Fusion chip: Apple A10 Fusion: specs and benchmarks

Apple A10 Fusion: specs and benchmarks

Apple A10 Fusion – an 4-core chipset that was announced on September 7, 2016, and is manufactured using a 16-nanometer process technology. It has 2 cores Hurricane at 2340 MHz and 2 cores Zephyr at 1050 MHz.

CPU Performance

39

Gaming Performance

30

Battery life

49

NanoReview Score

40

Benchmarks

Performance tests in popular benchmarks

AnTuTu 9

The AnTuTu Benchmark measures CPU, GPU, RAM, and I/O performance in different scenarios

Apple A10 Fusion

303653

CPU	94017
GPU	97270
Memory	40393
UX	72866
Total score	303653

▶️ Submit your AnTuTu result

GeekBench 5

The GeekBench test shows raw single-threaded and multithreaded CPU performance

Single-Core Score

771

Multi-Core Score

1398

Image compression	65. 95 Mpixels/s
Face detection	12.5 images/s
Speech recognition	27.5 words/s
Machine learning	29.55 images/s
Camera shooting	15.3 images/s
HTML 5	1.83 Mnodes/s
SQLite	426.85 Krows/s

3DMark

A cross-platform benchmark that assesses graphics performance in Vulkan (Metal)

3DMark Wild Life Performance

2645

Stability	67%
Graphics test	15 FPS
Score	2645

Click on the device name to view detailed information

Phones with A10 Fusion	AnTuTu v9
1. Apple iPhone 7 Plus	310302
2. Apple iPhone 7	299014

Specifications

Detailed specifications of the A10 Fusion SoC with PowerVR GT7600 graphics

Architecture	2x 2.34 GHz – Hurricane 2x 1.05 GHz – Zephyr
Cores	4
Frequency	2340 MHz
Instruction set	ARMv8-A
L1 cache	64 KB
L2 cache	3 MB
L3 cache	4 MB
Process	16 nanometers
Transistor count	3.3 billion
TDP	5 W

Graphics

GPU name	PowerVR GT7600
Architecture	Rogue
GPU frequency	900 MHz
Execution units	6
Shading units	196
FLOPS	115 Gigaflops
Vulkan version	1. 0
OpenCL version	2.0
DirectX version	12

Memory

Memory type	LPDDR4
Max size	3 GB

Multimedia (ISP)

Neural processor (NPU)	No
Storage type	NVMe
Max display resolution	2048 x 1536
Max camera resolution	1x 32MP, 2x 12MP
Video capture	4K at 60FPS
Video playback	4K at 60FPS
Video codecs	H.264, H.265, VC-1, Motion JPEG
Audio codecs	AAC, AIFF, CAF, MP3, MP4, WAV

Connectivity

Modem	Qualcomm MDM9645M
4G support	LTE Cat. 12
5G support	No
Download speed	Up to 600 Mbps
Upload speed	Up to 100 Mbps
Wi-Fi	5
Bluetooth	4.2
Navigation	GPS, GLONASS, Beidou, Galileo

Announced	September 2016
Class	Flagship

Comparison with competitors

1.
Apple A12 Bionic vs Apple A10 Fusion

2.
Apple A13 Bionic vs Apple A10 Fusion

3.
Apple A14 Bionic vs Apple A10 Fusion

4.
Apple A15 Bionic vs Apple A10 Fusion

▶️ Compare other chipsets

In Situ TEM Electrothermal Analysis: Fusion

In Situ TEM Electrothermal Analysis

Fusion Select transforms your TEM into an in-situ laboratory using the flexibility of MEMS-based E-chips that deliver accurate, precise experimental conditions. Capable of sourcing and measuring picoamp level electrical signals and swift temperature changes up to 1200 °C, Fusion Select electrothermal analysis offers unmatched versatility and capability, accelerating results.

Bibliography

See how researchers utilized Fusion to publish results in peer-reviewed journals.

View

System Media

Take a look at real sample images and videos acquired with the Fusion system.

Learn more

Library

Browse our library of Application notes or learn about sample preparation tips and tricks.

Learn more

Fully Upgradeable

Fusion Select redefines in situ heating and electrical characterization. Select the system configuration that meets your needs today, and easily upgrade to add new features and capabilities as your research needs expand. Fusion Select is a completely configurable product, including double-tilt, electrical and electrothermal capabilities

Tilt With Confidence

Fusion Select’s unique beta tilt design ensures temperature and electrical current remain stable while tilting samples. The E-chip and contacts tilt together, up to +/-20°, so you can find the zone axis of your sample quickly and precisely even at high temperatures.

Performance Without Compromise

EDS: Fusion Select’s low profile tip design ensures you get unparalleled access to high count x-rays to your multidetector EDS arrays, even at zero degree tilt.

Electrical Characterization: Maintain accurate heating with your electrical experiments. Now with more electrical contacts and a newly designed electrothermal E-chip, Fusion Select allows you the flexibility to perform a variety of electrothermal experiments.

Featured News

• 
  
  
  
  News
  
  
  In situ TEM investigation…Oct. 17, 2022
• 
  
  
  
  News
  
  
  Metal Monolayers on Comma…Oct. 17, 2022
• 
  
  
  
  News
  
  
  Observing resistive switc…Oct. 17, 2022
• 
  
  
  
  News
  
  
  Operando Resonant Soft X-…Oct. 17, 2022
• 
  
  
  
  News
  
  
  Formation and Control of …Oct. 17, 2022

View All

TEM Electrothermal System Components

Every Protochips in situ solution is driven by Clarity workflow-driven software, using a wide variety of MEMS-based E-chips and accessories to best fit your research needs. All of these components are fully approved by the major microscope manufacturers to meet their rigorous standards for safety, compatibility, and reliability.

Learn more

Testimonial

“The temperature drift stability of the Fusion holder is really impressive. We were able to perform spectrum imaging continuously for four hours while heating the sample over 500 degrees C, completely hands-off!”

— Dr. Thomas Aarholt, University of Oslo

Watch

Want the brochure?

Learn more about the capabilities, functionality, and construction about this product including specifications, certifications, and the variations we offer.

Download

Return to products

Fusion is just one of our in situ solutions. Browse our other products to learn more about how we can best serve your needs.

Return to all products

China has created the world’s first 512-core processor. Intel and AMD are far behind

Technology

26 July 2021 14:04 26 July 2021 14:04

|

Share

In China, Ziguang created a unique chip with more than 500 computing cores. Its mass production will begin in 2022 on a 7-nanometer topology. In Intel processors, the number of cores does not exceed 56, AMD is working on a 128-core chip, while Ziguang has a 256-core CPU.

China ahead of everyone else

The Chinese company Ziguang announced the world’s first processor with more than 500 cores. According to the HardwareTimes portal, it was named h4C Engiant 800.

HardwareTimes does not list the exact number of cores in the h4C Engiant 800. With a high degree of probability, there will be 512.

Ziguang is part of the Tsinghua Unigroup holding, which also includes the world famous companies Unisoc (develops mobile processors) and Yangtze Memory (develops memory chips). As CNews reported, in July 2021, this holding was on the verge of bankruptcy due to huge debts to creditors.

Engiant 660 — the previous generation of the processor. It contains 256 cores and 18 billion transistors

It is not yet clear who will release the new processor, since Tsinghua Unigroup does not have its own factories. It is only known that its production will use a 7-nanometer topology, one of the most modern as of July 2021.

Processor Assignment

During the presentation of the h4C Engiant 800, the developers talked about the fact that there will be 40 billion transistors inside this processor. This will allow it to perform several hundred operations per second without the risk of performance degradation. What architecture this chip is based on will become known closer to the start of its production.

At the same time, h4C Engiant 800 will not be used as part of computers, smartphones or other user equipment. According to the developers, this processor is a solution for network equipment and data processing in fifth generation networks (5G). It is also suitable for performing calculations related to artificial intelligence.

The mass production of h4C Engiant 800 processors is scheduled for 2022. From a technical point of view, this is feasible, since the largest chip manufacturers (Samsung and TSMC) have long mastered 7-nanometer standards. The h4C Engiant 800 will fall into the hands of potential buyers even earlier — the first test batches will roll off the assembly line before the end of 2021.

Developer not installed

At the time of publication of the material, there was no reliable information about which company from the Tsinghua Unigroup holding had a hand in creating the processor. This holding includes several IT companies, including the mentioned Unisoc, which produces mobile chips, and Unisplendour Corporation, a manufacturer of infrastructure for cloud computing. In May 2016, the company entered into a joint venture with HP to provide data center equipment and IT services.

The main audience of the company’s clients are enterprises from the public sector, and the company itself is called the h4C Group. Whether it has anything to do with the new h4C Engiant 800 processor, the developers do not specify. Unisplendour holds a 51 percent stake in it.

Multi-core predecessor

The h4C Engiant 800 has, in a way, a predecessor that was mentioned during the presentation. This is a less modern chip in terms of production technology, but it is also almost a record holder in terms of the number of cores.

Drones, robots and VR: what innovations are in demand in metallurgy

Industry innovation

This processor is called h4C Engiant 600. It has 256 cores and 18 billion transistors, and is currently used in telecommunications equipment on which Chinese telecom operators build their networks.

The difference between the two H3C Engiant processors is more than obvious

According to HardwareTimes, the performance of the upcoming h4C Engiant 800 will be 122% higher than the h4C Engiant 600. The new processor will open a line of ZhiQing chips designed for network equipment.

The

h4C Engiant 600 is a 16nm processor. In 2021, this process technology is obsolete. For comparison, even Intel is betting on 14 and 10 nm, AMD is preparing to move from 7 nm to 5 nm, and mobile chip developers, including Apple and Qualcomm, are using 5 nm with might and main.

Competitors fall behind

512 and even 256 cores are still unattainable figures for either Intel or AMD. Other companies also cannot yet offer their partners processors with such an impressive number of cores. For example, Ampere, founded by the ex-president of Intel, announced its first 128-core solutions in March 2021.

New rules for accreditation and tax benefits for IT companies: what you need to know

IT industry support

AMD has so far settled on 64 cores in its Epyc 7003 server processor, which debuted in March 2021. However, 128-core models may also be present in the next generation of chips in this series, according to NeoWin. Intel, for its part, is preparing to release a new generation of 56-core server Xeons, writes the WCCFTech portal.

• Which is better — GLONASS or GPS: the main differences between navigation systems

Elyas Kasmi

for the flagship 64-core chip they will ask for $5500

3DNews Technologies and IT market. News processors AMD named prices for Threadrip processors… The most interesting in the reviews 01/27/2021 [14:01], Nikolai Khizhnyak AMD recently announced that its high-performance HEDT Threadripper Pro processors, which were exclusively sold for a year only as part of the Lenovo ThinkStation P620 workstations, will be available at retail as separate offers. Their release is expected by March 2021. Meanwhile, AMD has announced their official recommended prices. Recall that the Threadripper Pro 3000 series chips exist within the sWRX8 platform, which is distinguished by support for eight-channel DDR4 memory (both conventional UDIMMs, RDIMMs and LRDIMMs) and 128 PCIe 4.0 lanes, respectively, instead of four memory channels and 64 PCIe 4.0 lanes with conventional Threadripper. The expansion of memory controllers and PCIe 4.0 is due to the use of a full-featured I / O chiplet from EPYC (Rome generation) processors in Threadripper Pro. The manufacturer recommends $5489 for the flagship 64-core and 128-thread Threadripper Pro 3995WX model, $2749 for the 32-core and 64-thread Threadripper Pro 3975WX model, and $1149 for the 16-core and 32-thread Threadripper Pro 3955WX model. According to Tom’s Hardware, chips have already begun to appear in the database of various retailers, but at higher prices. For example, the Compusource store priced the first at $6086, the second at $3043, and the third at $1253. Thus, the 64-core Threadripper Pro model in retail terms is estimated at about $ 2100 more than the 64-core Threadripper 3990X, and the 32-core model is $1,000 more expensive than the 32-core Threadripper 3970X. There are no 16-core processors in the regular Threadripper series, so the Threadripper Pro 3955WX can only be compared with the flagship consumer 16-core Ryzen 9 5950X. The former is $454 more expensive than the latter, but offers support for four times more memory channels and 108 more PCIe 4.0 lanes. True, for him you have to buy a special motherboard. Some manufacturers, including ASUS and Gigabyte, have already introduced them. It is worth noting that these prices are much lower than those announced by Lenovo in the event of a platform change from conventional Threadripper to the new Threadripper Pro. For example, when upgrading from a 12-core Threadripper 3945WX to a new 64-core Threadripper Pro 3995WX, Lenovo is asking $7,000. Source: If you notice an error, select it with the mouse and press CTRL+ENTER.