Photonic Neuromorphic Computing: The Future of AI?
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- čas přidán 25. 06. 2024
- Photonic computing processes information using light, whilst neuromorphic computing attempts to emulate the human brain. Bring the two together, and we may have the perfect platform for next generation AI, as this video explores.
If you like this video, you may also enjoy my previous episodes on:
Organic Computing:
• Organic Computing
Brain-Computer Interfaces:
• Brain-Computer Interfaces
More videos on computing and related topics can be found at:
/ explainingcomputers
You may also like my ExplainingTheFuture channel at: / explainingthefuture
REFERENCES
de Lima (2019) ‘Machine Learning With Neuromorphic Photonics’, Journal of Lightwave Technology, Vol.37, Issue 5 (March 7). Abstract and access options at: ieeexplore.ieee.org/document/...
Feldman, J. et al (2021) ‘Parallel convolutional processing using an integrated photonic tensor core’, Nature Issue 589 (January 6). Abstract and access options at: www.nature.com/articles/s4158...
Fourtané, S. (2021) ‘New Applications of Photonics for Artificial Intelligence and Neuromorphic Computing’, Medium (January 30). Available from: / new-applications-of-ph...
Intel neuromorphic computing web pages: www.intel.co.uk/content/www/u...
Intel silicon photonics web pages: intel.com/siliconphotonics
Ríos, C. et al (2019) ‘In-memory computing on a photonic platform’, Science Advances Vol.2, No.5 (February 15). Available from: advances.sciencemag.org/conte...
Sebastian, A. (2021) ‘Light and in-memory computing help AI achieve ultra-low latency’, IBM Research Blog (January 7). Available from: www.ibm.com/blogs/research/20...
Sebastian, A. & Bhaskaran, H. (2019) ‘In-Memory Computing Using Photonic Memory Devices, IBM Research-Zurich Publications blog post (February 15). Available from: www.ibm.com/blogs/research/20...
Shastri, B.J. et al (2021) ‘Photonics for artificial intelligence and neuromorphic computing’, Nature Photonics, Issue 15 (January 29). Abstract and access options at: www.nature.com/articles/s4156...
The Engineer (2021) ‘Photonic processor heralds new computing era’ (January 7th). Available from: www.theengineer.co.uk/photoni...
Chapters:
00:00 Introduction
00:57 Photonic computing
05:18 Neuromorphic computing
07:31 Neuromorphic photonics
11:24 Future hardware
#PhotonicComputing #NeuromorphicComputing #Photonics #ExplainingComputers - Věda a technologie
The way you are able to compress complicated ideas or concepts down into easily digestible bytes... It really is astounding.
Thank you for making this channel.
You're very welcome!
And without dumbing it down, too. The mark of a great teacher.
His manner and style is that of a very good British teacher. I bet he is even better with a live class of students giving real time feedback. So watch, listen and learn from a master.
@@Reziac in fact when we understand something we are compress complicated ideas (like iron ore where is too many atoms, we dont need to store every single atom, we can just know what all in this piece of ore contains atoms and structures and they are repeating) to it's meaning.
but in process of understanding we really will store in brain many "trash" data.
@@slimeball3209 Tell me about it. My brain saves everything... and can't be arsed to index it. So when one datum is processed, piles of junk data swirl up from sludge...
Intel’s choice of Loihi (Lo-eee-he) as a name is quite subtle. It’s presently an undersea volcano on the flank of the Big Island of Hawai’i and hidden to view but in the future it’ll be a giant island all of its own.
u mean the pacific garbage patch's reclaimation:?
It means, by the idea of petite androginous boy children
@@ianchan2624 Nope, but you already knew that 🤷🏻♀
Nothing better than watching a video on a difficult subject that provides its research sources. Shows that the creator of the video did his homework.
This is exceptionally high quality stuff. It reminds me of what the OU used to broadcast on BBC2 in the 1970s. I used to get up in the early hours to watch it, before we had a VCR. Not just computing, but physics, English, maths, history, chemistry. Whatever was on.
Yep me too, Im a 70s kid, I derived a strange masochist pleasure from those dry OU lectures at night/early morning on BBC2 😂 This was well before the BBC micro show in the early 80s put domestic and school computing on the map in the UK, the great old days 😉
Why do I have a feeling that this one is going to make my brain hurt a little bit? Man how I look forward to 9:00 a.m. EST on Sunday
EDT
@@kevinshumaker3753 Yes. I was forget to say EDT this time of year.
If your brain hurts a little it is because you’re using it correctly.
I like ketchup.
@@DarthVader1977 Mayo for the win.
I hope I live long enough to experience some of this. It's terribly exciting!
terrible indeed, not exiting at all.
@@leendert1100 It's completely alright if you can't understand it. It's rather complicated and requires some background. So no worries. But..... It's awesome!
Back in the late 70’s, when I studied electronics at University, we were imagining neural networks based on a self modifying, distributed type structure using a hybrid of analog and digital techniques. The technology didn’t exist back then.
Digital processing took over and got us to the point we are today and now, 40 years later, the technology may be finally catching up.
When I saw the subject of this video I thought I could hear it whooshing clean over my head, but Chris explained it so well that I actually understood it !
Dunno whether I'm more surprised at Chris or myself, but I definitely learned something today ! 😀
I love the way Chris stated his conclusions of 'not overtake, bit side by side von Newman arch. . . As best fits the use case' . I wish we'd see more of this with new technologies- rather than the unrestrained hype like with graphene, carbon nanotubes, teflon, and so on.
Loved this video.
This sounds a lot like the premise for "Terminator".
When we get to year 2030 Christopher will still not age one bit, then we realize he is computer generated all this time.
I’m reminded why this is my favorite channel on all of CZcams. Tinkering with SBCs one week, looking at cutting-edge R&D the next.
Working in my photonics lab in grad school I've always hoped to see the day computer architectures change to enable new usecases for photonic computing.
Very inspiring. Good to hear classic architecture will be carrying on for decades yet.
Sunday morning coffee and an interesting explainingcomputers video to watch! Off to a great start today!
Chris, wow, okay, mind blown. I love taking a look ahead into the future of computing in all of its possible forms. Thanks for sharing this information.
Thank you very much for this amazing video! When I was taking a Cisco networking class a few years ago, I thought about how light-based computing was possible but I had a bit of trouble figuring it out in my mind. A few years later, here is a fantastic video explaining the concept of light-based computing. The times have certainly changed.
Christopher,
1. Please excuse the tardiness of this note. I watched the video on Sunday, but got waylaid by the world. Namely Mother's Day
2. I can see why you would be a good and effective lecturer at university. You took a very complex topic and condensed it down to a number of relatively easily digestible bits and presented them effectively. In other words, you effectively dumbed down a complex topic without talking down to me. That is hard to do.
3. So, it appears computers are making advances in three areas
a. semiconductors go for ever smaller trace sizes and compressing more transistors into smaller and smaller spaces
b. quantum computing is still being researched and on sees bits and pieces about advances in this area and some semi-practical devices
c and no photonic computers
d. (no doubt there is still someone out there still touting fluidics and the cure for what ails you)
4. One wonders what programming languages (and operating systems) will look like for photonic and quantum computing devices will look like? Will the interfaces still be electronic with visual and touch devices or will there be more direct interface with the brain?
5. When will we be seeing the SBC version of a photonic computing device from someone like Raspberry Pi? 😊
Even Star Trek didn't dare such a name 😂😂😂
passionating subject, indeed
apparently, positronic networks = photonic neuromorphic networks + tasha yar
Duotronic circuitry and the M-5 Multitronic unit (TOS)... Isolinear chips and Positronic neural network (TNG)... Synthetic Bio-neutral gel packs (Voy)... The Borg... Are we all a joke to you?
I Loved your comment
@@saalkz.a.9715 I liked your comment even more.
@@janglestick no positronics use positrons which are positive electrons (anti-electrons).
I had to watch this one twice. The first time, I was having brunch and couldn't give this information my full attention. Alas, the gray matter is still reeling. I used to think the physical foundation (the silicon wafer/chip) needed to be changed because it's (basically) reached its maximum efficiency. As it turns out... It's the bus, stupid! Moving the data around is where the bottleneck is. Our computing devices might be going back to the beginning in ten or fifteen years: The Radio Shack Light Computer, The Commodore 64000 Quantalaser, The IBM Laser Jr. (made by Lenovo, of course). Thanks for another great video Chris.
Hi Steve. :)
That was a little different from our usual Sunday morning fare. Interesting topic that certainly provides food for thought. Thanks Chris.
I like to throw in a wildcard now and then. Next week we are controlling stuff with a Raspberry Pi Pico! :)
Wouldn't have expected that topic from you. Very cool. Thank you
We already have the nearest computational mechanism to the human brain (and mind). It is called the thermostat that thinks just like the human brain by experiencing the subjective experience of reporting "Now it is too hot, now it is too cold"
Brilliantly accessible coverage of the subject Christopher. Thanks also for your research sources too. Photonic Neuromorphic Computing is such a mouthful, so it's only a matter of time before the marketing bods come up with some strange acronym. PNC has a different (and depending on your proclivities/recidivism) meaning in the UK :)
A character in a novel I am writing has such a brain. Ill let you know how it all works out! Very nice presentation of the concepts!
I imagine Photonic Quantum Computing as Neural Net Architecture, in the progression toward the complete quantification of the human being like a large set of algorithmic logic, as a fluid metamaterial of nanotechnology, is going to lead to the eventual development of the Physical Spirit Being. You are a Human. You are a Machine. You are Fluid Nanotech Photonic Quantum Neural Human, and you are Human Energy that can generate yourself. You are Physical. You are Virtual. You are Living Data whose Sentience translates that Data into Human Information.
I remember a movie about Time Travel and a photonic intelligence.
"Time travel. Practical application."
On that note, there's also a game featuring a von Neumann probe. Grey Goo, a fairly decent real-time strategy game.
The von Neumann probe is a different concept then the von Neumann architecture, invented by the same guy (he was a prolific futurist). He posited the idea of self-replicating machinery, macro scale space probes that would go to other star systems, build copies of themselves, and send the copies forward to still more star systems. This process would repeat until you visited every single star system in the galaxy. Other later thinkers applied that same concept to nano scale machinery, which is where we get the grey goo idea that's the source of that game's name. Ironically a nanomachine would probably not use the von Neumann architecture.
Chris, you never cease to amaze me with your in-depth research and very clear explanations of new technologies. Thanks as always!
Hi Chris! :)
One of your best videos to date!
Thank you Chris for this incredibly informative video. I had already come across neuromorphic computing, but was unaware of photonic neuromorphic computing, so this information is greatly appreciated .
Your videos truly are great. I thoroughly enjoy them, they are so well structured and informative. Thank you kindly. Greetings from Barcelona.
Brilliant stuff. Thank you so much
Great video and starting point.
Thanks very much!
It is great!
This is really well-explained; you did a great job of explaining the key concepts and why they're important. Thanks for making this!
Yes, MEETOPTICS team completely agree!
That was quite a head full! Thank you very much! Never knew about this at all.
Is true you're creating a Symphony ! Genius
You Rock !
The video was great. I always like stuff like this. Keep making great videos like this :)
Thank you, sir! So much golden info.
Welcome to another video from Chris!
What an interesting subject, especially when IBM has released information on the 2 nanometre chip that it has been researching and is able to produce. Just imagine the trying to keep up with all of this future technology. Great video Chris and congrats on being able to keep up with all of the research you must have to do to keep up with all of this information.
thanks for explaining a complex subject into something understandable.
WOW!!! That is a great video thank you!!!! It's a GREAT time to be alive!!!!!
Highly appreciated if u could explain tech in depth of photonoc neuromophics
Who provides sources for their videos? Chris does!! Really, thank you for that. I know there are other channels that do that but I think it raises the bar.
HI CHRISTOPHER !!! Unique topic indeed!!!
Thanks for the very interesting and informative video. Both easy to understand and also high quality in presentation.
On the other hand, the possibility of having such powerful machinery ending up on wrong hands is scary indeed.
Excellent overview, thank you ever so much.
excellent video. i've been following photonics & neuromorphic research for a while and the possibilities are exciting.
Great work, Chris! Greetings from Brazil.
kamasutra has evolved beautifully. A neuromorphic internet infrastructure would set the world ablaze. Our ability to build synthetic artificial synapses and dendritic branching would give a whole new meaning to the future. AGi has arrived on our blindside.
Thanks very much for explaining complex concepts in a crystal clear concise manner.
We agree
From MEETOPTICS team!
It is about time when I first started studying this type of technology before even became available 25 years ago when I thought of something like that I never thought that I would actually live long enough to see other people making the technology a reality
Interesting topic. Great video!
Really interesting, informative and well presented. Great topic. Thanks
I'm getting notifications at least 2 minutes later. But once the notification pop-up, I arrive here for my weekly dose of EC.
Nice a new video as always I'm here hope you had a nice week thanks for quality contents.
Very interesting. Thank you.
While this topic is way above my Knowledge, the way you explained the subject matter just blew my mind. I really didn't think I would understand it but I definitely have an understanding of this type of computing now. Thanks for the great explanation and another great video.
Great info! Had no idea of this.
When you mentioned wavelength multiplexing in photonic hardware my mind blew a little.
Cool.
super interesting topic thank you
Very interesting and well explained
So good! We think so
MEETOPTICS team,
amazing video! very interesting, learned a lot here.
So nice and well explained!
Some of our shortest wavelength UV lasers are in the 270nm range. That’s quite large compared to current transistor sizes. There’s a reason electron microscopes can image smaller objects than optical microscopes.
Thank you. Great one this one !
So good!
Best regards from MEETOPTICS team,
Very, very powerful application!
Great video and subject
Thanks for sharing :-)
Thanks for this very clear video and providing links to the papers
It was super clear!
MEETOPTICS team,
Thank you for the extremely interesting video!
Our team from MEETOPTICS agreed!
I can't be the only one who joins in the recitation of Chris's intro and outro for every video like I'm chanting some sort of religious creed?
Certainly not!
Me too :)
Let's go and take... a closer look... at you 😜
This is one invaluable lesson. Thank you for your clear and concise explanation of photonic neuromorphic computing!
You're very welcome!
Great video.
Nicely explained
👍👍👍👍👍
Never failed to learn something new from you.
Thank you Christopher!
I miss this kind of subjects in your channel. Probably more adequate to your other channel?
Very interesting content!
This is one of the best tech videos I've ever seen.
great work
Very different from the typical content, but fascinating!
ok ... I have to admit, Christopher, that this one makes me feel like a photonic neuromoron. Thanks for the vid. :D
Now that was really interesting. Thank you!
So good, definitely
I really love these types of videos. I get stuck into my own research, and a heads up to new things is great. I was thinking that I could sure use the bibliography for this video and viola, there it is. Thank you for the references. Those will help jumpstart any literature reviews.
Happy reading!
Congratulations for introducing this topic so well in CZcams.This platform let us spread all we know about the field and from MEETOPTICS we are proud to be part of the photonics community and to help engineers and researchers in their search for optical lenses through our site. We celebrate every step forward.
Great explanation, thank you.
Yeah! It is, definitely
Oh yes, my fav channel, hey Chris!
Hey! :)
I wish this video had been available when I was doing research for my novel, Twisted Light. I absolutely believe that photonics will be the future in computing and in communication. Great video. Thanks.
Awesome deviation from the "normal" videos. Thank you sir for the glimpse into the future. Hope I live to see it. Must get those papers cited! 12 likes!!
Back in the early 80's, IBM patented a process that used red and green lasers, to read and write a crystal made of the same molecule inside your eyes.
When the red laser hit this molecule, it turned to "L" shape. When hit with the green laser, it would turn to an "I" shape and straighten out. Or something like that.
They said, they can fit 10 libraries of congress on a crystal the size of a sugar cube! They were going to make solid state optical drives that had fast read and write speeds (in nano seconds).
I never heard anything after that. Anyone else remembers this?
I do remember that.
This video is "required watching' for the Human Resistance against Skynet. Wonderful video, Chris; thanks!
Good Morning Mr. Barnatt. Here finally for the 10th 🥇 gold. Always supporting. Best tech stuff on internet is here. Many thanks. First.
Thanks for your support -- 10th Gold medal awarded! :)
@@ExplainingComputers Does Saturno live next door to you?
Very interesting my friend, thanks for the information
Thanks David.
Great video Chris. I made me think about HPE The Machine, making a memory centred architecture with cpu around the outside. Also the work Steve Furber is doing with spinnaker (Parallel computer in with ARM chipping ). I think I need to catch up on all the research as I have not had a good look for about 3 years. Maybe my prediction of memristors being the next breakthrough will be partly correct.
ExplainingTheFutureInComputers? 🤔😜
Very educational video right here, Christopher. Great work as always. 🙂
This is the ultimate goal of computing
Doctor my head hurts....ah have you been watching the latest video from Explaining computers on youtube ?!...
VERY INTERESTING VIDEO, thanks!
Yeah, sure!!
Awesome video! Very inspiring for a Physics Student as myself, hope it inspires more people on the Technology sector! Great references as well!
It is so good! It had inspire MEETOPTICS, definitely!
We are our greatest with the help of computers, Not without. Not just see and hear, Think ! Remember ?
This video stimulated my aging Neuromorphic Computer in my skull.
:)
Very interesting thank you!
The cutting edge of technology and future casting is always interesting! The story of how and when we get there is just as interesting. My sincere hope is that more good than bad comes from development. I’m sure the vast majority of happenings will be very positive. there is a nice kind of security in time delay due to hardware or processing times, but having things move quickly and fluidly is really nice too. So I’m looking forward to seeing what comes along. I’m really excited about using entanglement in communication/ information tech. I kind of wonder how far we will go.. I guess only time will tell.