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Neuromorphic Chipsets –
Industry Adoption Analysis Report


May 2019 | 58 pages

Find out the applications, innovation landscape and future impact of neuromorphic chipsets


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What’s included

Impact of Neuromorphic chipset adoption in IoT, Automotive, Finance, Cyber-security, Aerospace, and Medical systems

Active projects by 19 entities, including IBM, Qualcomm, Intel, Brainchip, HumanBrain Project, DARPA and HRL Laboratories, among others

Analysis of patent data from 1999 to 2018

Top assignees of neuromorphic hardware patents

Technology focus areas of leading patent assignees

Geographic distribution of patent assignees

Emerging players and active universities

Key collaborations



What are neuromorphic chips?

Neuromorphic chips are microprocessors with higher computational power than conventional chips. Inspired by the human brain, these chips integrate memory and processing units in the same location, enabling high connectivity, parallelism, and real-time computing. neuromorphic chips emulate the human brain’s neural activities through artificial synapses, neurons, and axons. Currently at an early stage of development, neuromorphic chips are expected to give a boost to future AI applications by enabling high-accuracy perception and interpretation of data and prediction of future events.


Synapses

Synapses receive signals from other neurons as voltage spikes


Biological Neurons

Function in a smooth analog pattern of voltage


Axon

Transmits voltage spikes to other neurons

neuromorphic chips

Connections

mulated synapeses that communicate by means of spikes


Emulated Neurons

Integrate incoming signals for parallelism


Wire

Wire is an emulated axon that mimics an axon’s operations



Advantages of Neuromorphic chips

Low power consumption

The human brain performs complex computations on a small power budget of about 20 W of power compared with the supercomputers that require kW or MW power for AI applications

Fault tolerant

Neuromorphic chips continue to operate even after the failure of a few components of the chip. This reduces the cost of production of the chip due to lower fabrication tolerances

Stochastic operation

Current AI chipsets are ordered, and operate in a calculated manner. However, neuromorphic chips are stochastic in nature because of which they can be used for all applications

Pattern recognition

The low-power pattern recognition of neuromorphic hardware helps to classify objects, make predictions, or anticipate conditions. It is also possible to understand the context of such patterns by using neuromorphic chips

Faster computation

The inherent massive parallelism and low latency factor of neuromorphic chips make it possible to perform complex computations faster. Neuromorphic chips use less training data compared with other intelligent chipsets

Scalability

Neuromorphic architectures can be employed in edge applications and can also be scaled up for server applications



Neuromorphic chipsets for AI applications

The concept of emulating neurons on a chip could enhance complex operations to make business decisions secure and cost-effective. Parallel connected neurons can boost AI verticals compared with the conventional processing systems. Non-stop learning and pattern recognition using this human brain architecture can help compute signals and data in the form of visual, speech, olfactory, etc., to perform real-time operations as well as predict outcomes based on detected patterns. Neuromorphic chipsets can also enhance performance owing to their low-power consumption to process AI algorithms.


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Neuromorphic Chipsets: Introduction to the Concept and Architecture

Neuromorphic Chipsets: Advantages

Industry Adoption of Neuromorphic Chipsets

Neuromorphic Chipsets: Active Projects

Neuromorphic Chipsets: Patent Analysis


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Onam Prasad

Onam holds a Master’s degree from the University of Illinois at Chicago with specialization in telecommunications. At the University of Illinois, her course of study covered subjects including wireless communications, RF systems, semiconductors, networking, digital communication, etc. She was also a member of the Society of Women Engineers and attended many conferences and sessions related to initiatives by women technologists and awareness of technology across diversity. Onam has research expertise in topics related to IoT, 5G, connectivity solutions, autonomous systems, RF devices, semiconductor fabrication, telecommunication equipment, ICs and Chipsets, etc. She works on custom research projects and provides technology consulting and advisory to clients on a range of aspects including creation of strategic partnerships, development and adoption of innovative or disruptive technologies, R&D and product roadmap creation, etc. by leveraging robust research approaches and methodologies that combine competitive intelligence, patent landscape, M&A, trend analysis and other important parameters. The combination of her education, expertise and professional experiences makes her one of Netscribes’ lead analysts in the electronics, telecom and semiconductors domains.


Faizal Shaikh

Faizal has been associated with Netscribes’ Innovation Research team since the last 3 years. He has worked on emerging technology domains including IoT connectivity solutions and management, sensing/antenna technologies for autonomous vehicles and connected cars, 5G technology trends, hardware security solutions, RF front-end for portable devices, advanced semiconductor chipsets, futuristic display technologies, etc.

His areas of interest include semiconductor fabrication and processing, networking and 5G related studies, telecommunications, display technologies, user interfaces, sensors and robotics among others. He has been actively involved in technology assessment/consulting, competitor analysis and benchmarking, and technology roadmap studies that require a complete understanding of the ecosystem.

Faizal graduated with a Bachelor’s degree in Engineering with specialization in Electronics and Telecommunications from Mumbai University.




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