ARM Neoverse

From Wikipedia the free encyclopedia

The ARM Neoverse is a group of 64-bit ARM processor cores licensed by Arm Holdings. The cores are intended for datacenter, edge computing, and high-performance computing use. The group consists of ARM Neoverse V-Series, ARM Neoverse N-Series, and ARM Neoverse E-Series.[1][2]

Neoverse V-Series[edit]

The Neoverse V-Series processors are intended for high-performance computing.

Neoverse V1[edit]

Neoverse V1 (code named Zeus[3]) is derived from the Cortex-X1[4] and implements the ARMv8.4-A instruction set and some part of ARMv8.6-A.[5] It was officially announced by Arm on September 22, 2020.[6] It is said to be initially realized with a 7 nm process from TSMC. One of the changes from the X1 is that it supports SVE 2x256-bit.

According to The Next Platform, the AWS Graviton3 is based on the Neoverse V1.[7][8]

Neoverse V2[edit]

Neoverse V2 (code named Demeter) is derived from the ARM Cortex-X3 and implements the ARMv9.0-A instruction set. It was officially announced by Arm on September 14, 2022.[9][10] NVIDIA Grace,[11] AWS Graviton4[12] and Google Axion[13] are based on the Neoverse V2.

Notable changes from the Neoverse V1:[14]

  • BTB capacity: 12K entries
  • TAGE predictor: 8-table
  • micro-op cache: 1536 entries (reduced for efficiency)
  • Decode width: 6
  • Rename / Dispatch width: 8
  • ROB: 320 entry
  • Execution ports: 15
  • L2 cache: 1024-2048 kB per core
  • CMN-700 mesh interconnect
    • Up to 256 cores per die
    • Up to 512 MB SLC
    • Up to 4 TB/s bandwidth

Neoverse V3[edit]

Neoverse V3, (code named Poseidon) was teased by Arm alongside the V2 and E2 announcements.[15] It is targeted for systems including DDR5, PCIe gen6, and CXL 3.0. The codename Poseidon was first used for the generation succeeding Zeus, now V1, and targeted for 2021 on a 5nm node.[16]

Neoverse N-Series[edit]

The Neoverse N-Series processors are intended for core datacenter usage.

Neoverse N1[edit]

On February 20, 2019, Arm announced the Neoverse N1 microarchitecture (code named Ares) derived from the Cortex-A76 redesigned for infrastructure/server applications. The reference design supports up to 64 or 128 Neoverse N1 cores.[17][18]

Notable changes from the Cortex-A76:

  • Coherent I-cache and D-cache with 4-cycle LD-use
  • L2 cache: 512–1024 kB per core
  • Mesh interconnect instead of 1–4 cores per cluster

Neoverse N1 implements the ARMv8.2-A instruction set.

The Ampere Altra (2-socket 80-core) and AWS Graviton2 (64-core) CPU platforms are based on Neoverse N1 cores and were released in 2020.[19]

Neoverse N2[edit]

The Neoverse N2 (code named Perseus) is derived from the Cortex-A710 and implements the ARMv9.0-A instruction set.[19] It was officially announced by Arm on September 22, 2020.[6] On August 28, 2023, Arm announced the Neoverse CSS N2 (Genesis), a customizable CPU subsystem implementation by Arm to reduce the time to market for customers.[20][21][22][23] Microsoft Azure Cobalt 100 128 Core CPU uses Neoverse N2.[24]

Notable changes from the Neoverse N1:[25][26]

  • BTB capacity: 8K entries
  • micro-op cache: 1536 entries
  • Rename / Dispatch width: 5
  • ROB: 160+ entry
  • Pipeline depth: 10 cycles
  • Execution ports: 13
  • SVE2 support
  • CMN-700 mesh interconnect

Neoverse N-Next[edit]

Neoverse N-Next, presumably N3, was teased by Arm alongside the V2 and E2 announcements.[15] It is targeted for systems including DDR5, PCIe gen6, and CXL 3.0.

Neoverse E-Series[edit]

The Neoverse E-Series processors are intended for edge computing. They are designed for increased data throughput at decreased power consumption.

Neoverse E1[edit]

Neoverse E1 is derived from the Cortex-A65AE[27] and implements the ARMv8.2-A instruction set. It support SMT.

Neoverse E2[edit]

Neoverse E2 is derived from the Cortex-A510[15] and implements the ARMv9-A instruction set.

Neoverse E-Next[edit]

Neoverse E-Next, presumably E3, was teased by Arm alongside the V2 and E2 announcements.[15] It is targeted for systems including DDR5, PCIe gen6, and CXL 3.0.

Matrix multiplication theoretical performance[edit]

ops/cycle per core
INT8 BF16 FP32 FP64
Neoverse N1[28] 64 32 16 8
Neoverse N2[28] 128 64 16 8
Neoverse V1[28] 256 128 32 16
Intel 3rd Gen Xeon SP[29] 256 64 32
Intel 4th Gen Xeon SP[29] 2048 1024 64 32

Successors[edit]

With code name Poseidon a successor for Neoverse V1 (aka Zeus)[30] was first publicly mentioned on TechCon 2018. Actual introduction (used by third party chip designers in their products) was given in form of a rough target date of 2021. Its initial realization process is said to be 5 nm by TSMC.

References[edit]

  1. ^ "Arm Neoverse".
  2. ^ "Arm Puts Some Muscle Into Future Neoverse Server CPU Designs". 27 April 2021.
  3. ^ "Neoverse V1 - Microarchitectures - ARM - WikiChip".
  4. ^ "Arm Announces Neoverse V1, N2 Platforms & CPUs, CMN-700 Mesh: More Performance, More Cores, More Flexibility".
  5. ^ "Neoverse V1". Retrieved 2023-04-16.
  6. ^ a b "Accelerating the next generation cloud-to-edge infrastructure". Retrieved 2023-04-16.
  7. ^ "Inside Amazon's Graviton3 Arm Server Processor". 4 January 2022.
  8. ^ "Graviton 3: First Impressions". Chips and Cheese. 2022-05-29. Retrieved 2023-09-16.
  9. ^ "Redefining the global computing infrastructure with next-generation Arm Neoverse platforms".
  10. ^ "Neoverse V2". developer.arm.com. Retrieved 2023-09-16.
  11. ^ "NVIDIA Grace CPU and Arm Architecture". NVIDIA. Retrieved 2023-04-16.
  12. ^ "Join the preview for new memory-optimized, AWS Graviton4-powered Amazon EC2 instances (R8g)". AWS. Retrieved 23 December 2023.
  13. ^ "Introducing Google's new Arm-based CPU". Google Cloud Blog. Retrieved 2024-04-10.
  14. ^ "Hot Chips 2023: Arm's Neoverse V2". Chips and Cheese. 2023-09-11. Retrieved 2023-09-16.
  15. ^ a b c d "Arm Announces Neoverse V2 and E2: The Next Generation of Arm Server CPU Cores".
  16. ^ Kennedy, Patrick (2018-10-16). "Arm Neoverse Brand Launched for Infrastructure Servers to Edge". ServeTheHome. Retrieved 2024-02-02.
  17. ^ Frumusanu, Andrei. "Arm Announces Neoverse N1 & E1 Platforms & CPUs: Enabling A Huge Jump In Infrastructure Performance". www.anandtech.com. Retrieved 2020-06-17.
  18. ^ "Arm Launches New Neoverse N1 and E1 Server Cores". WikiChip Fuse. 2019-02-20. Retrieved 2020-06-17.
  19. ^ a b Frumusanu, Andrei. "Arm Announces Neoverse V1, N2 Platforms & CPUs, CMN-700 Mesh: More Performance, More Cores, More Flexibility". www.anandtech.com. Retrieved 2022-05-05.
  20. ^ "Neoverse CSS Fastest Path to Production Silicon - Infrastructure Solutions blog - Arm Community blogs - Arm Community". community.arm.com. 2023-08-28. Retrieved 2023-09-16.
  21. ^ Ltd, Arm. "Neoverse Compute Subsystems". Arm | The Architecture for the Digital World. Retrieved 2023-09-16.
  22. ^ "Arm at HC35 (2023): CSS-Genesis". Chips and Cheese. 2023-09-13. Retrieved 2023-09-16.
  23. ^ Morgan, Timothy Prickett (2023-08-31). "Arm Gets Closer To Creating Full-Blown Server CPU Designs - The Next Platform". www.nextplatform.com. Retrieved 2023-09-16.
  24. ^ https://www.servethehome.com/microsoft-azure-cobalt-100-128-core-arm-neoverse-n2-cpu-launched/
  25. ^ "ARM's Neoverse N2: Cortex A710 for Servers". Chips and Cheese. 2023-08-18. Retrieved 2023-09-16.
  26. ^ Frumusanu, Andrei. "Arm Announces Neoverse V1, N2 Platforms & CPUs, CMN-700 Mesh: More Performance, More Cores, More Flexibility". www.anandtech.com. Retrieved 2023-09-16.
  27. ^ "Arm Announces Neoverse N1 & E1 Platforms & CPUs: Enabling a Huge Jump in Infrastructure Performance".
  28. ^ a b c "Arm Announces Neoverse V1, N2 Platforms & CPUs, CMN-700 Mesh: More Performance, More Cores, More Flexibility". Retrieved 2023-04-16.
  29. ^ a b "Accelerate Artificial Intelligence (AI) Workloads with Intel Advanced Matrix Extensions (Intel AMX)" (PDF). Intel. Retrieved 2023-04-13.
  30. ^ "Poseidon - Microarchitectures - ARM - WikiChip".
Retrieved from "https://en.wikipedia.org/w/index.php?title=ARM_Neoverse&oldid=1220413093"