Please make one about NVIDIA vs Google A.I-GPU architecture! And no! just architecture, size, etc... will not accomplish data gardering necessary, and google has tons of e-book's GPT will never have along with conversations and videos...

no worries, we understood that you meant interference

Please work of pronouncing the T in InTerference, it sounds like you are saying inference which is more a task the CPU/GPT might be used for.

dw you're fine, ty for lettings ppl know

The neuron is thousands of times bigger, yet the brain has more capacity than any computer, proving that it's not size that matters, but architecture.

you are amazing

Yup, put a divalant atom in the middle and you can tune it to all sorts of stuff ranging from photocatalysts to energy harvesting to quantum phase modulators like described as single atom transistors.

So, what is new in this latest proposal then?

From a theoretical point of view metal complex compounds are interesting becauce we easy can change the electron density in the center ion by variations in the ligand. So a lot of research was done with organic semiconductors. I worked in solar vell research and there it has a big advantage over silicon as it has a highter absorbtion coeficient for light.

@@koka3243 It is a step forward from theory to application.

There is also the other side of the coin minted by Einstein: “Everything should be as simple as it can be, but not simpler” - a scientist’s defense of art and knowledge - of lightness, completeness and accuracy.

I worked on the ill-fated Chipgraph, and then the apparently-ill-fated BlockStation

I am guessing, this is a natural single-electron transistor (SET) - single electrons can jump on-off that island in the center of the molecule. But why cool it? It should work at room temperatures as well, given the large Coulomb gap (in the energy spectrum) at this size. By cooling you get the so-called single impurity Kondo model that describes the system, with spin replaced by charge. And you do get quantum description. But it should work in the classical regime as well. Too lazy to read the original article, though, will just wait for someone to explain this on YT)

@@koka3243 I think she mentioned somewhere in the video that the problem wasn't the porphyrin, but the graphene at the ends.

Apart from the issues with temperature of the source and drain graphene, I wonder if the other major issue is scaling processor interconnects down which may also suffer from quantum tunnelling effects at particular scales/current to connect to the transistors - to then be connected to at the classical computer layer (MB IC, RAM, I/O etc). Likely this will be a long way off from commercialisation, but this research could lay the foundations to solve the other problems for the implementation of transistors designed at this scale. I do know there was some work in the quantum computing space for generating and controlling single electrons, so certainly the techniques are actively being developed - but if super-low temperatures are required for operation (electron control/source & drain stability), it makes the plausibility of these systems for generic computing unlikely.

She's married dude... but I feel your pain. 😄

@@CensoredByKZbin. Eh, I've been genuinely considering this stuff for a while after knowing couple of folks who keep telling me about this stuff, lol

​@@CensoredByKZbin. Maybe their marriage is destructive inference?

challenge accepted haha @@CensoredByKZbin.

Bravo!

*FAR from perfectly understandable. Yes, very interesting but too cringey n 4 that reason I'm out at ~2:00.

​@@ralph3333i don't know why a person that is talking about physics is cringey

As a non native English speaker I find her hard to understand, kind of distracting even with subtitles. Great content and explanations, per se.

I think how some people pointed out the pronunciation was fine because knowing that she meant interference, not inference is a distinction we need to fully understand what the presenter intended. They are similar only in how they are spelled and sound. Inference is a conclusion or deduction based upon evidence, particularly indirect evidence. Interference is intervening in a situation where it is not necessary or inserting oneself in a situation where one is not wanted, meddling. Interference in this video is the waves interfering with/cancelling each other out.

This sounds interesting.

Are you living in a Star Trek universe? This is clearly impossible.

​@@tempname8263 let people dream bro

And if that then, humans in a thousand years are going to be perturbed that mores law is approaching plank length.

@@tempname8263 What exactly do you think is impossible? Computation with waves? This has in fact been thoroughly begun including useful algorithms involving matrix calculations utilized in optical computers. If you think electrons are not waves? If you think transistors have to be Newtonian physical devices? What is impossible is arguing against such a vague assertion of possibilites.

^this

wdym they are completely different in meaning

​@@genres381 She sometimes says "inference" when she clearly means "interference".

@@genres381 Levenshtein thinks that they are similar :)

Fyi she has a pinned comment at the top acknowledging the oversight.

Interesting enough during the synthesis a copper atom is inserted first then replaced with iron or magnesium depending on if heme or chlorophyll is being made. It is also why copper is poison to plants, if too much copper is absorbed the plants cannot properly synthesize chlorophyll.

And apparently, chlorophyll relies on an amazing quantum effect to work irs magic. I'd like to learn more about that!😮

​@@user-gv4cx7vz8t I can add that copper is what gives chlorophyll its green color. It's interesting that plants use this metal and several other metals to process photons. It would be a misconception to say that plants use various metals to process (and I will even say calculate) electric current similar to how computers use various metals to process and calculate. It would be that computers have some plant-like behavior not the other way around. Quantum Biology and Organic Computing is perhaps the most interesting because it is thought to be 3%-100% efficient depending on what is being measured. I think technology can continue to improve so long as researchers are grounded and in touch with nature. Most of our technology is a result of analyzing and attempting to synthesize and replicate an existing natural behavior or state. Just spit balling here but I wonder if the right copper mixture could be developed for solar panels. Currently Silver is the metal being used in solar and as far as we know silver is the best. But silver solar panels are only like 12%- 20% efficient. I think we have more to learn and apply from photosynthesis, thinking there will be a major leap in solar efficiency and significant production cost reduction. If people could figure out how to mimic photosynthesis with new ideas (like as described in the video) that makes current obstacles strengths instead of the reason why it's currently impossible that would be very cool. My apologies I possibly could have been more concise and or perhaps more accurate. Yet I wanted to present my thoughts and move on. Enjoy 😊

You forgot to mention that plants breath CO2 in order to produce oxygen, so we should all buy big block engine cars and help feed those plants.

@@thatscrazy4487 so plants breath / absorb whatever is in the air (air is not exclusively oxygen and carbon dioxide) air earths atmosphere is mostly nitrogen, nitrogen (N2), 78.084 ; oxygen (O2), 20.946 ; argon (Ar), 0.934 ; neon (Ne), 0.0018 ; helium (He), 0.000524. Yes it's mostly the CO2 that is used to produce oxygen. But plants take in everything and if it's good they metabolize it if it can. Trees consume and metabolize methane, nitrogen, and likely all other gasses and vapors that are in the air. I'm not an expert obviously, but I'm not an initiate ether. The strangest thing to me is the current belief is that trees turn sunlight into sugar. I disagree completely with that theory. I think it's more like the sunlight/ photon is being used to cook, distill, and solidify one or several elements (depending on how much of whatever the tree may or may not be deficient or genetically predisposed to need or produce) to make ingredients for making the sugar. Sugar is a carbohydrate it's composed of carbon oxygen and hydrogen. So it's not the sunlight that is being turned into sugar. It's the sunlight being used by the tree that turns the atmospheric gasses (that trees breath from the air and absorb from the ground) into liquid and solid sugars as well as other body building components. Capillary action in plant cellulose and various gravitational fields (mostly the moon and sun fields) are responsible for moving solids liquids and gases throughout the tree. For simplicity sake let's just say vital nutrients. The mechanisms for vital nutrients motion. The photon is a non-additive catalyst. Consider electrolysis for a moment. When the current is turned off did the water hold and retain all the electricity that went into it? No it didn't, you can touch water that was electricity charged and be fine because it is no longer charged. The water is turned into hydrogen and oxygen by the electricity. The electricity was not turned into hydrogen or oxygen, the electricity is not stored in the water. From start to finish the electricity is a non-additive catalyst. The photon is a non-additive catalyst at all times. Light and heat convection, conduction, and radiation not adding to or taking away any matter at all but the mechanisms of elemental materials electrochemical transmutation. For all we know photosynthesis may be entirely dependent on Nitrogen, Argon or Methane as a linchpin. Maybe the reactions and oxygen production would be impossible without hydrogen or something. Just food for thought. Thanks for considering. Enjoy.

i was told she was married already unfortunately.. :(

@@dtrueg already married? Then I'll stop buttering her up. Unless....if she is BI like me AND her progressive husband doesn't consider being with a woman as cheating 🥰

My favorite fantasy game: try to guess how square mm silicon need for a c64 computer or my first 286 pc..... I think a qfn32 package will be enough....

​@@gyubear I'm currently designing (for my own solace, maybe I'll end up publishing it as a didactic example) a very simple computer, with no CPU or ALU but able (in theory) of computing maybe 200,000 8 bits × 8 bits multiplications per second, and with special features such as every microinstruction being tagged one of four execution modes when used: unconditional execution, execute if X flag, execute unless X, or Breakpoint (to debug instructions' microcode or the hardware).

When you absolutely must have it now and can't wait for 20 years of R&D to catch up, you go exotic. Side note... Are there any "supercomputers" like the Cray anymore? With exotic sub zero cooling? I can imagine watercooling is probably a thing simply because of the heat transport potential vs air, but I'm not aware of high end refrigeration in the supercomputing space anymore. As far as I'm aware, the focus has been on more units of fairly mainstream-adjacent hardware with almost generic data centre practices.

The molecular structure is literally the same as hemoglobin and chlorophyll. It's not graphene in that arrangement.

The use of Graphene reminds me of USD billions in snakeoil and false promises.

Funny, I was just thinking of Digital waves

Wave theorum and Quantum effects.

I have a bit of a leakage problem myself, maybe I can apply the same technology in my situation.

@@thatfatman6978 flex seal may be able to help

@@thatfatman6978 So whats why the other channel gets blocked every now and then, I'll explain it my doctor.

She said inference, not interference.

the flying cars are called airplanes..😁

@@marcelarias3741ou hélicoptère 🚁

The only reason we aren't using flying cars is it would be insanity in densely populated areas

@@patrickday4206 back to the future movie 😉

​@@patrickday4206 Self flying vehicles could work, take out the human factor.

Thank you :)

If only solid state devices worked off of hand-waving.