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GCC compiler optimization for ARM-based systems

GCC compiler optimization for ARM-based systems

2017-03-03 fm4dd

The gcc compiler can optimize code by taking advantage of CPU specific features. Especially for ARM CPU's, this can have impact on application performance. ARM CPU's, even under the same architecture, could be implemented with different versions of floating point units (FPU). Utilizing full FPU potential improves performance of heavier operating systems such as full Linux distributions.

-mcpu, -march: Defining the CPU type and architecture

These flags can both be used to set the CPU type. Setting one or the other is sufficient.

GCC supports all Cortex-A processors up to A15 (2010). Example are 'cortex-a5', 'cortex-a7', 'cortex-a8', 'cortex-a9', 'cortex-a15'. For specific values on popular boards see table below.

-mfloat-abi, -mfpu: Defining the floating-point application binary interface type (ABI) and floating point unit type

All ARM Cortex-A processors available today come with a floating-point unit called vector floating-point VFP. Most also have a SIMD co-processor called NEON. Confusingly, both are types of floating point units. VFP is older, IEEE-754 compliant and provides double precision (64bit). NEON is a multi-function coprocessor that comes with single precision (32bit) vector functionality in 32bit CPU's, and got double precision in 64bit ARM.

As a result, we have a combination of -mfpu type options, depending on the actual CPU implementation. Some combinations have an alias: 'neon-vfpv3' is aliased to 'neon' and 'vfpv2' is aliased to 'vfp'. -mfpu and -mfloat-abi are important flags, because GCC will only use floating-point and NEON instructions if it is explicitly told to do so. It is also important to set -mfpu in combination with -mfloat-abi.

-mfloat-abi sets the overall strategy for floating point code compilation. It has only three values: 'soft', 'softfp', or 'hard'. ‘soft’ generates library calls for floating-point operations. ‘softfp’ allows the generation of code using hardware floating-point instructions, but still uses the soft-float calling conventions. 'hard' generates floating-point instructions with FPU-specific calling conventions.

Other options that "can" improve performance in certain circumstances

-mtune This flag can further improve performance by setting the CPU type to a specific CPU model. For example, on a Raspberry Pi 1, it could be set to -mtune=arm1176jzf-s.

-mneon-for-64bits lets Neon handle scalar 64-bits operations. This flag has no arguments. It is disabled by default due to high cost of moving data from core registers to Neon on 32bit CPU's.

-funsafe-math-optimizations can improve floating point performance by letting it run through NEON. Use of NEON instructions may lead to a loss of precision (depending on the version of NEON).

-munaligned-access, -mno-unaligned-access
Enables (or disables) reading and writing of 16- and 32- bit values from addresses that are not 16- or 32- bit aligned. The CPU type defines the correct default, and changing it may negatively impact performance.

Pre-ARMv6, ARMv6-M, and ARMv8-M default to -mno-unaligned-access. -munaligned-access is default for all other architectures. If unaligned access is not enabled, then words in packed data structures are accessed one byte at a time.

Flags that don't need to be specified, because they are correct on default:

-mlittle-endian generates code for little-endian CPUs. This is the default.

CPU information for popular ARM-based boards:

Board CPU Architecture ARM Core FPU
Raspberry Pi 1 Broadcom BCM2835 ARMv6 ARM11 (ARM1176JZFS) VFPv2 (VFP only, no NEON)
Raspberry Pi 2 Broadcom BCM2836 ARMv7-A Cortex-A7 MPcore VFPv4-D32 (VFP and NEON)
BeagleBone Black TI Sitara AM3358/9 ARMv7-A Cortex-A8 VFPv3-D32 (VFP and NEON)
Altera Cyclone V5 5CSEMA4U23C6N A9    ARMv7-A       Cortex-A9 MPcore   VFPv3-D32 (VFP and NEON)
NanoPi NEO 2 Allwinner H5 ARMv8-A Cortex-A53 VFPv4 (VFP and NEON)
Raspberry Pi 3 Broadcom BCM2837 ARMv8-A Cortex-A53 VFPv4 (VFP and NEON)
Amazon EC2 A1 Graviton ARMv8-A Cortex-A72 VFPv4 (VFP and NEON)
Raspberry Pi 4 Broadcom BCM2711 ARMv8-A Cortex-A72 VFPv4 (VFP and NEON)

GCC compiler options for popular ARM-based boards:

Board GCC optimisation flags
Raspberry Pi 1 -mcpu=arm1176jzf-s -mfloat-abi=hard -mfpu=vfp (alias for vfpv2)
Raspberry Pi 2   -mcpu=cortex-a7 -mfloat-abi=hard -mfpu=neon-vfpv4                      
BeagleBone Black  -mcpu=cortex-a8 -mfloat-abi=hard -mfpu=neon (alias for neon-vfpv3)
Altera Cyclone V5 -mcpu=cortex-a9 -mfloat-abi=hard -mfpu=neon (alias for neon-vfpv3)
Raspberry Pi 3 -mcpu=cortex-a53 -mfloat-abi=hard -mfpu=neon-fp-armv8 -mneon-for-64bits
Amazon EC2 A1 -mcpu=cortex-a72 -mfloat-abi=hard -mfpu=neon-fp-armv8 -mneon-for-64bits
Raspberry Pi 4 -mcpu=cortex-a72 -mfloat-abi=hard -mfpu=neon-fp-armv8 -mneon-for-64bits

GCC compiler tuning options for popular ARM-based boards:

Board GCC extra tuning flags
Raspberry Pi 1 -mtune=arm1176jzf-s
Raspberry Pi 2   -mtune=cortex-a7      
BeagleBone Black  -mtune=cortex-a8
Altera Cyclone V5 -mtune=cortex-a9      
Raspberry Pi 3 -mtune=cortex-a53
Raspberry Pi 4 -mtune=cortex-a72

Note that gcc's code optimisation creates code for a specific CPU/board. If that code is copied to another platform, it may perform different (e.g. poorly).

How to set compiler options

For most projects, setting the environment variable or adding the flags in the Makefile variables will do the trick.

export CFLAGS="-mcpu=cortex-a53 -mfloat-abi=hard -mfpu=neon-fp-armv8 -mneon-for-64bits"

Note to crypto miners

Starting with the ARMv8 architecture, a crypto acceleration extension has been added. On a Raspberry Pi 3 (Cortex A53), it accelerates AES and SHA1/SHA2. To enable it, use -mcpu=cortex-a53+crypto on a RPi3, and -mcpu=cortex-a72+crypto for RPi4.

Further crypto support (SHA3, SHA512) gets added from ARMv8.4-A onwards.

References

For more information, see:

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