible processors.-mtune=generic -O2 -fomit-frame-pointer -pipe
I686i686This subarch supports P6-class (Intel Pentium Pro instruction set) processors.-O2 -march=i686 -mtune=generic -pipe
   Important

The ARM architecture is used on a variety of specialty computing platforms, such as the Raspberry Pi. If you're new to Funtoo, it is suggested that you install an Intel or AMD stage3 on a PC-based laptop, desktop or server system first, and then "graduate" to ARM.

We recommend you use one of our board-optimized builds if possible:

ODROID-XU4odroidThis subarch is optimized specifically for the ODROID-XU4, ODROID-XU3 and ODROID-XU3-LITE boards from ODROID.-O2 -pipe -march=armv7-a -mtune=cortex-a15.cortex-a7 -mfpu=neon-vfpv4 -mfloat-abi=hard
Raspberry Pi (Version 1)raspiThis subarch is optimized specifically for the Raspberry Pi 1 Model B, Model A, Model B+, Model A+, Compute Module, Raspberry Pi Zero.-O2 -pipe -march=armv6j -mtune=arm1176jzf-s -mfpu=vfp -mfloat-abi=hard
Raspberry Pi (Version 2)raspi2This subarch is optimized specifically for the Raspberry Pi 2 Model B (Broadcom BCM2836, released Feb 2015)-O2 -pipe -march=armv7-a -mtune=cortex-a7 -mfpu=neon-vfpv4 -mfloat-abi=hard
Raspberry Pi (Version 3)raspi3This subarch is optimized specifically for the Raspberry Pi 2 Model B version 1.2 (Oct 2016), Raspberry Pi 3 Model B and Compute Module 3 (2017)-O2 -pipe -march=armv7-a -mtune=cortex-a53 -mfpu=neon-vfpv4 -mfloat-abi=hard

The following generic optimized builds are also available:

Armv6j hardfparmv6j_hardfpThis subarch supports the ARM11 series processors, including compatible CPUs such as the Broadcom BCM2835 (Raspberry Pi).-O2 -pipe -march=armv6j -mfloat-abi=hard
Armv6j vfp hardfparmv6j_vfp_hardfpThis subarch supports the ARM11 series processors, including compatible CPUs such as the Broadcom BCM2835 (Raspberry Pi).-O2 -pipe -march=armv6j -mfpu=vfp -mfloat-abi=hard
Armv7a vfpv3 hardfparmv7a_vfpv3_hardfpThis subarch supports the ARMv7-A architecture with hardware floating point. CPU support includes Cortex-A5 (with hardware FPU), Cortex-A7, A8, A9, A12, A15, A17, and Qualcomm Krait and other ARMv7-A CPUs.-O2 -pipe -march=armv7-a -mfpu=vfpv3 -mfloat-abi=hard
   Important

The ARM64 architecture is used on a variety of specialty computing platforms, such as the ODROID C2. If you're new to Funtoo, it is suggested that you install an Intel or AMD stage3 on a PC-based laptop, desktop or server system first, and then "graduate" to ARM.

Arm64 genericarm64_genericThis subarch supports the generic ARM64 architecture (Armv8-a), and is suitable for use on Raspberry Pi 4.-O2 -pipe -march=armv8-a

How to Identify your CPU

There are a couple of ways to identify the type of CPU you have. One option is to use the lscpu command:

root # lscpu

If the lscpu command is unavailable, you can get similar information via /proc:

root # cat /proc/cpuinfo | grep "^model name" | uniq
model name	: Intel(R) Core(TM) i7-2640M CPU @ 2.80GHz

The cpuid command is another option and can provide other interesting information:

root # emerge cpuid; cpuid | tail -n 1
   Note

Search is your friend. Take the chip name gathered, then google wiki chipname to find the wikipedia article for your chip. The right hand column of your processors wiki article will list the microarchitecture.

example: searching for "amd phenom wiki" returns this article & the article says its "Microarchitecture K10"