Smart Railways - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)

Neuromorphic Chip - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)


The Neuromorphic Chip Market size is estimated at USD 0.16 billion in 2024, and is expected to reach USD 5.83 billion by 2029, growing at a CAGR of 104.70% during the forecast period (2024-2029).

The increasing use of biometrics and in-speech recognition drives the demand for neuromorphic chips in smartphones. These chips are used to process audio data in the cloud and then return it to the phone. In addition, Artificial Intelligence (AI) requires more computing power, but low-energy neuromorphic computing could significantly push applications that run presently in the cloud to run directly in the smartphone in the future without substantially draining the phone battery.

Neuromorphic is a specific brain-inspired ASIC that implements the Spiked Neural Networks (SNNs). On average, it has an object that can reach a massively parallel brain processing ability in tens of watts. The memory and the processing units are in single abstraction (in-memory computing).

This leads to the advantage of dynamic, self-programmable behavior in complex environments. Instead of traditional bit-precise computing, neuromorphic hardware leads to the probabilistic models of simple, reliable, robust, and data-efficient computing as the brain's highly stochastic nature. Neuromorphic hardware certainly suits more cognitive applications than precise computing.

During the next decade, neuromorphic computing will transform the nature and functionalities of a wide range of scientific and non-scientific applications. Some of them include mobile applications that are increasingly demanding powerful processing capacities and abilities.

The design of neuromorphic chips follows the goal of modeling parts of the biological nervous system. The aim is to reproduce its computational functionality, especially its ability to efficiently solve cognitive and perceptual tasks. Achieving this requires modeling networks of sufficient complexity regarding the number of neurons and synaptic connections. The brain and its ability to learn and adapt to specific problems are still subject to basic neuroscientific research.

The telltale spike in energy demand resulting from neuromorphic computing devices using potentially very small quantities of electricity makes hardware attacks much easier to identify. This increase would be visible through side-channel monitoring. Neuromorphic device designers may use brain functionality as a blueprint to create computing systems that use 3D nanostructures, biomaterials, redox memristors, magnetic neural network crossbar arrays, and other technologies.

The COVID-19 pandemic had a favorable influence on the medical business market. Several market leaders, including IBM, Hewlett Packard, and Qualcomm, pushed their neuromorphic computing solutions into several hospitals and clinics worldwide. Their technologies' computational skills were able to reduce various difficulties inside a normal hospital ecosystem. The pandemic kept the capital equipment sector humming with a strong demand for next-generation electronics.

Neuromorphic Chip Market Trends

Consumer Electronics Segment Holds Significant Market Share

The consumer electronics industry identifies neuromorphic computing as a promising tool for enabling high-performance computing and ultra-low power consumption to achieve these goals. For instance, AI services like Alexa and Siri rely on cloud computing and the internet to parse and respond to spoken commands and questions. Neuromorphic chips have the potential to allow several varieties of sensors and devices to perform intelligently without requiring an internet connection.

Smartphones are expected to be the trigger for the introduction of neuromorphic computing. Several operations, such as biometrics, are power-hungry and data-intensive. For instance, in speech recognition, audio data is processed in the cloud and then returned to the phone.

Wearable devices are a fast-growing technology with a considerable impact on personal healthcare for both the economy and society. Due to widespread sensors in pervasive and distributed networks, power consumption, processing speed, and system adaptation are vital in the future of smart wearable devices. Additionally, the field of artificial intelligence further boosts the possibility of smart wearable sensory systems. The emerging high-performance systems and intelligent applications need more complexity and demand sensory units to describe the physical object accurately.

Advanced functions like image identification and natural language processing are becoming possible for wearables due to dedicated neuromorphic devices like IBM’s TrueNorth. In an emergency, neuromorphic wearables can notify medical personnel, monitor vital signs, identify abnormalities, and respond promptly.

The increasing interest in neuromorphic engineering shows that hardware-spiking neural networks are considered a critical future technology with high potential in crucial applications, such as edge computing and wearable devices.

North America to Hold Major Share over the Forecast Period

North America is home to some of the major market vendors, such as Intel Corporation and IBM Corporation. The market for neuromorphic chips is growing in the region due to factors such as government initiatives, investment activities, and others.

For instance, in September 2023, In order to facilitate quick advancements in novel semiconductor technologies and manufacturing as well as workforce development, the US National Science Foundation announced 24 research and education initiatives totaling USD 45.6 million, including financing from the “CHIPS and Science Act of 2022”. The NSF Future of Semiconductors (FuSe) program funds the initiatives in conjunction with four companies, Samsung, Ericsson, IBM, and Intel, through a public-private collaboration.

On the other hand, the government of Canada is focusing on artificial intelligence technology, which is also expected to create a scope for growth in neuromorphic computing over the coming years. For instance, in June 2023, the government of Canada proposed a new Artificial Intelligence and Data Act (AIDA) to address the potential risks of AI, build trust in Canada’s AI industry, and protect Canadians from a range of harms. AIDA will ensure that Canada is home to the world's most responsible and trusted AI.

Several research projects are attracting collaborations for advancements in neuromorphic technology. For instance, in June 2023, Los Alamos National Laboratory announced the development of the new interface-type memristive device, which their results suggest can be used to build artificial synapses for next-generation neuromorphic computing.

The increasing defense expenditure of various countries is also expected to drive the demand for neuromorphic computing in North America.

Neuromorphic Chip Industry Overview

The neuromorphic chip market has large-scale semiconductor vendors that command significant revenue generation capabilities, architecture-development start-ups, and universities. The market is consolidated, and vendors are increasingly spending on R&D and collaboration activities to gain technological capabilities and commercialize the market, making the market less competitive.

Despite neuromorphic chips being at an early stage of development, the patent filing activity by players in the market is gaining interest across key semiconductor companies, R&D centers, and universities, and competitive rivalry is poised to increase in the future.

In June 2023, BrainChip Holdings Ltd and Lorser Industries Inc. announced that they would use BrainChip’s Akida technology to deliver neuromorphic computing solutions for software-defined radio (SDR) devices. The partnership will leverage Lorser’s expertise in SDR design and manufacturing and BrainChip’s cutting-edge neuromorphic technology to create innovative, intelligent solutions that enhance SDR devices' adaptability, reliability, and scale.

In April 2024, Chip maker Intel announced that to facilitate more sustainable artificial intelligence (AI), it has constructed the largest neuromorphic system in the world, known as ”Hala Point.” This massive neuromorphic system, which was first implemented at Sandia National Laboratories, makes use of Intel’s “Loihi 2” CPU, supports research into future brain-inspired artificial intelligence, and addresses issues with the effectiveness and sustainability of current AI.

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1 INTRODUCTION
1.1 Study Assumptions and Market Definition
1.2 Scope of the Study
2 RESEARCH METHODOLOGY
3 EXECUTIVE SUMMARY
4 MARKET INSIGHTS
4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
4.2.1 Threat of New Entrants
4.2.2 Bargaining Power of Buyers
4.2.3 Bargaining Power of Suppliers
4.2.4 Threat of Substitutes
4.2.5 Intensity of Competitive Rivalry
4.3 Impact of Macroeconomic Trends on the Market
4.4 Value Chain Analysis
5 MARKET DYNAMICS
5.1 Market Drivers
5.1.1 Growing Importance of Smart Cities
5.1.2 Increasing Population Growth of Hyper-urbanization
5.2 Market Restraints
5.2.1 Issues with Integration and Connectivity into Legacy Systems and High Initial Infrastructure and Related Investments
6 MARKET SEGMENTATION
6.1 By Solution
6.1.1 Rail Analytics System
6.1.2 Railway Communication and Networking System
6.1.3 Freight Information System
6.1.4 Smart Ticketing System
6.1.5 Advanced Security Monitoring System
6.1.6 Passenger Information System
6.1.7 Other Solutions
6.2 By Geography
6.2.1 North America
6.2.2 Europe
6.2.3 Asia-Pacific
6.2.4 Latin America
6.2.5 Middle East and Africa
7 COMPETITIVE LANDSCAPE
7.1 Company Profiles*
7.1.1 Cisco Systems Inc.
7.1.2 IBM Corporation
7.1.3 ALE International
7.1.4 Huawei Technologies Co. Ltd
7.1.5 Siemens AG
7.1.6 Hitachi Ltd
7.1.7 Tata Consultancy Services Limited
7.1.8 Moxa Inc.
7.1.9 Thales Group
7.1.10 Televic Group
7.1.11 Cyient Limited
7.1.12 Toshiba Corporation
8 INVESTMENT ANALYSIS
9 FUTURE OF THE MARKET

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