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author | Joel Sherrill <joel@rtems.org> | 2016-11-15 10:37:59 -0600 |
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committer | Joel Sherrill <joel@rtems.org> | 2017-01-11 12:13:21 -0600 |
commit | 48a7fa31f918a6fc88719b3c9393a9ba2829f42a (patch) | |
tree | 10bf638de133099fcabe5fe713ca98a546a27ab2 /doc/cpu_supplement/arm.t | |
parent | Remove obsolete __RTEMS_HAVE_SYS_CPUSET_H__ (diff) | |
download | rtems-48a7fa31f918a6fc88719b3c9393a9ba2829f42a.tar.bz2 |
Remove texinfo format documentation. Replaced by Sphinx formatted documentation.
closes #2812.
Diffstat (limited to '')
-rw-r--r-- | doc/cpu_supplement/arm.t | 188 |
1 files changed, 0 insertions, 188 deletions
diff --git a/doc/cpu_supplement/arm.t b/doc/cpu_supplement/arm.t deleted file mode 100644 index dae513d77a..0000000000 --- a/doc/cpu_supplement/arm.t +++ /dev/null @@ -1,188 +0,0 @@ -@c -@c COPYRIGHT (c) 1988-2002. -@c On-Line Applications Research Corporation (OAR). -@c All rights reserved. - -@ifinfo -@end ifinfo -@chapter ARM Specific Information - -This chapter discusses the -@uref{http://en.wikipedia.org/wiki/ARM_architecture,ARM architecture} -dependencies in this port of RTEMS. The ARMv4T (and compatible), ARMv7-A, -ARMv7-R and ARMv7-M architecture versions are supported by RTEMS. Processors -with a MMU use a static configuration which is set up during system start. SMP -is supported. - -@subheading Architecture Documents - -For information on the ARM architecture refer to the -@uref{http://infocenter.arm.com,ARM Infocenter}. - -@section CPU Model Dependent Features - -This section presents the set of features which vary -across ARM implementations and are of importance to RTEMS. The set of CPU -model feature macros are defined in the file -@file{cpukit/score/cpu/arm/rtems/score/arm.h} based upon the particular CPU -model flags specified on the compilation command line. - -@subsection CPU Model Name - -The macro @code{CPU_MODEL_NAME} is a string which designates -the architectural level of this CPU model. See in -@file{cpukit/score/cpu/arm/rtems/score/arm.h} for the values. - -@subsection Count Leading Zeroes Instruction - -The ARMv5 and later has the count leading zeroes @code{clz} instruction which -could be used to speed up the find first bit operation. The use of this -instruction should significantly speed up the scheduling associated with a -thread blocking. This is currently not used. - -@subsection Floating Point Unit - -The following floating point units are supported. - -@itemize @bullet - -@item VFPv3-D32/NEON (for example available on Cortex-A processors) -@item VFPv3-D16 (for example available on Cortex-R processors) -@item FPv4-SP-D16 (for example available on Cortex-M processors) -@item FPv5-D16 (for example available the Cortex-M7 processor) - -@end itemize - -@c -@c -@c -@section Multilibs - -The following multilibs are available: - -@enumerate -@item @code{.}: ARMv4T, ARM instruction set -@item @code{thumb}: ARMv4T, Thumb-1 instruction set -@item @code{thumb/armv6-m}: ARMv6M, subset of Thumb-2 instruction set -@item @code{thumb/armv7-a}: ARMv7-A, Thumb-2 instruction set -@item @code{thumb/armv7-a/neon/hard}: ARMv7-A, Thumb-2 instruction set with -hard-float ABI Neon and VFP-D32 support -@item @code{thumb/armv7-r}: ARMv7-R, Thumb-2 instruction set -@item @code{thumb/armv7-r/vfpv3-d16/hard}: ARMv7-R, Thumb-2 instruction set -with hard-float ABI VFP-D16 support -@item @code{thumb/armv7-m}: ARMv7-M, Thumb-2 instruction set with hardware -integer division (SDIV/UDIV) -@item @code{thumb/armv7-m/fpv4-sp-d16}: ARMv7-M, Thumb-2 instruction set with -hardware integer division (SDIV/UDIV) and hard-float ABI FPv4-SP support -@item @code{thumb/cortex-m7/fpv5-d16}: ARMv7M, Thumb-2 instruction set -optimized for Cortex-M7 with hard-float ABI VFP-D16 support and support for the -64-bit floating point unit -@item @code{eb/thumb/armv7-r}: ARMv7-R, Big-endian Thumb-2 instruction set -@item @code{eb/thumb/armv7-r/vfpv3-d16/hard}: ARMv7-R, Big-endian Thumb-2 -instruction set with hard-float ABI VFP-D16 support -@end enumerate - -Multilib 1. and 2. support the standard ARM7TDMI and ARM926EJ-S targets. - -Multilib 3. supports the Cortex-M0 and Cortex-M1 cores. - -Multilib 8. supports the Cortex-M3, Cortex-M4 and Cortex-M7 cores, which have a -special hardware integer division instruction (this is not present in the A and -R profiles). - -Multilib 9. supports the Cortex-M4 cores with a floating point unit. - -Multilib 10. supports the Cortex-M7 core with a floating point unit. - -Multilib 4. and 5. support the Cortex-A processors. - -Multilib 6., 7., 11. and 12. support the Cortex-R processors. Here also -big-endian variants are available. - -Use for example the following GCC options - -@example --mthumb -march=armv7-a -mfpu=neon -mfloat-abi=hard -mtune=cortex-a9 -@end example - -to build an application or BSP for the ARMv7-A architecture and tune the code -for a Cortex-A9 processor. It is important to select the options used for the -multilibs. For example - -@example --mthumb -mcpu=cortex-a9 -@end example - -alone will not select the ARMv7-A multilib. - -@section Calling Conventions - -Please refer to the -@uref{http://infocenter.arm.com/help/topic/com.arm.doc.ihi0042c/IHI0042C_aapcs.pdf,Procedure Call Standard for the ARM Architecture}. - -@section Memory Model - -A flat 32-bit memory model is supported. The board support package must take -care about the MMU if necessary. - -@section Interrupt Processing - -The ARMv4T (and compatible) architecture has seven exception types: - -@itemize @bullet - -@item Reset -@item Undefined -@item Software Interrupt (SWI) -@item Prefetch Abort -@item Data Abort -@item Interrupt (IRQ) -@item Fast Interrupt (FIQ) - -@end itemize - -Of these types only the IRQ has explicit operating system support. It is -intentional that the FIQ is not supported by the operating system. Without -operating system support for the FIQ it is not necessary to disable them during -critical sections of the system. - -The ARMv7-M architecture has a completely different exception model. Here -interrupts are disabled with a write of 0x80 to the @code{basepri_max} -register. This means that all exceptions and interrupts with a priority value -of greater than or equal to 0x80 are disabled. Thus exceptions and interrupts -with a priority value of less than 0x80 are non-maskable with respect to the -operating system and therefore must not use operating system services. Several -support libraries of chip vendors implicitly shift the priority value somehow -before the value is written to the NVIC IPR register. This can easily lead to -confusion. - -@subsection Interrupt Levels - -There are exactly two interrupt levels on ARM with respect to RTEMS. Level -zero corresponds to interrupts enabled. Level one corresponds to interrupts -disabled. - -@subsection Interrupt Stack - -The board support package must initialize the interrupt stack. The memory for -the stacks is usually reserved in the linker script. - -@section Default Fatal Error Processing - -The default fatal error handler for this architecture performs the -following actions: - -@itemize @bullet -@item disables operating system supported interrupts (IRQ), -@item places the error code in @code{r0}, and -@item executes an infinite loop to simulate a halt processor instruction. -@end itemize - -@section Symmetric Multiprocessing - -SMP is supported on ARMv7-A. Available platforms are the Altera Cyclone V and -the Xilinx Zynq. - -@section Thread-Local Storage - -Thread-local storage is supported. |