AArch64 explained

AArch64 or ARM64 is the 64-bit Execution state of the ARM architecture family. It was first introduced with the Armv8-A architecture, and had many extension updates.[1]

ARM-A (application architecture)

Announced in October 2011,[2] ARMv8-A represents a fundamental change to the ARM architecture. It adds an optional 64-bit Execution state, named "AArch64", and the associated new "A64" instruction set, in addition to a 32-bit Execution state, "AArch32", supporting the 32-bit "A32" (original 32-bit Arm) and "T32" (Thumb/Thumb-2) instruction sets. The latter instruction sets provide user-space compatibility with the existing 32-bit ARMv7-A architecture. ARMv8-A allows 32-bit applications to be executed in a 64-bit OS, and a 32-bit OS to be under the control of a 64-bit hypervisor.[3] ARM announced their Cortex-A53 and Cortex-A57 cores on 30 October 2012.[4] Apple was the first to release an ARMv8-A compatible core (Cyclone) in a consumer product (iPhone 5S). AppliedMicro, using an FPGA, was the first to demo ARMv8-A.[5] The first ARMv8-A SoC from Samsung is the Exynos 5433 used in the Galaxy Note 4, which features two clusters of four Cortex-A57 and Cortex-A53 cores in a big.LITTLE configuration; but it will run only in AArch32 mode.[6]

ARMv8-A includes the VFPv3/v4 and advanced SIMD (Neon) as standard features in both AArch32 and AArch64. It also adds cryptography instructions supporting AES, SHA-1/SHA-256 and finite field arithmetic.[7]

An ARMv8-A processor can support one or both of AArch32 and AArch64; it may support AArch32 and AArch64 at lower Exception levels and only AArch64 at higher Exception levels.[8] For example, the ARM Cortex-A32 supports only AArch32,[9] the ARM Cortex-A34 supports only AArch64,[10] and the ARM Cortex-A72 supports both AArch64 and AArch32.[11] An ARMv9-A processor must support AArch64 at all Exception levels, and may support AArch32 at EL0.

Naming conventions

AArch64 features

Extension: Data gathering hint (ARMv8.0-DGH).

AArch64 was introduced in ARMv8-A and is included in subsequent versions of ARMv8-A. It was also introduced in ARMv8-R as an option, after its introduction in ARMv8-A; it is not included in ARMv8-M.

Instruction formats

The main opcode for selecting which group an A64 instruction belongs to is at bits 25–28.

TypeBit
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Reserved0op0 0 0 0op
1op0 0 0 0Varies<-- too complicated for a compact table -->
Unallocated0 0 0 1
0 0 1 0Varies<-- too complicated for a compact table -->
Unallocated0 0 1 1
Data Processing - Immediate PC-rel.op imm 1 0 0 0 0 imm Rd
Data Processing - Immediate Otherssf 1 0 0 01–11 Rd
Branches + System Instructionsop0 1 0 1 op1 op2
Load and Store Instructionsop0 1 op1 0 op2 op3 op4
Data Processing - Registersf op0op1 1 0 1 op2 op3
Data Processing - Floating Point and SIMDop0111op1op2op3

ARMv8.1-A

In December 2014, ARMv8.1-A,[13] an update with "incremental benefits over v8.0", was announced. The enhancements fell into two categories: changes to the instruction set, and changes to the exception model and memory translation.

Instruction set enhancements included the following:

Enhancements for the exception model and memory translation system included the following:

ARMv8.2-A

In January 2016, ARMv8.2-A was announced.[15] Its enhancements fell into four categories:

Scalable Vector Extension (SVE)

The Scalable Vector Extension (SVE) is "an optional extension to the ARMv8.2-A architecture and newer" developed specifically for vectorization of high-performance computing scientific workloads.[16] [17] The specification allows for variable vector lengths to be implemented from 128 to 2048 bits. The extension is complementary to, and does not replace, the NEON extensions.

A 512-bit SVE variant has already been implemented on the Fugaku supercomputer using the Fujitsu A64FX ARM processor; this computer[18] was the fastest supercomputer in the world for two years, from June 2020[19] to May 2022.[20] A more flexible version, 2x256 SVE, was implemented by the AWS Graviton3 ARM processor.

SVE is supported by the GCC compiler, with GCC 8 supporting automatic vectorization and GCC 10 supporting C intrinsics., LLVM and clang support C and IR intrinsics. ARM's own fork of LLVM supports auto-vectorization.[21]

ARMv8.3-A

In October 2016, ARMv8.3-A was announced. Its enhancements fell into six categories:[22]

ARMv8.3-A architecture is now supported by (at least) the GCC 7 compiler.[26]

ARMv8.4-A

In November 2017, ARMv8.4-A was announced. Its enhancements fell into these categories:[27] [28] [29]

ARMv8.5-A and ARMv9.0-A

In September 2018, ARMv8.5-A was announced. Its enhancements fell into these categories:[30] [31] [32]

On 2 August 2019, Google announced Android would adopt Memory Tagging Extension (MTE).[34]

In March 2021, ARMv9-A was announced. ARMv9-A's baseline is all the features from ARMv8.5.[35] [36] [37] ARMv9-A also adds:

ARMv8.6-A and ARMv9.1-A

In September 2019, ARMv8.6-A was announced. Its enhancements fell into these categories:[42]

For example, fine-grained traps, Wait-for-Event (WFE) instructions, EnhancedPAC2 and FPAC. The bfloat16 extensions for SVE and Neon are mainly for deep learning use.[44]

ARMv8.7-A and ARMv9.2-A

In September 2020, ARMv8.7-A was announced. Its enhancements fell into these categories:[45]

ARMv8.8-A and ARMv9.3-A

In September 2021, ARMv8.8-A and ARMv9.3-A were announced. Their enhancements fell into these categories:[47]

LLVM 15 supports ARMv8.8-A and ARMv9.3-A.[48]

ARMv8.9-A and ARMv9.4-A

In September 2022, ARMv8.9-A and ARMv9.4-A were announced, including:[49]

ARM-R (real-time architecture)

Optional AArch64 support was added to the Armv8-R profile, with the first Arm core implementing it being the Cortex-R82.[50] It adds the A64 instruction set, with some changes to the memory barrier instructions.[51]

Notes and References

  1. Web site: Overview . Learn the architecture: Understanding the Armv8.x and Armv9.x extensions.
  2. ARM Discloses Technical Details Of The Next Version Of The ARM Architecture. 27 October 2011. Arm Holdings. 20 September 2013. https://web.archive.org/web/20190101024118/https://www.arm.com/about/newsroom/arm-discloses-technical-details-of-the-next-version-of-the-arm-architecture.php. 1 January 2019.
  3. Web site: ARMv8-A Technology Preview . 2011 . 31 October 2011 . Richard . Grisenthwaite . 11 November 2011 . https://web.archive.org/web/20111111161327/https://www.arm.com/files/downloads/ARMv8_Architecture.pdf . dead .
  4. ARM Launches Cortex-A50 Series, the World's Most Energy-Efficient 64-bit Processors . . 31 October 2012.
  5. AppliedMicro Showcases World's First 64-bit ARM v8 Core . AppliedMicro . 28 October 2011 . 11 February 2014.
  6. Web site: Samsung's Exynos 5433 is an A57/A53 ARM SoC . AnandTech . 17 September 2014.
  7. Web site: ARM Cortex-A53 MPCore Processor Technical Reference Manual: Cryptography Extension. ARM. 11 September 2016.
  8. Web site: Impact of implemented Exception levels. Learn the architecture - AArch64 Exception Model. Arm.
  9. Web site: Cortex-A32. Arm Developer.
  10. Web site: Cortex-A34. Arm Developer.
  11. Web site: Cortex-A72. Arm Developer.
  12. Web site: Cortex-A32 Processor – ARM. 18 December 2016.
  13. Web site: The ARMv8-A architecture and its ongoing development . David . Brash . 2 December 2014 . 23 January 2015.
  14. Web site: Top-byte ignore (TBI). WikiChip.
  15. Web site: ARMv8-A architecture evolution. David. Brash. 5 January 2016. 7 June 2016.
  16. News: The scalable vector extension sve for the ARMv8 a architecture. Arm Community. 8 July 2018. en. 22 August 2016.
  17. Web site: GCC 8 Release Series – Changes, New Features, and Fixes – GNU Project – Free Software Foundation (FSF). gcc.gnu.org. en. 9 July 2018.
  18. Fujitsu Completes Post-K Supercomputer CPU Prototype, Begins Functionality Trials – Fujitsu Global. www.fujitsu.com. en. 8 July 2018.
  19. Japan's Fugaku gains title as world's fastest supercomputer. 23 June 2020 . 7 December 2020 . www.riken.jp . en.
  20. Web site: ORNL's Frontier First to Break the Exaflop Ceiling . . 30 May 2022 . 30 May 2022 .
  21. Web site: ⚙ D71712 Downstream SVE/SVE2 implementation (LLVM) . reviews.llvm.org.
  22. Web site: ARMv8-A architecture – 2016 additions. David Brash. 26 October 2016.
  23. .Web site: [Ping~,AArch64] Add commandline support for -march=armv8.3-a ]. pointer authentication extension is defined to be mandatory extension on ARMv8.3-A and is not optional.
  24. Web site: Qualcomm releases whitepaper detailing pointer authentication on ARMv8.3. 10 January 2017.
  25. Web site: A64 Floating-point Instructions: FJCVTZS . arm.com . 11 July 2019.
  26. Web site: GCC 7 Release Series – Changes, New Features, and Fixes . The ARMv8.3-A architecture is now supported. It can be used by specifying the -march=armv8.3-a option. [..] The option -msign-return-address= is supported to enable return address protection using ARMv8.3-A Pointer Authentication Extensions..
  27. Web site: Introducing 2017's extensions to the Arm Architecture. community.arm.com. 2 November 2017 . en. 15 June 2019.
  28. Web site: Exploring dot product machine learning. community.arm.com. 6 December 2017 . en. 15 June 2019.
  29. Web site: ARM Preps ARMv8.4-A Support For GCC Compiler – Phoronix. www.phoronix.com. en. 14 January 2018.
  30. Web site: ARMv8.x and ARMv9.x extensions and features . Learn the architecture: Understanding the ARMv8.x and ARMv9.x extensions.
  31. Web site: Arm Architecture ARMv8.5-A Announcement – Processors blog – Processors – Arm Community. community.arm.com. en. 26 April 2019.
  32. Web site: Arm Architecture Reference Manual ARMv8, for ARMv8-A architecture profile. ARM Developer. en. 6 August 2019.
  33. Web site: Arm MTE architecture: Enhancing memory safety. 27 July 2021. community.arm.com. 5 August 2019 . en.
  34. Web site: Adopting the Arm Memory Tagging Extension in Android. Google Online Security Blog. en. 6 August 2019.
  35. Web site: Arm's solution to the future needs of AI, security and specialized computing is v9. 27 July 2021. Arm The Architecture for the Digital World. en.
  36. Web site: Schor. David. 30 March 2021. Arm Launches ARMv9. 27 July 2021. WikiChip Fuse. en-US.
  37. Web site: Frumusanu. Andrei. Arm Announces ARMv9 Architecture: SVE2, Security, and the Next Decade. 27 July 2021. www.anandtech.com.
  38. Web site: Arm SVE2 Support Aligning For GCC 10, LLVM Clang 9.0 – Phoronix. 26 May 2019. www.phoronix.com.
  39. Web site: Arm releases SVE2 and TME for A-profile architecture – Processors blog – Processors – Arm Community. community.arm.com. 18 April 2019 . en. 25 May 2019.
  40. Web site: Unlocking the power of data with Arm CCA. 27 July 2021. community.arm.com. 23 June 2021 . en.
  41. Web site: 23 June 2021. Arm Introduces Its Confidential Compute Architecture. 27 July 2021. WikiChip Fuse. en-US.
  42. Web site: Arm A profile architecture update 2019. community.arm.com. 25 September 2019 . en. 26 September 2019.
  43. Web site: LLVM 11.0.0 Release Notes. 11 March 2021. releases.llvm.org.
  44. Web site: BFloat16 extensions for ARMv8-A. community.arm.com. 29 August 2019 . en. 30 August 2019.
  45. Web site: Weidmann . Martin . Arm A-Profile Architecture Developments 2020 . community.arm.com . ARM . 28 September 2022 . 21 September 2020.
  46. Web site: Scalable Matrix Extension for the ARMv9-A Architecture. 27 July 2021. community.arm.com. 14 July 2021 . en.
  47. Web site: Weidmann . Martin . Arm A-Profile Architecture Developments 2021 . community.arm.com . ARM . 28 September 2022 . 8 September 2021.
  48. Web site: What is New in LLVM 15? - Architectures and Processors blog - Arm Community blogs - Arm Community . 27 February 2023 . 2023-04-15.
  49. Web site: Arm A-Profile Architecture Developments 2022 - Architectures and Processors blog - Arm Community blogs - Arm Community . 2022-12-09 . community.arm.com . 29 September 2022 . en.
  50. Web site: ARM Announced Cortex-R82: First 64-bit Real Time Processor. Andrei. Frumusanu. 3 September 2020. AnandTech.
  51. Web site: Arm Architecture Reference Manual Supplement - Armv8, for Armv8-R AArch64 architecture profile. Arm Ltd..