Neuromorphic engineering

Neuromorphic Computing Opportunity Analysis 2020: Leveraging Fabrication Technologies, Embedded Memories, SoCs and FPGAs for Developing Solutions in Neuromorphic Computing

Retrieved on: 
Tuesday, February 23, 2021
Artificial intelligence, Electrical engineering, Neuromorphic engineering, Neuroscience, Robotics, Hardware acceleration, Academic disciplines, Field-programmable gate array, Technology, Science and technology

DUBLIN, Feb. 23, 2021 /PRNewswire/ -- The "Neuromorphic Computing: Opportunity Analysis" report has been added to ResearchAndMarkets.com's offering.

Key Points: 
  • DUBLIN, Feb. 23, 2021 /PRNewswire/ -- The "Neuromorphic Computing: Opportunity Analysis" report has been added to ResearchAndMarkets.com's offering.
  • However, with increasing demand for fully autonomous solutions, there is a need for perceptive solutions capable of making probabilistic decisions, replicating the human brain.
  • What are the current trends and developments that are driving the opportunities for neuromorphic computing technologies in the global market?
  • 3.12 Analysis of Value Chain - Leveraging Fabrication Technologies, Embedded Memories, SoCs and FPGAs for Developing Solutions in Neuromorphic Computing
    4.3 Analysis of Applications Impacted by Neuromorphic Computing - Robotics, Manufacturing, Security and Surveillance
    4.4 Analysis of Applications Impacted by Neuromorphic Computing - Home Automation, Retail, Banking and Finance
    4.5 Analysis of Applications Impacted by Neuromorphic Computing - Automotive, Energy, Aerospace and Defence

Neuromorphic Computing Opportunity Analysis 2020: Promising Start-Ups Developing Non-Invasive BCI Solutions Gaining Traction from VC Funds and Tier-1 OEMs - ResearchAndMarkets.com

Retrieved on: 
Thursday, February 18, 2021
Technology, Other Technology, Artificial intelligence, Electrical engineering, Neuromorphic engineering, Neuroscience, Robotics, Academic disciplines, Field-programmable gate array, Technology, Science and technology

However, with increasing demand for fully autonomous solutions, there is a need for perceptive solutions capable of making probabilistic decisions, replicating the human brain.

Key Points: 
  • However, with increasing demand for fully autonomous solutions, there is a need for perceptive solutions capable of making probabilistic decisions, replicating the human brain.
  • Neuromorphic computing holds the potential to emerge as a vital breakthrough in applications across the healthcare, manufacturing, and aerospace & defense sectors.
  • What are the current trends and developments that are driving the opportunities for neuromorphic computing technologies in the global market?
  • 3.12 Analysis of Value Chain - Leveraging Fabrication Technologies, Embedded Memories, SoCs and FPGAs for Developing Solutions in Neuromorphic Computing
    4.3 Analysis of Applications Impacted by Neuromorphic Computing - Robotics, Manufacturing, Security and Surveillance
    4.4 Analysis of Applications Impacted by Neuromorphic Computing - Home Automation, Retail, Banking and Finance
    4.5 Analysis of Applications Impacted by Neuromorphic Computing - Automotive, Energy, Aerospace and Defence
    View source version on businesswire.com: https://www.businesswire.com/news/home/20210218005431/en/

BrainChip Releases Third Episode in ‘This is our Mission’ Series

Retrieved on: 
Monday, February 1, 2021
Technology, Semiconductor, Security, Other Technology, Software, Networks, Internet, Hardware, Data management, Artificial intelligence, Branches of biology, Robotics, Academic disciplines, Computational neuroscience, Articles, Electrical engineering, Neuromorphic engineering, Neuroscience, Artificial brain, Draft:Brainchip, Spiking neural network

Hosted by BrainChip CEO Louis DiNardo, the third episode in the series highlights Peter van der Mades success in being at the forefront of computer innovation and invention for 45 years.

Key Points: 
  • Hosted by BrainChip CEO Louis DiNardo, the third episode in the series highlights Peter van der Mades success in being at the forefront of computer innovation and invention for 45 years.
  • He designed the first generations of digital neuromorphic devices on which BrainChips Akida neuromorphic processor is based, and holds its patent.
  • His book, Higher Intelligence: How to Create a Functional Artificial Brain, published in 2013, describes the architecture of the brain from a computer science perspective.
  • He remains actively involved in the design of the next generation of Akida chips and in research on advanced neuromorphic architectures.

BrainChip Chief Development Officer Presents at the Edge AI and Vision Alliance Spotlight Webinar

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Wednesday, December 9, 2020
Semiconductor, Hardware, Nanotechnology, Technology, Software, Articles, Academic disciplines, Computational neuroscience, Emerging technologies, Branches of biology, Electrical engineering, Neuromorphic engineering, Robotics, Neural network, Artificial intelligence, Draft:Brainchip

(ASX: BRN), a leading provider of ultra-low power, high-performance AI technology, announced that the companys Chief Development Officer Anil Mankar will present about using neuromorphic processing to take AI to the Edge in a free 30-minute webinar organized by the Edge AI and Vision Alliance December 17 at 9 a.m. PST.

Key Points: 
  • (ASX: BRN), a leading provider of ultra-low power, high-performance AI technology, announced that the companys Chief Development Officer Anil Mankar will present about using neuromorphic processing to take AI to the Edge in a free 30-minute webinar organized by the Edge AI and Vision Alliance December 17 at 9 a.m. PST.
  • Many Edge-AI processors take advantage of the spatial sparsity in neural network models to eliminate computations and save power.
  • The Akida NSoC represents a revolutionary new breed of Neural Processing computing devices for Edge AI devices and systems.
  • Akida is designed to provide a complete ultra-low power and fast AI Edge Network for vision, audio, olfactory and smart transducer applications.

Update on Intel’s Neuromorphic Ecosystem Growth and Progress

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Thursday, December 3, 2020
Semiconductor, Technology, Other Technology, Research, Science, Hardware, Artificial intelligence, Electrical engineering, Neuromorphic engineering, Neuroscience, Robotics, Intel, Academic disciplines, Companies, Industries, the Intel Neuromorphic Research Community, Intel

Whats New: Today, Intel shared an update on progress within the Intel Neuromorphic Research Community (INRC).

Key Points: 
  • Whats New: Today, Intel shared an update on progress within the Intel Neuromorphic Research Community (INRC).
  • Additionally, Intel summarized a growing body of research results from INRC members that used the companys neuromorphic research test chip, Loihi.
  • Why It Matters: Intel created the INRC because it believes no one organization alone will effectively unlock the full potential of neuromorphic computing.
  • About the Intel Neuromorphic Research Community: The Intel Neuromorphic Research Community is an ecosystem of academic groups, government labs, research institutions and companies around the world working with Intel to further neuromorphic computing and develop innovative artificial intelligence applications.

Brain Inspired Computing Congress Features BrainChip Founder and CTO Peter van der Made

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Monday, November 16, 2020
Data management, Semiconductor, Security, Technology, Software, Networks, Hardware, Artificial intelligence, Branches of biology, Academic disciplines, Computational neuroscience, Articles, Robotics, Emerging technologies, Neuroscience, Neuromorphic engineering, Neural network, Bio-inspired computing, Draft:Brainchip

BrainChip Holdings Ltd (ASX: BRN), a leading provider of ultra-low power high performance artificial intelligence technology, today announced that the Companys founder and Chief Technology Officer Peter van der Made will present at the Brain Inspired Computing Congress .

Key Points: 
  • BrainChip Holdings Ltd (ASX: BRN), a leading provider of ultra-low power high performance artificial intelligence technology, today announced that the Companys founder and Chief Technology Officer Peter van der Made will present at the Brain Inspired Computing Congress .
  • The Computing Congress is a virtual event on November 18-19 2020 focusing on prime uses for brain inspired technologies including autonomous vehicles, robotic arm control, and dynamic vision sensing.
  • This capability can result in a superior standard of intelligence and more closely resembles the human brain, said Mr. van der Made.
  • The Brain Inspired Computing Congress brings together the leading start-ups, researchers, and multinational companies exploring technologies spanning neuromorphic engineering, event-based sensors, brain-inspired algorithms and biologically plausible neural networks.

Neuromorphic Computing Systems Market, 2028

Retrieved on: 
Wednesday, October 28, 2020
Artificial intelligence, Branches of biology, Electrical engineering, Neuromorphic engineering, Neuroscience, Robotics, Academic disciplines, Articles, Draft:Brainchip

Neuromorphic computing systems have been adopted by several end-use industries such as consumer electronics, aerospace, and defense, healthcare, automotive and industrial automation, among others for efficient computing solutions.

Key Points: 
  • Neuromorphic computing systems have been adopted by several end-use industries such as consumer electronics, aerospace, and defense, healthcare, automotive and industrial automation, among others for efficient computing solutions.
  • In addition, the practice of neuromorphic computing for improving healthcare facilities and monitoring medical conditions has also resulted in significant growth in the overall neuromorphic computing systems market.
  • The global neuromorphic computing systems market is segmented, based on application, into the following categories:
    In 2019, image recognition and processing dominated the overall neuromorphic computing systems in terms of market value.
  • Other neuromorphic computing system applications including signal recognition and processing, data processing, and object detection have been contributing significantly in the overall neuromorphic computing systems market.

Global Neuromorphic Computing Systems Market, 2020-2028 - Focus on Image Recognition and Processing, Signal Recognition and Processing, Data Processing, Object Recognition - ResearchAndMarkets.com

Retrieved on: 
Wednesday, October 21, 2020
Retail, Other Retail, Artificial intelligence, Branches of biology, Electrical engineering, Neuromorphic engineering, Neuroscience, Robotics, Academic disciplines, Articles

Currently, neuromorphic computing systems are being extensively used for applications such as image recognition and processing, signal recognition and processing, data processing, and object recognition, among others.

Key Points: 
  • Currently, neuromorphic computing systems are being extensively used for applications such as image recognition and processing, signal recognition and processing, data processing, and object recognition, among others.
  • In addition, the practice of neuromorphic computing for improving healthcare facilities and monitoring medical conditions has also resulted in significant growth in the overall neuromorphic computing systems market.
  • The global neuromorphic computing systems market is segmented, based on application, into the following categories:
    In 2019, image recognition and processing dominated the overall neuromorphic computing systems in terms of market value.
  • Other neuromorphic computing system applications including signal recognition and processing, data processing, and object detection have been contributing significantly in the overall neuromorphic computing systems market.

World Neuromorphic Chips Market Outlook to 2027: Surge in Need for Better Performing ICs and Miniaturization of Devices Boosts Demand for Neuromorphic Chips

Retrieved on: 
Friday, October 2, 2020
Artificial intelligence, Robotics, Electrical engineering, Neuromorphic engineering, Neuroscience, Academic disciplines, Articles

DUBLIN, Oct. 2, 2020 /PRNewswire/ -- The "Neuromorphic Chips - Global Market Trajectory & Analytics" report has been added to ResearchAndMarkets.com's offering.

Key Points: 
  • DUBLIN, Oct. 2, 2020 /PRNewswire/ -- The "Neuromorphic Chips - Global Market Trajectory & Analytics" report has been added to ResearchAndMarkets.com's offering.
  • Aerospace & Defense, one of the segments analyzed in the report, is projected to record a 27.7% CAGR and reach US$1.2 Billion by the end of the analysis period.
  • The Neuromorphic Chips market in the U.S. is estimated at US$682.1 Million in the year 2020.
  • The report presents concise insights into how the pandemic has impacted production and the buy side for 2020 and 2021.

Intel and Sandia National Labs Collaborate on Neuromorphic Computing

Retrieved on: 
Friday, October 2, 2020
Technology, Semiconductor, Homeland security, Other Energy, Other Technology, Public policy, Government, Energy, Hardware, Science, Other Science, Artificial intelligence, Science and technology in the United States, Electrical engineering, Neuromorphic engineering, Neuroscience, Robotics, Economy of the United States, Sandia, Companies, Intel

Whats New: Today, Intel Federal LLC announced a three-year agreement with Sandia National Laboratories (Sandia) to explore the value of neuromorphic computing for scaled-up computational problems.

Key Points: 
  • Whats New: Today, Intel Federal LLC announced a three-year agreement with Sandia National Laboratories (Sandia) to explore the value of neuromorphic computing for scaled-up computational problems.
  • (Credit: Tim Herman/Intel Corporation)
    By applying the high-speed, high-efficiency and adaptive capabilities of neuromorphic computing architecture, Sandia National Labs will explore the acceleration of high-demand and frequently evolving workloads that are increasingly important for our national security.
  • As a leader in neuromorphic research, Intel is actively exploring this potential, recently releasing a 100-million neuron system, Pohoiki Springs, to the Intel Neuromorphic Research Community (INRC).
  • Sandia National Labs has long been at the leading edge of large-scale computing, using some of the countrys most advanced high-performance computers to further national security.