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1. Introduction

As mentioned here, we will focus on the following classes of CPUs:

  • x86 & arm (dominant architectures in laptops, desktops & cloud computing)
  • 64-bit architectures only
  • CPUs released in the last 5-10yr, with higher emphasis on more recent models
  • we focus on performance / balanced core microarchitectures, i.e. we explicitly do not consider efficiency cores

2. Scope of Architectures

2.1. x86

We can safely restrict ourselves to Intel & AMD processors, as these comprise the majority of x86 processors across various segments.

2.1.1. Intel

  • https://en.wikipedia.org/wiki/List_of_Intel_CPU_microarchitectures
  • https://en.wikipedia.org/wiki/List_of_Intel_Core_processors

In general, we focus on those micro-architectures that are not mobile-only and preferably are used in server processors.

Released Microarchitecture Desktop / Mobile CPU Server CPU Included?
2017 Coffee Lake Core i - 8th gen: Coffee Lake
Core i - 9th gen: Coffee Lake Refresh
/ V
2018 Palm Cove Core Mobile i - 9th gen: Cannon Lake /
2019 Sunny Cove
Cypress Cove (14nm backport)
Core Mobile i - 10th gen: Ice Lake
Core i - 11th gen: Rocket Lake
Xeon Scalable - 3rd gen: Ice Lake-SP V
2020 Willow Cove
(mostly a Sunny Cove process update)
Core Mobile i - 11th gen: Tiger Lake /
2021 Golden Cove Core i - 12th gen: Alder Lake (P cores) Xeon Scalable - 4th gen: Sapphire Rapids V
2022 Raptor Cove
(~Golden Cove refresh)
Core i - 13th gen: Raptor Lake (P cores)
Core i - 13th gen: Raptor Lake Refresh (P cores)
Xeon Scalable - 5th gen: Emerald Rapids V
2023 Redwood Cove
(~Raptor Cove refresh) (1)
Core 1 Ultra: Meteor Lake (P cores) Xeon 6: Granite Rapids V
2024 Lion Cove Core 2 Ultra: Arrow Lake & Lunar Lake (P cores) / (2)

Notes:

  • (1) but with improvements to FPU multiplication latencies
  • (2) no server variants announced at the time of writing.

2.1.2. AMD

  • https://en.wikipedia.org/wiki/Zen_(microarchitecture)

  • https://en.wikipedia.org/wiki/Epyc

Released Generation Desktop / Mobile CPU Server CPU Included ?
2017 Zen 1
Zen 1+
Ryzen 1000
Ryzen 2000
Epyc 7001 V
2019 Zen 2 Ryzen 3000
Ryzen 4000
Epyc 7002
2020 Zen 3 Ryzen 5000
Ryzen 6000
Epyc 7003 V
2022 Zen 4 Ryzen 7000
Ryzen 8000
Epyc 4004/8004/9004 V
2024 Zen 5 Ryzen 9000 Epyc 4005/9005 V

2.2. ARM

2.2.1. Approach

The ARM eco-system is a bit different, with not just the ISA being shared, but also ARM being a licenser of core designs, that licensee can reuse as is, tweak to their specific needs or change heavily if so desired.

As such we will make an initial rough classification based on the version of the ARM ISA and potentially split up further depending on available information, testable instances, etc...

Due to the aforementioned focus on 64-bit architectures, we will restrict this analysis to cores implementing the ARM v8 or higher and supporting a 64-bit mode (AARCH64 Execution State).Restricting ourselves further to architectures introduced in the last ±10 years, we will focus on ARM v8.2-A or higher, as this ISA was introduced in 2016.

Released ARMv8 ARMv9
2016-01 ARMv8.2-A
2016-10 ARMv8.3-A
2017-11 ARMv8.4-A
2018-09 ARMv8.5-A
2019-06 ARMv8.6-A
2020-09 ARMv8.7-A
2021-03 ARMv9-A
2021-09 ARMv8.8-A ARMv9.3-A
2022-09 ARMv8.9-A ARMv9.4-A (1)
2023-10 ARMv9.5-A (1)
2024-10 ARMv9.6-A (1)

Notes:

  • (1) at the time of writing no chips have been released with support for these ISA levels.

Finally, since the ARM microarchitecture is used over a wide range of devices from low-power embedded chips to high-performance HPC servers, we will restrict ourselves to ARM cores that are classified as either 'performance' or 'balanced', but will consider 'efficiency' and similar cores as out-of-scope.

More background:

  • https://en.wikipedia.org/wiki/Comparison_of_ARM_processors
  • https://en.wikipedia.org/wiki/AArch64

2.2.2. Overview of most common cores & chips

A. ARM core designs

ARM Core Design ARM ISA level Used in chips...
ARM Cortex A76 V8.2-A
ARM Cortex X1 v8.2-A
ARM Cortex X2 v9.0-A
ARM Cortex X3 v9.0-A
ARM Cortex X4 v9.2-A
ARM Cortex X925 v9.2-A
ARM Cortex C1-Ultra v9.3-A
ARM Neoverse N1 v8.2-A AWS Graviton 2
ARM Neoverse N2 v9.0-A
ARM Neoverse V1 v8.4-A AWS Graviton 3
ARM Neoverse V2 v9.0-A AWS Graviton 4
ARM Neoverse V3 v9.2-A

B. Other

CPU ARM ISA level
Apple M1 v8.4-A
Apple M2 v8.6-A
Apple M3 v8.6-A
Apple M4 v9.2-A

2.2.3. Selected cores & data sources

As indicated before, we'll make high-level split between the different ISA levels that are found in current & recent CPUs. Note, that ISA level by itself does not necessarily impose latency specifications for certain instructions, but it can be used as a proxy for the 'recency' & 'complexity' of a given chip.

ARM ISA Level Data source Cores / Chips considered
V8.x (>=v8.2) → specs
→ benchmarks
→ A76, X1, N1, V1
→ Apple M3, AWS Graviton 2, AWS Graviton 3
V9.0 → specs
→ benchmarks
→ X2, X3, N2, V2
→ AWS Graviton 4
V9.2 → specs
→ benchmarks
→ X4, X925, V3
→ Apple M4