ARM Cortex-X1

ARM Cortex-X1
General information
Launched	2020
Designed by	ARM Ltd.
Performance
Max. CPU clock rate	to 3.0 GHz in phones and 3.3 GHz in tablets/laptops
Address width	40-bit
Cache
L1 cache	128 KiB (64 KiB I-cache with parity, 64 KiB D-cache) per core
L2 cache	512–1024 KiB per core
L3 cache	512 KiB – 8 MiB (optional)
Architecture and classification
Microarchitecture	ARM Cortex-X1
Instruction set	ARMv8-A: A64, A32, and T32 (at the EL0 only)
Extensions	ARMv8.1-A, ARMv8.2-A, cryptography, RAS, ARMv8.3-A LDAPR instructions, ARMv8.4-A dot product;
Physical specifications
Cores	1–4 per cluster;
Products, models, variants
Product code name	Hera;
Variant	ARM Cortex-A78, ARM Neoverse V1;
History
Successor	ARM Cortex-X2

The ARM Cortex-X1 is a central processing unit implementing the ARMv8.2-A 64-bit instruction set designed by ARM Holdings' Austin design centre as part of ARM's Cortex-X Custom (CXC) program.^[1]^[2]

Design

The Cortex-X1 design is based on the ARM Cortex-A78, but redesigned for purely performance instead of a balance of performance, power, and area (PPA).^[1]

The Cortex-X1 is a 5-wide decode out-of-order superscalar design with a 3K macro-OP (MOPs) cache. It can fetch 5 instructions and 8 MOPs per cycle, and rename and dispatch 8 MOPs, and 16 μOPs per cycle. The out-of-order window size has been increased to 224 entries. The backend has 15 execution ports with a pipeline depth of 13 stages and the execution latencies consists of 10 stages. It also features 4x128b SIMD units.^[3]^[4]^[5]^[6]

ARM claims the Cortex-X1 offers 30% faster integer and 100% faster machine learning performance than the ARM Cortex-A77.^[3]^[4]^[5]^[6]

The Cortex-X1 supports ARM's DynamIQ technology, expected to be used as high-performance cores when used in combination with the ARM Cortex-A78 mid and ARM Cortex-A55 little cores.^[1]^[2]

Architecture changes in comparison with ARM Cortex-A78

Around 20% performance improvement (+30% from A77)^[7]
- 30% faster integer
- 100% faster machine learning performance
Out-of-order window size has been increased to 224 entries (from 160 entries)
Up to 4x128b SIMD units (from 2x128b)
15% more silicon area
5-way decode (from 4-way)
8 MOPs/cycle decoded cache bandwidth (from 6 MOPs/cycle)
64 KB L1D + 64 KB L1I (from 32/64 KB L1)
Up to 1 MB/core L2 cache (from 512 KB/core max)
Up to 8 MB L3 cache (from 4 MB max)

Licensing

The Cortex-X1 is available as SIP core to partners of their Cortex-X Custom (CXC) program, and its design makes it suitable for integration with other SIP cores (e.g. GPU, display controller, DSP, image processor, etc.) into one die constituting a system on a chip (SoC).^[1]^[2]

Usage

Samsung Exynos 2100^[8]
Qualcomm Snapdragon 888(+)^{[broken anchor]}^[9]
Google Tensor^[10]

References

^ ^a ^b ^c ^d "Introducing the Arm Cortex-X Custom program". community.arm.com. Retrieved 2020-06-18.
^ ^a ^b ^c Ltd, Arm. "Cortex-X Custom CPU program". Arm | The Architecture for the Digital World. Retrieved 2020-06-18.
^ ^a ^b Frumusanu, Andrei. "Arm's New Cortex-A78 and Cortex-X1 Microarchitectures: An Efficiency and Performance Divergence". www.anandtech.com. Retrieved 2020-06-18.
^ ^a ^b "Arm Cortex-X1: The First From The Cortex-X Custom Program". WikiChip Fuse. 2020-05-26. Retrieved 2020-06-18.
^ ^a ^b McGregor, Jim. "Arm Unleashes CPU Performance With Cortex-X1". Forbes. Retrieved 2020-06-18.
^ ^a ^b "Arm Cortex-X1 and Cortex-A78 CPUs: Big cores with big differences". Android Authority. 2020-05-26. Retrieved 2020-06-18.
^ "Cortex-X1 – Microarchitectures – ARM – WikiChip". en.wikichip.org. Retrieved 2021-02-13.
^ "Exynos 2100 5G Mobile Processor: Specs, Features | Samsung". Samsung Semiconductor. Retrieved 2021-01-13.
^ "Qualcomm Snapdragon 888 5G Mobile Platform | Latest 5G Snapdragon Processor | Qualcomm". www.qualcomm.com. Retrieved 2021-01-13.
^ Amadeo, Ron (2021-10-19). "The "Google Silicon" team gives us a tour of the Pixel 6's Tensor SoC". Ars Technica.

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[:0-1] "Introducing the Arm Cortex-X Custom program". community.arm.com. Retrieved 2020-06-18.

[:1-2] Ltd, Arm. "Cortex-X Custom CPU program". Arm | The Architecture for the Digital World. Retrieved 2020-06-18.

[:2-3] Frumusanu, Andrei. "Arm's New Cortex-A78 and Cortex-X1 Microarchitectures: An Efficiency and Performance Divergence". www.anandtech.com. Retrieved 2020-06-18.

[:3-4] "Arm Cortex-X1: The First From The Cortex-X Custom Program". WikiChip Fuse. 2020-05-26. Retrieved 2020-06-18.

[:4-5] McGregor, Jim. "Arm Unleashes CPU Performance With Cortex-X1". Forbes. Retrieved 2020-06-18.

[:5-6] "Arm Cortex-X1 and Cortex-A78 CPUs: Big cores with big differences". Android Authority. 2020-05-26. Retrieved 2020-06-18.

[7] "Cortex-X1 – Microarchitectures – ARM – WikiChip". en.wikichip.org. Retrieved 2021-02-13.

[8] "Exynos 2100 5G Mobile Processor: Specs, Features | Samsung". Samsung Semiconductor. Retrieved 2021-01-13.

[9] "Qualcomm Snapdragon 888 5G Mobile Platform | Latest 5G Snapdragon Processor | Qualcomm". www.qualcomm.com. Retrieved 2021-01-13.

[10] Amadeo, Ron (2021-10-19). "The "Google Silicon" team gives us a tour of the Pixel 6's Tensor SoC". Ars Technica.

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Design

Architecture changes in comparison with ARM Cortex-A78

Licensing

Usage

See also

References