diff options
Diffstat (limited to 'en')
-rw-r--r-- | en/bookinfo.xml | 2 | ||||
-rw-r--r-- | en/boot-installer/arm.xml | 3 | ||||
-rw-r--r-- | en/hardware/hardware-supported.xml | 30 | ||||
-rw-r--r-- | en/hardware/supported-peripherals.xml | 2 | ||||
-rw-r--r-- | en/hardware/supported/arm.xml | 75 |
5 files changed, 71 insertions, 41 deletions
diff --git a/en/bookinfo.xml b/en/bookinfo.xml index 7650ff220..e4b7b7e27 100644 --- a/en/bookinfo.xml +++ b/en/bookinfo.xml @@ -48,7 +48,7 @@ Its condition is "translation-status". </abstract> <copyright> - <year>2004 – 2013</year> + <year>2004 – 2014</year> <holder>the Debian Installer team</holder> </copyright> diff --git a/en/boot-installer/arm.xml b/en/boot-installer/arm.xml index 57e4485c8..c3c367442 100644 --- a/en/boot-installer/arm.xml +++ b/en/boot-installer/arm.xml @@ -14,6 +14,7 @@ </sect2> +<!-- <sect2 arch="arm" id="boot-firmware"><title>Booting from Firmware</title> @@ -144,3 +145,5 @@ The installer will now start as usual. </para> </sect3> </sect2> + +--> diff --git a/en/hardware/hardware-supported.xml b/en/hardware/hardware-supported.xml index 0c6b84208..8fba8762b 100644 --- a/en/hardware/hardware-supported.xml +++ b/en/hardware/hardware-supported.xml @@ -26,7 +26,7 @@ information can be found. <sect2><title>Supported Architectures</title> <para> -&debian; GNU/Linux &release; supports eleven major architectures and several +&debian; GNU/Linux &release; supports nine major architectures and several variations of each architecture known as <quote>flavors</quote>. </para><para> @@ -56,11 +56,8 @@ variations of each architecture known as <quote>flavors</quote>. </row> <row> - <entry morerows="4">ARM</entry> - <entry morerows="4">armel</entry> - <entry>Intel IOP32x</entry> - <entry>iop32x</entry> -</row><row> + <entry morerows="3">ARM</entry> + <entry morerows="3">armel</entry> <entry>Intel IXP4xx</entry> <entry>ixp4xx</entry> </row><row> @@ -88,15 +85,6 @@ variations of each architecture known as <quote>flavors</quote>. <entry>armmp-lpae</entry> </row> - - -<row> - <entry>Intel IA-64</entry> - <entry>ia64</entry> - <entry></entry> - <entry></entry> -</row> - <row> <entry morerows="3">MIPS (big endian)</entry> <entry morerows="3">mips</entry> @@ -116,7 +104,6 @@ variations of each architecture known as <quote>flavors</quote>. <row> <entry morerows="1">MIPS (little endian)</entry> <entry morerows="1">mipsel</entry> -</row><row> <entry>MIPS Malta (32 bit)</entry> <entry>4kc-malta</entry> </row><row> @@ -143,12 +130,14 @@ variations of each architecture known as <quote>flavors</quote>. <entry>sun4v</entry> </row> +<!-- <row> <entry>IBM S/390</entry> <entry>s390</entry> <entry>IPL from VM-reader and DASD</entry> <entry>generic</entry> </row> +--> <row> <entry>64bit IBM S/390</entry> @@ -259,8 +248,8 @@ with GNU/Linux, see for example the Multiprocessor support — also called <quote>symmetric multiprocessing</quote> or SMP — is available for this architecture. Having multiple processors in a computer was originally -only an issue for high-end server systems but has become quite common in -recent years even for rather low-end desktop computers and laptops with +only an issue for high-end server systems but has become common in +recent years nearly everywhere with the introduction of so called <quote>multi-core</quote> processors. These contain two or more processor units, called <quote>cores</quote>, in one physical chip. @@ -285,10 +274,9 @@ will detect the number of processors (or processor cores) and will automatically deactivate SMP on uniprocessor systems. </para><para> - Having multiple processors in a computer was originally -only an issue for high-end server systems but has become quite common in -recent years even for rather low-end desktop computers and laptops with +only an issue for high-end server systems but has become common in +recent years nearly everywhere with the introduction of so called <quote>multi-core</quote> processors. These contain two or more processor units, called <quote>cores</quote>, in one physical chip. diff --git a/en/hardware/supported-peripherals.xml b/en/hardware/supported-peripherals.xml index 4a75b35d2..8edfd4890 100644 --- a/en/hardware/supported-peripherals.xml +++ b/en/hardware/supported-peripherals.xml @@ -6,7 +6,7 @@ <para arch="not-s390"> &arch-kernel; supports a large variety of hardware devices such as mice, -printers, scanners, PCMCIA and USB devices. However, most of these +printers, scanners, PCMCIA/CardBus/ExpressCard and USB devices. However, most of these devices are not required while installing the system. </para><para arch="x86"> diff --git a/en/hardware/supported/arm.xml b/en/hardware/supported/arm.xml index f56a1ae57..b312722a3 100644 --- a/en/hardware/supported/arm.xml +++ b/en/hardware/supported/arm.xml @@ -11,7 +11,7 @@ architecture, where all systems share a common system firmware (BIOS or/and UEFI) which handles the board-specific basic hardware initialization in a standardized way. -The ARM architecture is used mainly in so-called "systems-on-chip" (SOCs). +The ARM architecture is used mainly in so-called <quote>systems-on-chip</quote> (SOCs). These SOCs are designed by many different companies with vastly varying hardware components even for the very basic functionality required to bring the system up. Systems using them usually lack a common system firmware @@ -25,7 +25,7 @@ mainboard's BIOS in the PC world. At the beginning of the ARM support in the Linux kernel, this resulted in the requirement of having a seperate kernel for each ARM system in contrast -to the "one-fits-all" kernel for PC systems. As this approach does not +to the <quote>one-fits-all</quote> kernel for PC systems. As this approach does not scale to a large number of different systems, work has started to be able to provide a single ARM kernel that can run on different ARM systems. Support for newer ARM systems gets implemented in a way that allows the use of such @@ -84,20 +84,6 @@ platform-specific kernels. <variablelist> <varlistentry> -<term>IOP32x</term> -<listitem><para> - -Intel's I/O Processor (IOP) line is found in a number of products related -to data storage and processing. &debian; currently supports the IOP32x -platform, featuring the IOP 80219 and 32x chips commonly found in Network -Attached Storage (NAS) devices. &debian; explicitly supports two such -devices: the <ulink url="&url-arm-cyrius-glantank;">GLAN Tank</ulink> from -IO-Data and the <ulink url="&url-arm-cyrius-n2100;">Thecus N2100</ulink>. - -</para></listitem> -</varlistentry> - -<varlistentry> <term>Kirkwood</term> <listitem><para> @@ -144,16 +130,38 @@ test and run &debian; on ARM if you don't have the hardware. </para> </sect3> +<sect3 arch="arm"><title>Platforms no longer supported by Debian/armel</title> + +<variablelist> +<varlistentry> +<term>IOP32x</term> +<listitem><para> + +Intel's I/O Processor (IOP) line is found in a number of products +related to data storage and processing, such as the <ulink +url="&url-arm-cyrius-glantank;">GLAN Tank</ulink> from IO-Data and the +<ulink url="&url-arm-cyrius-n2100;">Thecus N2100</ulink>. &debian; has +supported the IOP32x platform in &debian; 7, but does not support +it anymore from version 8 on due to hardware constraints of the platform +which make it unsuitable for the installation of newer &debian; releases. + +</para></listitem> +</varlistentry> +</variablelist> + + +</sect3> + <sect3 arch="arm"><title>Platforms supported by Debian/armhf</title> <para> - The following platforms are supported by &debian;/armhf using the + The following systems are known to work with &debian;/armhf using the multiplatform (armmp) kernel: <variablelist> <varlistentry> - <term>Freescale MX53 Quick Start Board, Codename "LOCO"</term> + <term>Freescale MX53 Quick Start Board</term> <listitem> <para> The IMX53QSB is a development board based on the i.MX53 SOC. @@ -161,8 +169,39 @@ test and run &debian; on ARM if you don't have the hardware. </listitem> </varlistentry> +<!-- + <varlistentry> + <term>Versatile Express</term> + <listitem> + <para> + The Versatile Express is a development board series from ARM + consisting of a baseboard which can be equipped with various CPU + daughterboards. + </para> + </listitem> + </varlistentry> +--> + </variablelist> </para> + + <para> + + Generally, the ARM multiplatform support in the Linux kernel allows + running &d-i; on armhf systems not explicitly listed above, as long as + the kernel used by &d-i; has support for the target system's components + and a device-tree file for the target is available. In these cases, the + installer can usually provide a working userland installation, but it + probably cannot automatically make the system bootable, as doing that in + many cases requires device-specific information. + + </para> + <para> + When using &d-i; on such systems, you have to manually make the system + bootable at the end of the installation, e.g. by running the required + commands in a shell started from within &d-i;. + </para> + </sect3> </sect2> |