ARM Cortex-A55

Last updated
ARM Cortex-A55
General information
Launched2017
Designed by ARM Holdings
Performance
Max. CPU clock rate 1.25 GHz [1]   to 2.31 GHz [1]  
Cache
L1 cache 32–128  KB (16–64 KB I-cache with parity, 16–64 KB D-cache) per core
L2 cache64–256 KB
L3 cache512 KB – 4 MB
Architecture and classification
ApplicationMobile
Instruction set ARMv8.2-A
Physical specifications
Cores
  • 1–8 per cluster, multiple clusters
Products, models, variants
Product code name(s)
  • Ananke
History
Predecessor(s) ARM Cortex-A53
Successor(s) ARM Cortex-A510

The ARM Cortex-A55 is a central processing unit implementing the ARMv8.2-A 64-bit instruction set designed by ARM Holdings' Cambridge design centre. The Cortex-A55 is a 2-wide decode in-order superscalar pipeline. [2]

Contents

Design

The Cortex-A55 serves as the successor of the ARM Cortex-A53, designed to improve performance and energy efficiency over the A53. [3] ARM has stated the A55 should have 15% improved power efficiency and 18% increased performance relative to the A53. Memory access and branch prediction are also improved relative to the A53.

The Cortex-A75 and Cortex-A55 cores are the first products to support ARM's DynamIQ technology. [4] [5] The successor to big.LITTLE, this technology is designed to be more flexible and scalable when designing multi-core products.

Licensing

The Cortex-A55 is available as SIP core to licensees, 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).

ARM has also collaborated with Qualcomm for a semi-custom version of the Cortex-A55, used within the Kryo 385 CPU core. [6] This semi-custom core is also used in some Qualcomm's mid-range SoCs as Kryo 360 Silver and Kryo 460 Silver.

Usage

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The ARM Cortex-A77 is a central processing unit implementing the ARMv8.2-A 64-bit instruction set designed by ARM Holdings' Austin design centre. ARM announced an increase of 23% and 35% in integer and floating point performance, respectively. Memory bandwidth increased 15% relative to the A76.

The ARM Cortex-A78 is a central processing unit implementing the ARMv8.2-A 64-bit instruction set designed by ARM Ltd.'s Austin centre.

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The ARM Cortex-X2 is a central processing unit implementing the ARMv9-A 64-bit instruction set designed by ARM Holdings' Austin design centre as part of ARM's Cortex-X Custom (CXC) program.It forms part of Arm's Total Compute Solutions 2021 (TCS21) along with Arm's Cortex-A710, Cortex-A510, Mali-G710 and CoreLink CI-700/NI-700.

The ARM Cortex-A520 is a "little" CPU core model from Arm unveiled in TCS23 it serves as a successor to the CPU core ARM Cortex-A510. The Cortex-A500 CPU cores series generally focus on high efficiency, the CPU core can be paired with the other CPU cores in its family like ARM Cortex-A720 or/and Cortex-X4 in a CPU cluster.

The ARM Cortex-A720 is a CPU core model from Arm unveiled in TCS23, it serves as a successor of the CPU core ARM Cortex-A715, Cortex-A700 CPU cores series generally focus on high performance and efficiency, the CPU core can be paired with other cores in its family like ARM Cortex-X4 or/and ARM Cortex-A520 in a CPU cluster. It can be used as either "big" or "LITTLE".

References

  1. 1 2 Mike Demler (July 3, 2018). SC9863 Is First Cortex-A55 Octa-Core (Report). The Linley Group . Retrieved February 16, 2022.
  2. "Cortex-A55". Cortex-A55. ARM Holdings. Retrieved 10 July 2017.
  3. Triggs, Robert (31 May 2017). "A closer look at ARM's new Cortex-A75 and Cortex-A55 CPUs". Android Authority. Retrieved 10 July 2017.
  4. Humrick, Matt (29 May 2017). "Exploring Dynamiq and ARM's New CPUs". Anandtech. Retrieved 10 July 2017.
  5. Savov, Vlad (29 May 2017). "ARM's new processors are designed to power the machine-learning machines". The Verge. Retrieved 10 July 2017.
  6. Frumusanu, Andrei (6 December 2017). "Qualcomm Announces Snapdragon 845 Mobile Platform". Anandtech. Retrieved 7 December 2017.
  7. Mark van der Zalm. "Intel® Agilex™ D-Series FPGA White Paper". Intel. Retrieved 2022-10-20.
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