Diff for /wikisrc/ports/evbarm.mdwn between versions 1.41 and 1.53

version 1.41, 2017/10/10 10:43:51 version 1.53, 2018/11/07 14:41:31
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 [[!template id=port  [[!template id=port
 port="evbarm"  port="evbarm"
 port_alt="arm"  port_alt="arm"
 port_var1="arm"  port_var1="earm"
 port_var2="armeb"  port_var2="earmeb"
 port_var3="earm"  port_var3="earmv6hf"
 port_var4="earmeb"  port_var4="earmv7hf"
 port_var5="earmv6hf"  port_var5="earmv7hfeb"
 port_var6="earmv7hf"  port_var_install_notes="evbarm-earm"
 port_var7="earmv7hfeb"  cur_rel="8.0"
 port_var_install_notes="evbarm-arm"  future_rel="9.0"
 cur_rel="7.1"  changes_cur="8.0"
 future_rel="8.0"  changes_future="9.0"
 changes_cur="7.0"  
 changes_future="8.0"  
 thumbnail="http://www.netbsd.org/images/ports/evbarm/adi_brh.gif"  thumbnail="http://www.netbsd.org/images/ports/evbarm/adi_brh.gif"
 about="""  about="""
 NetBSD/evbarm is the port of NetBSD to various evaluation and prototyping  NetBSD/evbarm is the port of NetBSD to various evaluation and prototyping
Line 22  designs. Line 20  designs.
   
 Matt Thomas is the maintainer of NetBSD/evbarm.  Matt Thomas is the maintainer of NetBSD/evbarm.
   
   ### CPU types
   
   The evbarm port can be built with a variety of CPU options.  There are
   three main variables: the instruction set, the endianness, and whether
   there is hardware floating point.  By default the CPU type is "earm",
   and this implies little endian (el when explicitly stated), and soft
   (emulated) floating point.  Another example, suitable for Raspberry PI
   2, is earmv7hf, which is the v7 instruction set, little endian,
   and hardware floating point.
   
   Typically, various boards are best compiled with a CPU type that
   matches the board's CPU and floating point support, but generally a
   lower CPU instruction set version is workable on a newer board.  See
   build.sh and look for aliases for the evbarm port.
   
   Some processors can operate as arm or the 64-bit ARM variant, aarch64, which is supported by
   [[NetBSD/aarch64|aarch64]].
   
   ### Kernels and userland
   
   The evbarm userland can be used on any system that can run code of the
   CPU type used for the build.  Typically, a particular board requires a
   kernel for that board.
   
   ### anita and qemu
   
   anita can be used to test builds.  (In addition to anita, install qemu and dtb-arm-vexpress from pkgsrc.)   The release subdirectory should follow the naming convention on the autobuild cluster, used below.
    - evbarm-earmv7hf uses "qemu -M vexpress-a15"
    - evbarm-aarch64 uses "qemu -M virt"
    - Information on how to test emulated versions of other specific hardware is welcome.
   
 ### Board specific information  ### Board specific information
  - [[Allwinner sunxi family SoCs|Allwinner]]   - [[Allwinner sunxi family SoCs|Allwinner]]
  - [[BeagleBone and BeagleBone Black|BeagleBone]]   - [[BeagleBone and BeagleBone Black|BeagleBone]]
Line 233  Support for NVIDIA [[Tegra]] K1 SoCs is  Line 262  Support for NVIDIA [[Tegra]] K1 SoCs is 
 ### Raspberry Pi Foundation **Raspberry Pi**/**Raspberry Pi 2**/**Raspberry Pi 3**  ### Raspberry Pi Foundation **Raspberry Pi**/**Raspberry Pi 2**/**Raspberry Pi 3**
 The [[Raspberry Pi]] is a low-cost credit-card-sized computer from the Raspberry Pi Foundation.  The Raspberry Pi, Pi 2, and Pi 3 are supported.  The [[Raspberry Pi]] is a low-cost credit-card-sized computer from the Raspberry Pi Foundation.  The Raspberry Pi, Pi 2, and Pi 3 are supported.
   
 ### Rockchip PX2/RK3066/RK3188/RK3188+  
 Various [[Rockchip]] family SoCs are supported by the ROCKCHIP kernel.  
   
 ### Samsung **SMDK2410**  ### Samsung **SMDK2410**
   
 The SMDK2410 is the reference platform for the Samsung **S3C2410** processor,  The SMDK2410 is the reference platform for the Samsung **S3C2410** processor,

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