BRN Discussion Ongoing

[Bravo]

Beyond GPUs: Why Neuromorphic Chips Could Power the Future of AI​

This investment landscape is already starting to take shape
12h ago · By Luke Lango, InvestorPlace Senior Investment Analyst
Key Takeaways:

• Neuromorphic chips mimic the brain’s architecture, offering massive energy savings and real-time processing for edge AI applications.
• Companies like Intel, IBM, and BrainChip are pioneering the space, while suppliers like Analog Devices, Lattice, and Synopsys stand to benefit as adoption grows.
• As AI scales and power constraints increase, neuromorphic computing could become essential infrastructure, especially for robotics, healthcare, and smart devices.

Right now, AI is quickly transforming everything from content creation and cybersecurity to drug discovery and supply chains. But beneath all the buzz around ChatGPT, autonomous agents, and trillion-dollar GPU booms, a quieter revolution is forming – one that could reshape the very foundation of how machines learn, adapt, and think…
It’s called neuromorphic computing: a brain-inspired approach to building computers.
Instead of relying on traditional CPUs and GPUs that process information in a linear way, neuromorphic systems mimic the structure and function of biological neural networks.
Think of it like this: while a traditional chip acts like a calculator, a neuromorphic chip behaves more like a brain. It uses spiking neurons that fire only when triggered, operates in parallel across massive arrays, and consumes dramatically less power.
This kind of architecture is particularly well-suited for AI tasks like pattern recognition, sensor fusion, real-time decision-making, and low-power inference at the edge (meaning directly on devices like smartphones, sensors, or robots, without needing to send data back to a distant cloud server).
In short, this seems like a revolution waiting to happen.
If you’re looking for the next big thing in AI infrastructure – the kind of leap that could enable robots to think like humans, edge devices to learn on the fly, and AI systems to run 100x more efficiently – this could very well be it…

The Next Frontier in AI: Why Neuromorphic Chips Matter Now​

From where we sit, the timing for neuromorphic computing couldn’t be better.
AI workloads are exploding. Edge devices are proliferating. Power consumption is becoming a major bottleneck. And everyone from chipmakers to neuroscientists is looking for the next leap forward beyond brute-force deep learning.
Neuromorphic computing could be that leap.
And this is more than a hypothetical; these devices have already been built. And while early and small, they are showing lots of promise.
According to Intel (INTC), its experimental Loihi 2 neuromorphic chip has demonstrated energy savings of up to 100x over conventional CPUs and GPUs for certain inference tasks. And Cortical Labs’ DishBrain system, which combines living neurons with silicon, has already shown the ability to learn simple games like Pong in real time.
But these achievements could be just the tip of the iceberg for what’s to come.

Where Neuromorphic AI Could Deliver the Biggest Impact​

Though not yet at scale, we see real-world application potential across multiple high-growth sectors, like:

• Edge AI: Neuromorphic chips are ideal for smart sensors, drones, autonomous vehicles, robotics – any system that needs to make decisions locally, with minimal power draw. For instance, they can enable drones to recognize obstacles and adjust flight paths in real time without draining battery life. In autonomous vehicles, these systems can process inputs from cameras, radar, and lidar to make split-second decisions while conserving energy.
• Healthcare: These chips could be used in portable diagnostic devices that monitor patient vitals and detect anomalies instantly, such as wearable ECG monitors that flag irregular heart rhythms. They could also power adaptive prosthetics that respond to neural signals from the user’s body, creating more intuitive movement. Researchers are also exploring neuromorphic processors as the backbone of brain-computer interfaces to achieve more seamless two-way communication between humans and machines.
• Cybersecurity: Since neuromorphic systems excel at detecting subtle patterns and anomalies, they are well-suited for identifying unusual behavior in data traffic that may signal a cyberattack.
• Finance: In the financial sector, neuromorphic processors could be used to analyze high-frequency trading data or detect fraud in complex, noisy data streams – i.e. identifying unusual patterns in credit card transactions or spotting early signs of market manipulation.
• Energy efficiency: As AI workloads grow exponentially – particularly in data centers – power consumption has become a major concern. Neuromorphic chips, modeled after the brain’s energy-efficient architecture, can dramatically reduce the power needed for tasks like image recognition or language processing.

Who’s Building Neuromorphic Chips – And Who Stands to Profit​

A small but growing group of companies is building the neuromorphic future. Some are public. Most are still private. But the investment landscape is already starting to take shape.
There is BrainChip Holdings (BRCHF): the purest publicly traded neuromorphic play – albeit a very risky one. The company makes the Akida chip, a neuromorphic processor designed for ultra-low-power edge AI. It’s already being used in smart sensors and defense applications.
BrainChip also holds IP licensing and development agreements with major entities (including Renesas, MegaChips, Mercedes, NASA, and Raytheon, as well as a cybersecurity project with Quantum Ventura tied to the U.S. Department of Energy).
Revenue is still modest, and the company is largely unproven. But if neuromorphic computing hits an inflection point, the potential upside could be massive.
On the more stable side, we have Intel. The blue-chip tech giant is dabbling in neuromorphic computing.

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Its Loihi project is one of the most advanced neuromorphic research platforms. And while it’s not yet a commercial product, Intel has the resources, IP, and foundry capacity to scale if neuromorphic demand accelerates. Think of it as a “call option” in this emerging field.
In a similar vein, there’s also IBM (IBM). Its TrueNorth chip helped pioneer the neuromorphic field. Today, IBM remains a powerhouse in brain-inspired computing, neurosynaptic research, and AI infrastructure.
It’s a slower-moving giant, but it’s quietly investing in the foundational tech of the future.

Potential Key Players Across the Neuromorphic Supply Chain​

Further down the supply chain are Analog Devices (ADI) and Lattice Semiconductor (LSCC) – two potential supplier plays on neuromorphic computing.
Since these systems rely heavily on analog signal processing and mixed-signal semiconductors, ADI could benefit greatly.
Meanwhile, Lattice is focused on low-power field-programmable gate arrays (FPGAs) for edge applications – essentially, customizable mini-computer chips that can be programmed to do specific tasks.
While not explicitly neuromorphic, Lattice is well-positioned to benefit from increased demand for adaptable, low-latency AI inference platforms at the edge.
There’s also Cadence (CDNS) and Synopsys (SNPS) to consider. After all, designing neuromorphic chips isn’t easy. It requires new tools, simulation software, and mixed-signal modeling. These electronic design automation (EDA) companies are the picks-and-shovels plays on the whole space.
Other picks-and-shovels plays?

• Specialty memory makers (Micron (MU), for resistive RAM and phase-change memory)
• Foundry toolmakers (Applied Materials (AMAT), Lam Research (LRCX))
• Sensor and signal companies (Ambarella (AMBA), Cognex (CGNX))
• AI edge infrastructure suppliers (Qualcomm (QCOM), Nvidia (NVDA))

With a diversified approach, you get exposure to the ecosystem without betting it all on a single chipmaker.

Final Word: Brain-Inspired AI Is Coming Faster Than You Think​

Neuromorphic computing isn’t just the next chip upgrade; it’s a radical leap forward. These brain-inspired systems promise to make machines smarter, faster, and far more energy-efficient.
If they deliver, they won’t just improve AI… they’ll redefine it.
And like every breakthrough before it, the biggest gains go to those who get in before the crowd catches on.
This is the kind of opportunity that could turn small-cap pioneers into market leaders – and supercharge the incumbents building tomorrow’s AI infrastructure.
It may be early days for neuromorphic computing, but it’s no longer theoretical.
The seeds are planted. The architecture is real. And the use cases are arriving fast.
In fact, there’s one we’re particularly bullish on…
Humanoid robotics.
These machines demand the kind of real-time, low-power intelligence that neuromorphic chips are built to deliver.
As production scales and adoption accelerates, the companies developing this tech could be at the heart of a trillion-dollar disruption.
Right now, one company seems poised to win the robotics race. And we’re got our sights set on one little-known firm in its supply chain that could soar as a result.

Beyond GPUs: Why Neuromorphic Chips Could Power the Future of AI

Neuromorphic chips mimic the brain to deliver faster, lower-power AI. Explore where this next-gen tech could make the biggest impact.

investorplace.com

 

[manny100]

ooops Mercedes link mentioned above where they discuss Neuromorphic AI.
Neuromorphic computing: More energy efficiency in autonomous driving of the future | Mercedes-Benz Group > Innovations > Product innovation > Autonomous driving

 

[jrp173]

But they promised at the AGM to actively engage and communicate with the shareholders. I am sure that AV said that they would and will do better.
So that empty promise is hopefully not the same as our commitment to revenue this year, but I guess they won’t be able to remember what they said or signed off on will they, going on past performance's.

But in saying that there sure has been plenty of progress and linked in stories, hopefully they can be believed and something good comes out of it.

sure they said that, but in my opinion nothing has changed in their engagement with shareholders since the AGM, and we are left to assume that there has been progress and search LinkedIn for information every day.

I personally was hoping for better.

I have also emailed the company has received no replies, and the replies I have received from the new IR company, were not even worth the paper they were written on. Very disappointing all around!

I don't know why BRN would spend money engaging a new IR firm, when they just give stock standard replies, and in many cases (according to other shareholders), no replies at all!

Feels like groundhog day (in terms of IR).

 

[Kingkong2015]

sure they said that, but in my opinion nothing has changed in their engagement with shareholders since the AGM, and we are left to assume that there has been progress and search LinkedIn for information every day.

I personally was hoping for better.

I have also emailed the company has received no replies, and the replies I have received from the new IR company, were not even worth the paper they were written on. Very disappointing all around!

I don't know why BRN would spend money engaging a new IR firm, when they just give stock standard replies, and in many cases (according to other shareholders), no replies at all!

Feels like groundhog day (in terms of IR).

in agm that old lawyer FF suggested them to hire a IR management company.

 

[Kingkong2015]

Hi Rach2512,
Am I reading this correctly that metavisions XR glasses are using Propesse technology
Sounds very exciting if this is also a possibility for brn to be involved ?.

Very likely.

While Meta has not officially confirmed using BrainChip’s Akida processor in its smart glasses, the possibility is strong given the alignment of technologies. Prophesee’s event-based vision sensors—already linked to Meta—pair naturally with Akida’s neuromorphic chip, which enables ultra-low-power, real-time AI processing at the edge. This combination is ideal for smart glasses requiring fast gesture recognition, eye tracking, and privacy-focused on-device inference. Recently, BrainChip released highly efficient eye-tracking and video-processing models optimized for wearable event-based vision, further strengthening its fit for this use case. Additionally, one of Prophesee’s key investors, Xiaomi, has released its own smart glasses using a Qualcomm AI chip to run a LLaMA 3.2 1B model. However, performance comparisons indicate that BrainChip’s Akida—thanks to its neuromorphic, event-driven architecture—can achieve significantly faster inference and dramatically better power efficiency for similar edge AI workloads. While exact numbers vary, Akida is widely regarded as offering an order of magnitude better speed and efficiency, making it a far more compelling solution for always-on, intelligent wearable devices like Meta’s smart glasses.

 

[Kingkong2015]

Unlike earlier rumors suggesting the Nintendo Switch 2 might use BrainChip, it’s clear that such a device doesn’t truly need Akida—since its primary function is gaming, and any edge AI use cases would be minimal or secondary. However, Meta’s AI smart glasses are an entirely different story. Integrating BrainChip’s Akida would significantly enhance their AI capabilities, enabling real-time image and video processing, efficient LLM reasoning, live translation, and advanced vision model recognition—all directly on-device with minimal power consumption. If Meta truly wants to deliver a standout product, Akida isn’t just a good option—it’s the most critical one. From my perspective as a strong believer in both BrainChip and its vision, this partnership is long overdue. I’ve anticipated this for a long time, and in my view, it’s the only way Meta can truly lead in the wearable AI space.

 

[Kingkong2015]

The only problem now is Akida GenAi is still in FPGA stage. so it won’t be in meta glass for now. My opinion dyor

 

[MDhere]

The only problem now is Akida GenAi is still in FPGA stage. so it won’t be in meta glass for now. My opinion dyor

Take your opinion elsewhere and shut that door lol (kidding)

 

[Pom down under]

in agm that old lawyer FF suggested them to hire a IR management company.

[

 

[Space Cadet]

From 12 days ago. Been out of touch lately. If posted already apologies but worth watching again anyway. Short and sweet.

SC

 

[MDhere]

From 12 days ago. Been out of touch lately. If posted already apologies but worth watching again anyway. Short and sweet.

SC

wtf SC that 2min32 video is pure BRILLIANCE ! thank you for sharing I had not seen it before. made my boring Sunday night at work turn into magic!

 

[JoMo68]

I think Frangipane posted it a few days ago, but it is fabulous. Exciting times indeed!

 

[Space Cadet]

I think Frangipane posted it a few days ago, but it is fabulous. Exciting times indeed!

Hats off to Frangi. Hadn't seen it myself.

SC

 

[Flenton]

Hi Rach2512,
Am I reading this correctly that metavisions XR glasses are using Propesse technology
Sounds very exciting if this is also a possibility for brn to be involved ?.

I might be wrong but I remember Prophesee already stating the use case and advantages of using Akida for event-based cameras (vision sensors) and this was a few years ago so surely they would have been promoting this extreme power reduction with reduced latency and increased accuracy.
There are many reasons akida should be in such devices and if they aren't, I'd like to know why not.

I am praying to see in the next quarterly a line like 'we have received our first royalty payment of.....' it could be $500 for all I care but a royalties reciept means things a are happening... the snowball has started rolling.
And if not and very little revenue is shown again I sigh and think maybe next quarter

 

[Steve7777]

From 12 days ago. Been out of touch lately. If posted already apologies but worth watching again anyway. Short and sweet.

SC

Thanks SC i hadn't seen that before. This article is from April but it's worth a read or re read after that video.

Frontgrade Gaisler Launches New GRAIN Line and Wins SNSA Contract to Commercialize First Energy-Efficient Neuromorphic AI for Space Applications

Frontgrade Gaisler Launches New GRAIN Line and Wins SNSA Contract to Commercialize First Energy-Efficient Neuromorphic AI for Space Applications

spacenews.com

Frontgrade Gaisler Launches New GRAIN Line and Wins SNSA Contract to Commercialize First Energy-Efficient Neuromorphic AI for Space Applications​

by Frontgrade TechnologiesApril 2, 2025

Gothenburg, Sweden (April 2, 2025) – The Swedish National Space Agency (SNSA) has awarded Frontgrade Gaisler, a leading provider of radiation-hardened microprocessors for space missions, a contract to commercialize the first neuromorphic System on Chip (SoC) device for space applications. Already in development at Frontgrade Gaisler, the device is part of the company’s new GRAIN (Gaisler Research Artificial Intelligence NOEL-V) product line.

The first GRAIN device that Frontgrade Gaisler will premier – the Gr801 SoC – integrates AkidaTM neuromorphic technology from BrainChip, the world’s first commercial producer of ultra-low power, fully digital, event-based, neuromorphic AI. The GR801 combines Gaisler’s NOEL-V RISC-V processor and the Akida neuromorphic AI processor into a single integrated circuit to enable energy-efficient AI applications in the space environment. Sweden’s Royal Institute of Technology (KTH) is contributing to this development by designing a demonstration application that uses a neuromorphic sensor directly connected to Gaisler’s new GR801 device.
Frontgrade Gaisler is designing the entire GRAIN product line to enable more advanced and autonomous space missions, and to enhance the space industry’s capabilities in energy-efficient AI. The GR8001 SoC will support both commercial and institutional space missions, enabling new applications and meeting strict power and weight constraints.
“Our latest innovation opens new avenues and complements our existing range of proven and reliable processing products,” said Sandi Habinc, General Manager at Frontgrade Gaisler. “GRAIN is an exciting new pursuit for Gaisler because we are well positioned to enable new capabilities for real-time data processing, autonomous navigation, Earth observation, and object detection and tracking.”
“Our continued collaboration with Frontgrade Gaisler to incorporate Akida IP into space SoCs showcases the importance of having environmentally hardened solutions, already proven to perform in the most extreme conditions,” said Sean Hehir, CEO of BrainChip. “We have worked hard to ensure our neuromorphic technology can meet the low-energy, low-latency, high-performance needs of GRAIN and other space-based devices in order to provide AI at – and beyond – the edge.”
Frontgrade Gaisler announced its new GRAIN product line at the second RISC-V in Space Workshop 2025, in Gothenburg, Sweden. The event focuses on how RISC-V technology is being leveraged in space systems, ranging from satellites to deep space missions. Learn more about the GRAIN product line at gaisler.com/grain

 

[itsol4605]

Nice !

Why Neuromorphic Chips Are the Future of Personal Devices

The demand for faster, smarter, and more energy-efficient personal devices is pushing technology far beyond

deliveredsocial.com

 

[Space Cadet]

Have to go to work so putting up here unseen. Betting some interesting
stuff here. Will look at it this arvo. Putting up just in ase someone is interested

https://www.risc-v.space/wp/front_page/conference-material/

 

[smoothsailing18]

A must watch, we will to be involved in some form this would be fantastic, imo. Positive affirmations only.

 

[7für7]

A must watch, if we are involved in some form this would be fantastic.

Let’s be hones… the current wave of AI wearables isn’t failing because of a few bugs or bad PR…..It’s failing because the whole concept is off.

You pay 700 bucks upfront, then get slapped with a monthly subscription, additional to your monthly telecommunication anmd internet bill..And for what? A device that does less than the phone already in your pocket. That’s not innovation. That’s reinventing the downgrade … now with a payment plan.

Then there’s the genius idea of projecting private info onto your hand in public. Or using voice commands in the middle of a crowded train. Because, of course, everyone around you needs to hear who you’re texting and what weird question you’re asking your assistant. YES I ASK WEIRD QUESTIONS!!

And to top it off…the others wrap it all up in a digital pet… a virtual rabbit.
As if the target group for AI productivity tools are 8-year-olds.

So if wearables like this don’t work… what’s next?
Honestly, there’s only one logical path left…IMO

Full integration. No more devices. No more gadgets. Just tech that disappears into you.
Call it what you want… implant, interface, neural mesh. A system that enhances memory and cognition…connects data without you asking
assists silently, without needing a screen or a “wake word” and…doesn’t need to explain itself with blinking lights or holograms…

Of course, there are obvious questions…security, health risks, ethics. Sure.
But let’s not pretend we’re not heading exactly in this direction because everything else is just noise.

And no… an “invisible” assistant that follows you from smart speaker to car to smartwatch doesn’t solve it either.
Not if it needs cloud access 24/7. Not if I have to talk to it like an idiot every time. And definitely not if it’s one more account to manage.

Current AI wearables aren’t the future. They’re awkward, expensive distractions that try to solve problems nobody had. (I don’t talk about the product’s which could help actually people with healthy problems… )

If we’re serious about this.. and I mean actually serious… then it’s either…tech that blends in so well you forget it’s there…or tech that becomes a part of you entirely

Everything else? Gimmicks.

And they can keep their talking pins and virtual bunnies. I’ll pass.

Oh I forgot… you maybe don’t need to wear the AI …the AI wears you! #Surrogates

Edit…. GO BRAINCHIP

 

[CHIPS]

A must watch, we will to be involved in some form this would be fantastic, imo. Positive affirmations only.

What makes you think that we are in there?