BRN Discussion Ongoing
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IMEC has caught the European MemRistor disease:Can someone please call Rob Telson ASAP to get him to speak to someone at Phillips Medical Systems?
I just stumbled upon this Power Point Preso which shows Phillips are working with IMEC on the denoising of medical XRAYs using SNN's (SENECA) and they're hoping to apply this same technology can be applied in WIDE RANGE OF CLINICAL APPLICATION AREAS.
I believe that SENESA is still only at research stage which could leave the door wide open for us to say hello to Phillips. It says in this research paper below, published 23 June 23 that " The SENECA platform and the tools used in this project are available for academic research upon request."
Then there's also this Linkedin response from 5 months ago where the researcher at IMEC says they can't compare SENECA with BrainChip which he differentiates as being "commercial neuromorphic architecture".
SENECA: building a fully digital neuromorphic processor, design trade-offs and challenges - PMC
Neuromorphic processors aim to emulate the biological principles of the brain to achieve high efficiency with low power consumption. However, the lack of flexibility in most neuromorphic architecture designs results in significant performance loss ...www.ncbi.nlm.nih.gov
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EP3671748A1 IN-MEMORY COMPUTING FOR MACHINE LEARNING 20181221
EP3671750A1 SYNAPSE CIRCUIT WITH MEMORY
US11443174B2 Machine learning accelerator
Fullmoonfever
Top 20
Hopefully the popularity grows 
www.rankred.com
Intel’s neuromorphic chip Loihi-2
Neuromorphic chips are designed to mimic the structure and functionality of the human brain. This emerging field of electronics is inspired by the architecture and principles of the nervous system.
It aims to develop hardware that can perform tasks like pattern recognition and decision-making more efficiently than conventional computing architectures.
Neuromorphic systems are adaptive and can learn from experience. They excel at parallel processing and performing tasks related to pattern recognition. Moreover, they often feature low power consumption because they leverage the principle from the brain, where neurons activate only when necessary, leading to more energy-efficient computing.
Hardware implementations of these systems involve the use of specialized neuromorphic chips. These chips are developed to execute neural network algorithms efficiently and are optimized for specific neuromorphic computing tasks.
IBM’s TrueNorth and Intel’s Loihi are the two most popular examples of neuromorphic chips. BrainChip’s Akida Neuromorphic System-on-Chip has also gained popularity for edge applications.
17 Emerging Technologies in Electronics That Will Change Our Future - RankRed
Explore the emerging world of electronics where many revolutionary devices are yet to be invented. Find out what the future could bring us.
www.rankred.com
17 Emerging Technologies in Electronics That Will Change Our Future
November 22, 202311 min read1. Neuromorphic Hardware
Neuromorphic chips are designed to mimic the structure and functionality of the human brain. This emerging field of electronics is inspired by the architecture and principles of the nervous system.
It aims to develop hardware that can perform tasks like pattern recognition and decision-making more efficiently than conventional computing architectures.
Neuromorphic systems are adaptive and can learn from experience. They excel at parallel processing and performing tasks related to pattern recognition. Moreover, they often feature low power consumption because they leverage the principle from the brain, where neurons activate only when necessary, leading to more energy-efficient computing.
Hardware implementations of these systems involve the use of specialized neuromorphic chips. These chips are developed to execute neural network algorithms efficiently and are optimized for specific neuromorphic computing tasks.
IBM’s TrueNorth and Intel’s Loihi are the two most popular examples of neuromorphic chips. BrainChip’s Akida Neuromorphic System-on-Chip has also gained popularity for edge applications.
Damo4
Regular
Must have been another secret meeting between retail shareholders Tony, Sean and Geoff.
I mean that is really the only explanation for the 12% increase today
Looking forward to the Motley Fools ANALysis on the SP growth today. Should be great!
Should I bee happy or sad then?
Yoda
Regular
Yes it will read something like this:Must have been another secret meeting between retail shareholders Tony, Sean and Geoff.
I mean that is really the only explanation for the 12% increase today
Looking forward to the Motley Fools ANALysis on the SP growth today. Should be great!
"Why did BS meme stock Brainchip rise 12% today? Like seriously WTF?
BS meme stock Brainchip (called Brainshit in the MF office) rose 12% today. The stock with its non-selling commercial flop of a product and its deluded cult like supporters will no doubt get a speeding ticket. The stock has lost 90% in the last 12 months. But before you invest in Brainshit, did you know it isn't one of 5 stocks that Scott recommends? Pay us some money and we will tell you what the 5 stocks are (but take no responsibility for our many losers that we don't like to talk about).
Yours MicklePickle"
Now that's about the standard of objective journalism that I have come to expect from MF when it comes to BRN . . .
DingoBorat
Slim
"IBM’s TrueNorth and Intel’s Loihi are the two most popular examples of neuromorphic chips. BrainChip’s Akida Neuromorphic System-on-Chip has also gained popularity for edge applicationsHopefully the popularity grows
17 Emerging Technologies in Electronics That Will Change Our Future - RankRed
Explore the emerging world of electronics where many revolutionary devices are yet to be invented. Find out what the future could bring us.
17 Emerging Technologies in Electronics That Will Change Our Future
November 22, 202311 min read
1. Neuromorphic Hardware
Intel’s neuromorphic chip Loihi-2
Neuromorphic chips are designed to mimic the structure and functionality of the human brain. This emerging field of electronics is inspired by the architecture and principles of the nervous system.
It aims to develop hardware that can perform tasks like pattern recognition and decision-making more efficiently than conventional computing architectures.
Neuromorphic systems are adaptive and can learn from experience. They excel at parallel processing and performing tasks related to pattern recognition. Moreover, they often feature low power consumption because they leverage the principle from the brain, where neurons activate only when necessary, leading to more energy-efficient computing.
Hardware implementations of these systems involve the use of specialized neuromorphic chips. These chips are developed to execute neural network algorithms efficiently and are optimized for specific neuromorphic computing tasks.
IBM’s TrueNorth and Intel’s Loihi are the two most popular examples of neuromorphic chips. BrainChip’s Akida Neuromorphic System-on-Chip has also gained popularity for edge applications.
Exactly how did they determine that TrueNorth and Loihi are the 2 most "popular" examples, when they are both still research chips??..
Maybe the 2 most well known?
That will change.
Afternoon Chippers ,
Daily chart on one min volume looking like she's ready for another good surge.
Though what I would really like to see is the equivalent of two to three million dollars punch through in a solid hit to purge the snot out of the orders .
Esq.
Daily chart on one min volume looking like she's ready for another good surge.
Though what I would really like to see is the equivalent of two to three million dollars punch through in a solid hit to purge the snot out of the orders .
Esq.
AusEire
Founding Member.
James is you?
Yoda
Regular
Yeah, just thought I'd do a test run.
DingoBorat
Slim
Up almost 13% today and nary a whisper from the forum..
What's going on
..
No green babies?..
And where's @Schnitzel lover? Surely he would have sold for a healthy profit today and be bagging the Company, to get back in again lower?..
Heyyy wait a minute..
What's going on
..No green babies?..
And where's @Schnitzel lover? Surely he would have sold for a healthy profit today and be bagging the Company, to get back in again lower?..
Heyyy wait a minute..
Rskiff
Regular
And no speeding ticket!Up almost 13% today and nary a whisper from the forum..
What's going on
No green babies?..
And where's @Schnitzel lover? Surely he would have sold for a healthy profit today and be bagging the Company, to get back in again lower?..
Heyyy wait a minute..
View attachment 50732
TasTroy77
Founding Member
What podcast labsy can't find itPerhaps everyone is busy listening to the new podcast
Good day today chippers
Rskiff
Regular
I think some on here just discovered the podcast that was put out 2 weeks ago.
Proga
Regular
So we have to wait for the rest of the world to catch up to AkidaCould be an interesting diary reminder to check in around Q3 2024 to see what the various authors thoughts are when the papers are published.
I'll take the call as a pretty much acceptance of neuromorphic going mainstream
IEEE Transactions on Consumer Electronics
Call for Papers
Special Section on “Neuromorphic Computing Technologies for Consumer Electronics”
Theme:
Recently, consumer electronics have moved toward data-centric applications due to the development of artificial intelligence (AI) technologies. With the growing demand for large memory capacity, fast processing speed, and complex data computation in consumer electronics, neuromorphic computing has been emerged as the next-generation technology to promote the revolution and development of consumer electronics.
Neuromorphic computing technologies offer tremendous potential for computing beyond Moore’s law, which have been
involved in all aspects of consumer electronics applications. Specifically, neuromorphic computing technologies with extreme energy efficiency will be indispensable for smart device applications such as intelligent monitoring system, unmanned aerial vehicle, service robotic, etc. In addition, neuromorphic computing technologies inspired by human brain can handle the avalanche of unstructured data, which are well poised to become the AI accelerators in personal computing devices such as smart phones, laptops, and desktops.
Furthermore, neuromorphic computing technologies promise a massively parallel, efficient, and scalable computational solution with large implications such as smart manufacturing, smart grids, smart home, and smart city on the daily lives of consumers.
To promote the development of neuromorphic computing and related fields in consumer electronics, this special section will provide a platform for researchers to exchange the latest research and practitioner findings. The special section will focus on the hot topics of neuromorphic computing, the latest progress of emerging devices and hardware implementations for consumer electronics, brain-inspired computing structures and learning methods in consumer electronics, the interdisciplinary applications of neuromorphic computing in consumer electronics, etc. This special
section aims to achieve the deep integration of advanced materials science, computer science, and electronic science and technology, which is expected to accelerate the development of neuromorphic computing systems and the adoption for consumer electronics applications.
Topics of interest in this Special Section include (but are not limited to):
Evolving consumer materials, attributes, and functionality in neuromorphic computing systems
Emerging neuromorphic computing devices, circuits, and algorithms for consumer electronics applications
Integration of sensing, storage, and processing in consumer electronics
Consumer behavior analysis with neuromorphic computing systems
Brain-inspired neuromorphic computing architecture in consumer electronics
Hardware and software interaction and codesign in consumer electronics
Emerging neuromorphic computing applications and their cases studies in consumer electronics
Important dates:
End of submission of Manuscripts: September 30, 2023
Expected publication date (tentative): Third Quarter, 2024
Guest Editors:
Dr Zhekang Dong (Lead Guest Editor), Hangzhou Dianzi University, Hangzhou, China, englishp@hdu.edu.cn
Dr Ping Lu, University of Oxford, UK, ping.lu@eng.ox.ac.uk
Dr Chun Sing Lai, Brunel University London, UK, chunsing.lai@brunel.ac.uk
Dr Zhongrui Wang, The University of Hong Kong, Hong Kong, China, zrwang@eee.hku.hk
Labsy
Regular
Yeah 🫣
Proga
Regular
Don't believe it. They're having file loading problems again. If you can go back and see daily trades, 99.5% of trades at the centrepoint ie 18.25c or 18.75c etc is a short
Shortman reporting shorts jumped up 5m on the 22nd.
Snapshot of some of the trades today on the Chi-X
| 2:34:07 pm | 2:42:23 pm | 21.75 | 104,395 | 0.25 | $22,705 | 12 |
| 2:33:24 pm | 2:33:24 pm | 21.5 | 10,555 | 0.25 | $2,269 | 1 |
| 2:32:15 pm | 2:32:15 pm | 21.75 | 1,446 | 0.25 | $314 | 1 |
| 2:32:09 pm | 2:32:09 pm | 21.5 | 58 | 0.25 | $12 | 1 |
| 2:21:58 pm | 2:29:58 pm | 21.75 | 14,599 | 0.25 | $3,175 | 7 |
| 2:21:08 pm | 2:21:08 pm | 21.5 | 2,857 | 0.25 | $614 | 1 |
| 2:16:08 pm | 2:16:10 pm | 21.75 | 75,500 | 0.25 | $16,421 | 3 |
| 2:11:10 pm | 2:16:08 pm | 21.5 | 494,700 | 0.25 | $106,360 | 13 |
| 2:01:45 pm | 2:01:45 pm | 21.75 | 6,797 | 0.25 | $1,478 | 1 |
| 2:01:43 pm | 2:01:43 pm | 21.5 | 287,093 | 0.25 | $61,724 | 19 |
| 1:57:47 pm | 2:01:43 pm | 21.25 | 50,000 | 0.25 | $10,625 | 3 |
| 1:52:21 pm | 1:52:21 pm | 21.5 | 6,373 | 0.5 | $1,370 | 2 |
| 1:51:41 pm | 1:52:18 pm | 21 | 231,561 | 0.5 | $48,627 | 10 |
| 1:45:58 pm | 1:45:58 pm | 21.5 | 6,564 | 0.5 | $1,411 | 1 |
| 1:41:54 pm | 1:45:58 pm | 21 | 186,637 | 0.25 | $39,193 | 11 |
| 1:39:08 pm | 1:41:54 pm | 21.25 | 37,003 | 0.25 | $7,863 | 4 |
| 1:29:37 pm | 1:38:45 pm | 21.5 | 154,701 | 0.25 | $33,260 | 22 |
| 1:26:58 pm | 1:29:07 pm | 21.75 | 21,292 | 0.25 | $4,631 | 2 |
| 1:26:37 pm | 1:26:37 pm | 21.5 | 10,000 | 0.25 | $2,150 | 1 |
| 1:19:01 pm | 1:25:58 pm | 21.75 | 26,691 | 0.25 | $5,805 | 3 |
| 1:17:56 pm | 1:17:56 pm | 21.5 | 25,876 | 0.25 | $5,563 | 3 |
| 1:08:03 pm | 1:17:14 pm | 21.75 | 39,355 | 0.25 | $8,559 | 4 |
| 1:08:03 pm | 1:08:03 pm | 21.5 | 51,000 | 0.25 | $10,965 | 3 |
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Fullmoonfever
Top 20
Pretty much....well, I think they know neuromorphic is next level, needed and Akida a front runner solution but don't understand how it works properly or how to fully utilise it when integrated....one day, but by then the early adopters will have a head start
Pom down under
Top 20
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