BRN Discussion Ongoing

[Fact Finder]

https://www.militaryaerospace.com/computers/article/14293820/space-electronics-radiation-hardened

Seeing as my phone won't copy text without having a Spas Attack, which nearly caused it to sail through the window out into the street, you will all have to scroll down to the heading "influential space programs".
Now after all the tantrums and dummy spits I just need someone to say old news mate but good try.

SC

“Influential space programs​

Microchip is involved in the High-Performance Spaceflight Computing (HPSC) processor project of the U.S. National Aeronautics and Space Administration (NASA) Jet Propulsion Laboratory in La Cañada Flintridge, Calif. Microchip is developing a space processor that will provide at least 100 times the computational capacity of current spaceflight computers.
Microchip will build the HPSC processor over three years, with the goal of employing the processor on future lunar and planetary exploration missions. Microchip's processor architecture will improve the overall computing efficiency for these missions by enabling computing power to be scalable, based on mission needs. The work is under a $50 million contract, with Microchip contributing significant research and development costs to complete the project.
"We are making a joint investment with NASA on a new trusted and transformative compute platform that will deliver comprehensive Ethernet networking, advanced artificial intelligence and machine learning processing, and connectivity support while offering unprecedented performance gain, fault-tolerance, and security architecture at low power consumption," says Babak Samimi, corporate vice president for Microchip's Communications business unit.
"We will foster an industrywide ecosystem of single-board computer partners anchored on the HPSC processor and Microchip's complementary space-qualified

Microchip is developing the NASA High-Performance Spaceflight Computing (HPSC) processor that will provide at least 100 times the computational capacity of current spaceflight computers.​

total system solutions to benefit a new generation of mission-critical edge compute designs optimized for size, weight, and power," he says.
Current space-qualified computing technology is designed to address the most computationally intensive part of a mission, which leads to overdesigning and inefficient use of computing power. Microchip's new processor will enable the device's processing power to ebb and flow depending on current operational requirements. Certain processing functions can also be turned off when not in use to reduce power consumption.
"Our current spaceflight computers were developed almost 30 years ago," says Wesley Powell, NASA's principal technologist for advanced avionics. "While they have served past missions well, future NASA missions demand significantly increased onboard computing capabilities and reliability. The new computing processor will provide the advances required in performance, fault tolerance, and flexibility to meet these future mission needs."
The U.S. Space Force has kicked-off a program to design next-generation radiation-hardened non-volatile memory chips for future military applications in space in the Advanced Next Generation Strategic Radiation hardened Memory (ANGSTRM) project. The U.S. Air Force Research Laboratory's Space Vehicles Directorate at Kirtland Air Force Base, N.M., issued an ANGSTRM solicitation on behalf of the Space Force last January to develop a strategic rad-hard non-volatile memory device with near-commercial state-of-the-art performance by using advanced packaging and radiation-hardening techniques with state-of-the-art commercial technology.”

 

[David holland]

So with all this valuable information, how long do the group feel something is going to come out,
Or are we still another year away

 

[Ian]

@David holland

 

[David holland]

@David holland

I'll take that your not confident, enjoy your invite to the secret meeting

 

[Frangipani]

Seeing as my phone won't copy text without having a Spas Attack, which nearly caused it to sail through the window out into the street, you will all have to scroll down to the heading "influential space programs".
Now after all the tantrums and dummy spits I just need someone to say old news mate but good try.

SC

Just DO NOT, I repeat, DO NOT ️under any circumstances look here

https://thestockexchange.com.au/threads/brn-discussion-ongoing.1/post-333513

… and you and your phone will be fine.

Regards,
An anonymous concerned phone welfare activist

 

[wilzy123]

I'll take that your not confident, enjoy your invite to the secret meeting

Classic DH comment

it's OK if you're miserable buddy... but it's not constructive or helpful if you continue to live that way. Hopefully you reach out for help.

 

[Slade]

So with all this valuable information, how long do the group feel something is going to come out,
Or are we still another year away

 

[manny100]

Hi Rskiff
I cannot remember that but I believe he had Ericsson as one of the group of companies he used to example as the types of companies they could be working with back then.

Sean Hehir CEO did say they had been approached by a large communication company who wanted to use AKIDA technology for a purpose they had not envisaged. When you read up on 6G as envisaged by Ericsson and its use of Ai/ML and Cognitive Communications it does point in their direction as they are pushing the science in that regard.

My opinion only DYOR
Fact Finder

Hi FF,
Google Vimeo Interview with Sean Hehir.

At circa 28 min mark Sean talks about being heavily engaged with a communication company that may buy the IP. Note words heavily involved and may buy.
I think this was recorded in May'22???
If they did proceed they should be just about through the processes by now????

 

[IloveLamp]

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Advancing #Military and #Government Operations: The Role of Neuromorphic and Quantum #Computing. "Heisenberg's uncertainty principle becomes obsolete when…

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[Pom down under]

So with all this valuable information, how long do the group feel something is going to come out,
Or are we still another year away

 

[Space Cadet]

Just DO NOT, I repeat, DO NOT ️under any circumstances look here

https://thestockexchange.com.au/threads/brn-discussion-ongoing.1/post-333513

… and you and your phone will be fine.

Regards,
An anonymous concerned phone welfare activist

F#$k just $&÷*, $*&=ing F#$%k.

SC

 

[Space Cadet]

F#$k just $&÷*, $*&=ing F#$%k.

SC

I thought I took that pretty well.

SC

 

[Pom down under]

F#$k just $&÷*, $*&=ing F#$%k.

SC

 

[Frangipani]

F#$k just $&÷*, $*&=ing F#$%k.

SC

I thought I took that pretty well.

SC

Hi Dodgy,

Radhard memory brings me to Numem. Wonder what happened with their phase 1 using Akida. Contract end date 25/01/23. So 12 months on. I have tried today, to get on their website and can't so either my phone or they haven't paid their bills. They put out new products a few month's ago that I wanted to check but can't get on their site. They also completed an A Funding round so should still be a going concern.

SC

In case you haven’t destroyed your phone, yet, now use it to go to that Numem website again - looks like it is back up and running! Good luck with your search!

 

[Space Cadet]

In case you haven’t destroyed your phone, yet, now use it to go to that Numem website again - looks like it is back up and running! Good luck with your search!

View attachment 55961

Thanks mate. Maybe they needed time to get rid of the evidence

SC

 

[IloveLamp]

No need for words, just read.

This is amazing! Bring neuromorphic computing into space. Way to go, EDGX! | Alf Kuchenbuch

This is amazing! Bring neuromorphic computing into space. Way to go, EDGX!

www.linkedin.com

 

[IloveLamp]

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[Food4 thought]

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View attachment 55967 View attachment 55965 View attachment 55966

Will they be using the new commercially available ip of a little Aussie company by the name of BrainChip I wonder or will they wait a few more years to get lohi on board lol.

 

[Fullmoonfever]

Good to see the Open Neuromorphic community have us included, as they should.

These are also the sorts of people we need testing and pushing our Akidas limits and capabilities.

About the community below and our info after that with some related publications, which I believe we've already sourced independently previously from memory.

Could be a resource checking in on every so often for any snippets.

Akida - BrainChip

Learn about BrainChip's neuromorphic hardware: Akida

open-neuromorphic.org

theme switcher

About​

Discover Open Neuromorphic (ONM), a collaborative community for neuromorphic computing enthusiasts. Explore tools, frameworks, and educational content to fuel your passion.

• Home /
• About

Open Neuromorphic is created by a loose collective of open source collaborators across academia, industry and individual contributors. Most of us have never met in person before but have started contributing to a common or each other’s projects!

What connects us is the love for building tools that can be used in the neuromorphic community and we want to share ownership of this vision. If you feel like that resonates with you, please don’t hesitate to get in touch!

Open Neuromorphic (ONM) provides the following things:

1. A curated list of software frameworks to make it easier to find the tool you need.
2. A platform for your code. If you wish to create a new repository or migrate your existing code to ONM, please get in touch with us.
3. Educational content to get you started in the neuromorphic world.
4. Events about neuromorphic research and software, with contributions from both academia and industry.

Projects that we list here can fall into this non-exclusive list of categories:

• Spiking Neural Networks (SNNs) training and/or inference, for both ML and neuroscience application.
• Event-based sensors data handling.
• Digital hardware designs for neuromorphic applications.
• Mixed-signal hardware designs for neuromorphic applications.

Get in touch with us if you wish to give a talk, write an article or to know more about the neuromorphic world.

Akida - BrainChip​

Learn about BrainChip's neuromorphic hardware: Akida

• Home /
• Neuromorphic Computing /
• Neuromorphic Hardware Guide /
• Akida - BrainChip

Akida At A Glance​

Announced Date: 2023-01-29
Release Date: 2023-01-29
Status: Released
Chip Type: Digital
Neurons: Configurable
Synapses: 8-Mb SRAM
On-Chip Learning: true
Power: ~30 mW
Software: MetaTF
Applications: Smart sensing, one-shot learning

BrainChip's Akida is an ultra-low-power neuromorphic processor inspired by the brain's neural architecture. It accelerates complex AI at the edge through event-based processing, on-chip learning abilities, and support for advanced neural networks like CNNs, RNNs & custom Temporal Event-based Nets.

Developed By:​

BrainChip
company/brainchip-holdings-limited/ @BrainChip_inc BrainChip
Official Product Page

Overview​

Inspired by the human brain’s neural architecture, Akida aims to deliver high-performance artificial intelligence capabilities at the edge while being extremely energy efficient.
The Akida processor is designed to accelerate neural networks including convolutional neural networks (CNNs), deep neural networks (DNNs), recurrent neural networks (RNNs) and Vision Transformers (ViTs) directly in hardware. A key feature is its support for a novel neural network architecture called Temporal Event-based Neural Nets (TENNs) which are optimized for processing complex time-series data efficiently.
Akida employs an event-based processing approach where computations are only performed when new sensory input is received, dramatically reducing the number of operations. This also enables event-based communication between processor nodes without CPU intervention. The architecture further supports on-chip learning, allowing models to adapt without having to connect to the cloud.
The second generation Akida platform adds capabilities such as support for 8-bit weights/activations, improved vision transformer acceleration, multi-pass sequential processing, and configurable local scratchpads to optimize memory access. It is designed to run larger neural networks across multiple chips while minimizing latency.
Akida leverages standard machine learning frameworks like TensorFlow and development platforms like Edge Impulse for model training and deployment. BrainChip also provides complementary software tools like MetaTF to optimize models for the Akida hardware. Pre-built Akida-compatible models are also offered through a model zoo.
Akida targets applications spanning industrial automation, automotive, healthcare, consumer electronics and more. Use cases include predictive maintenance, in-cabin monitoring, vital sign prediction, home automation, surveillance and more. Its efficiency and on-device learning abilities aim to enable a new class of continuously adaptive, secure and private AI implementations at the edge.

Related publications​

Date	Title	Authors	Venue/Source
August 2023	Low Power & Low Latency Cloud Cover Detection in Small Satellites Using On-board Neuromorphic Processors	Chetan Kadway; Sounak Dey; Arijit Mukherjee; Arpan Pal; Gilles Bézard	IJCNN 2023
August 2023	Neuromorphic Medical Image Analysis at the Edge	Ebba Bratman, Lucas Dow	Master’s course project
October 2022	Detection of facial emotions using neuromorphic computation	Teodoro Álvarez-Sánchez, Jesús A. Álvarez-Cedillo, Roberto Herrera-Charles

 

[DingoBorat]

Hi FF,
Google Vimeo Interview with Sean Hehir.

At circa 28 min mark Sean talks about being heavily engaged with a communication company that may buy the IP. Note words heavily involved and may buy.
I think this was recorded in May'22???
If they did proceed they should be just about through the processes by now????

"At circa 28 min mark Sean talks about being heavily engaged with a communication company that may buy the IP. Note words heavily involved and may buy.
I think this was recorded in May'22???
If they did proceed they should be just about through the processes by now????"

Ericsson is letting go 8,500 workers, the biggest layoff the telco industry has seen so far

The layoffs at Ericsson will impact 8% of its workforce of 105,529 staff worldwide, as part of its cost-cutting measures.

techwireasia.com

"The layoffs at Ericsson will impact 8% of its workforce of 105,529 staff worldwide. The move is part of its cost-cutting measures, the company memo reads. A spokesperson said most layoffs would take effect in the first half of 2023 but could extend into 2024"

So maybe this is the IP deal that got shelved, by the "unknown" Company?
But if so, looks like there's still some Life in it??....