The Most Advanced Chip, Ranked

Voting rules: Choose the chip you think is the most advanced!

Updated on Apr 23, 2024 06:18

In the dynamic world of technology, determining which semiconductor chips lead the pack can significantly impact both consumer choices and industry advances. As new chips are developed, integrating enhanced capabilities and improved efficiency, keeping track of the top performers helps guide decisions for developers, manufacturers, and tech enthusiasts alike. This constantly updated ranking reflects current trends and technological breakthroughs, providing a snapshot of industry leadership in chip technology. By participating in the voting process, users contribute to a community-driven assessment of what makes a chip stand out in the crowded tech marketplace. Your votes help in shaping an accurate and democratic ranking, reflecting not only technical specifications but also user satisfaction and real-world performance. This interaction ensures that the list remains relevant and comprehensive, making it an essential tool for anyone involved in the technology sector.

What Is the Most Advanced Chip?

1

25
votes
IBM z15 chip

IBM

This chip is designed for enterprise-level computing and is the most powerful chip ever made. It has the ability to handle massive amounts of data and is used in high-performance computing applications.
The IBM z15 chip is a highly advanced microprocessor designed for mainframe computers. It offers unparalleled performance, security, and scalability for enterprise computing environments.

Microarchitecture: Pipelined out-of-order execution

Process Technology: 7nm

Clock Speed: Up to 5.2 GHz

Number of Cores: up to 190 cores

Cache Memory: Up to 1.5 TB
2

42
votes
NVIDIA A100 chip

NVIDIA Corporation

The A100 is the most advanced GPU chip ever created and is used in high-performance computing applications such as AI, machine learning, and deep learning. It offers unparalleled performance and is designed for use in data centers.
The NVIDIA A100 chip is a powerful and highly advanced GPU accelerator specifically designed for artificial intelligence (AI) workloads. It offers superior performance, scalability, and efficiency, making it the world's most advanced data center GPU.

Architecture: NVIDIA Ampere

Process Technology: 7nm

Tensor Cores: 6912

GPU Memory: 40 GB HBM2

Memory Bandwidth: 1.6 TB/s
3

31
votes
Intel Xeon Platinum 9200 series

Intel Corporation

This chip is designed for high-performance computing applications and offers extreme processing power. It is used in data centers and offers advanced features such as Intel Deep Learning Boost.
The Intel Xeon Platinum 9200 series is a highly advanced chip designed for demanding workloads in the data center. It offers exceptional performance, scalability, and reliability for mission-critical applications.

Socket: LGA 4189

Processor Cores: Up to 56

Threads: Up to 112

Clock Speed: Up to 3.8 GHz

Cache: Up to 77.5MB
4

8
votes
AMD Ryzen Threadripper 3990X

Advanced Micro Devices (AMD)

This chip is designed for extreme performance and is used in high-performance computing applications such as gaming and video editing. It offers 64 cores and 128 threads, making it one of the most powerful consumer-level CPUs on the market.
The AMD Ryzen Threadripper 3990X is a high-performance desktop processor designed for demanding workloads and content creation tasks. It offers an exceptional level of processing power and efficiency, making it an ideal choice for professionals who require massive multi-threaded performance. With its impressive specifications and advanced architecture, the Threadripper 3990X sets new standards in the world of desktop computing.

Cores/Threads: 64 cores / 128 threads

Base Clock Speed: 2.9 GHz

Max Boost Clock Speed: 4.3 GHz

Cache: 288MB Total Cache

TDP: 280W
AMD Ryzen Threadripper 3990X in other rankings
- Position 1 of 10 in Most advanced CPU
- Position 4 of 10 in Most popular AMD CPU
5

14
votes
Qualcomm Snapdragon 888

Qualcomm

This chip is designed for use in smartphones and offers advanced features such as 5G connectivity, AI processing, and improved camera capabilities. It is considered one of the most advanced smartphone chips on the market.
The Qualcomm Snapdragon 888 is a highly advanced system-on-a-chip (SoC) designed for mobile devices. It is the flagship chipset offered by Qualcomm for smartphones and other high-performance devices.

CPU: Octa-core Kryo 680 processor

GPU: Adreno 660

Manufacturing Process: 5nm

5G Modem: Qualcomm X60 Modem-RF System

Artificial Intelligence: 6th generation Qualcomm AI Engine
Qualcomm Snapdragon 888 in other rankings
- Position 7 of 10 in Most advanced CPU
6

5
votes
Henriok · CC0

Apple M1 chip

Apple Inc.

This chip is designed for use in Apple's Mac computers and offers advanced features such as improved battery life, faster performance, and better security. It is considered one of the most advanced chips for Mac computers.
The Apple M1 chip is a highly advanced system-on-a-chip (SoC) designed by Apple Inc. It is the first chip in Apple's M series lineup, specifically developed for Mac computers, and it represents a major shift from Intel-based processors to Apple's in-house ARM-based technology. This chip brings significant improvements in performance, power efficiency, and integration of various components.

Architecture: ARM-based

Process: 5nm

CPU Cores: 8-core

GPU: 8-core

Neural Engine: 16-core
7

5
votes
Google Tensor Processing Unit (TPU)

Google

The TPU is a custom-built chip designed for use in Google's data centers. It is used for machine learning and offers advanced processing power and efficiency.
The Google Tensor Processing Unit (TPU) is a custom-built application-specific integrated circuit (ASIC) developed by Google specifically for machine learning tasks. It is designed to efficiently accelerate and execute various neural network algorithms, making it an advanced chip for artificial intelligence workloads.

Architecture: Highly parallel

Compute capability: Numerical operations at an unprecedented rate

Performance: Delivers high throughput and low latency

Power efficiency: Designed to optimize energy consumption

Memory capacity: Large on-chip memory
8

4
votes
Xilinx Versal ACAP

Xilinx

This chip is designed for use in data centers and offers advanced features such as AI processing, high-speed networking, and software-defined hardware acceleration. It is considered one of the most advanced chips for data center applications.
The Xilinx Versal ACAP is a highly advanced chip that combines the capabilities of FPGA, CPU, and AI engines into a single device. It is designed to deliver exceptional performance, flexibility, and scalability for a wide range of applications.

Adaptive Compute Acceleration Platform (ACAP): Integrating FPGA, CPU, and AI engines

High Performance: Delivers breakthrough performance with specialized engines

Flexibility: Programmable logic allows customization for various workloads

Scalability: Supports a range of sizes and configurations to fit specific requirements

AI Acceleration: Optimized for AI inferencing and training applications
9

14
votes
Fujitsu A64FX

Fujitsu

This chip is designed for use in high-performance computing applications and offers advanced features such as AI processing and high-speed networking. It is considered one of the most advanced chips for scientific computing.
The Fujitsu A64FX is a highly advanced and powerful central processing unit (CPU) designed for supercomputing applications. It is the world's first CPU to adopt the Armv8-A SVE (Scalable Vector Extension) architecture, making it capable of delivering extraordinary computing performance. With its innovative design and impressive specifications, the A64FX is set to revolutionize high-performance computing.

Architecture: Armv8-A SVE

Cores: 48

Clock Speed: 2.2 GHz

Vector Units Per Core: 2

Memory Bandwidth: 1 TB/s
Fujitsu A64FX in other rankings
- Position 10 of 10 in Most advanced CPU
10

7
votes
ARM Cortex-A78C

ARM Holdings

This chip is designed for use in smartphones and offers advanced features such as improved AI processing and better graphics performance. It is considered one of the most advanced chips for mobile devices.
The ARM Cortex-A78C is a highly advanced and powerful chip designed for high-performance computing devices such as laptops and mobile workstations. It offers enhanced processing capabilities and power efficiency, making it suitable for demanding applications and multitasking scenarios.

Architecture: ARMv8.2-A

CPU Cores: Up to 8 cores

Clock Speed: Up to 3 GHz per core

Cache: 8 MB shared L3 cache

Fabrication Process: 7nm or smaller

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Ranking factors for advanced chip

Processing Power

The number of transistors, processing cores, and clock speed all contribute to the chip's overall processing power. A higher number of transistors, more processing cores, and faster clock speeds typically indicate a more advanced and powerful chip.
Energy Efficiency

The chip's ability to perform at high levels while consuming less power is a crucial factor. Lower power consumption leads to longer battery life in devices and lower operating costs, making energy-efficient chips more desirable.
Manufacturing Process

The process used to manufacture the chip, measured in nanometers, indicates the size of the transistors and the level of miniaturization achieved. Smaller manufacturing processes allow for more transistors per chip, increasing performance and reducing power consumption.
Architectural Design

The architecture, or design, of the chip can significantly impact its performance, energy efficiency, and overall capability. Advanced architectures can leverage more parallelism, execute more instructions per cycle, and offer support for new technologies and algorithms.
Graphics and AI Capabilities

Superior graphics processing and AI capabilities should be taken into account as they result in better performance for visual and machine learning tasks. This includes support for advanced rendering techniques, AI hardware acceleration, and neural network processing capabilities.
Memory and Interconnect Technologies

The chip's memory capacity, memory bandwidth, and data transfer speeds between components and external devices significantly impact its overall performance. Advanced chips should offer support for cutting-edge memory and interconnect technologies.
Security Features

A more advanced chip should have built-in security features that protect against potential threats, secure user data, and minimize vulnerabilities. This includes hardware-based encryption and secure enclave or trusted execution environments.
Compatibility and Ecosystem Support

A chip's compatibility with various operating systems, software, and overall ecosystem is essential for its adoption into various devices and platforms. The more support a chip has from the industry, the more advanced and versatile it is.
Scalability and Customizability

Advanced chips should be designed to scale up or down in performance and capabilities depending on the needs of specific applications and devices. Customizability options, such as hardware configurability and software-based performance tuning, should also be taken into account.
Market Adoption and Industry Influence

A chip's widespread adoption by device manufacturers, developers, and consumers can indicate its advanced nature and overall impact on the industry. A chip with broad support and utilization is more likely to be at the forefront of technological advancements.

About this ranking

This is a community-based ranking of the most advanced chip. We do our best to provide fair voting, but it is not intended to be exhaustive. So if you notice something or chip is missing, feel free to help improve the ranking!

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Voting Rules

A participant may cast an up or down vote for each chip once every 24 hours. The rank of each chip is then calculated from the weighted sum of all up and down votes.

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More information on most advanced chip

In today's fast-paced digital age, technology is advancing at an unprecedented rate. One of the most important components of modern technology is the microchip, which is the brain of electronic devices. The term "chip" refers to a small, flat piece of semiconductor material that contains millions of transistors, capacitors, and other electronic components. Over the years, chip technology has evolved significantly, with each new generation bringing more power and faster speeds. Today, the most advanced chips are manufactured using cutting-edge techniques and materials, and are capable of performing complex tasks in a fraction of the time it would take older chips to complete the same task. These advanced chips are used in everything from smartphones and laptops to supercomputers and data centers, and are a key driver of innovation and progress in the tech industry.