Комментарии:
hmmmmm... could similar trapping tech make a battery? even cooler would be if such battery would not release its power until a control signal is given on a 3rd pin.
ОтветитьWhy are there a limited number of writes?
ОтветитьI have a deep profound respect for you guys who make these kinds of videos. The research and effort gone into making this video alone is laudable. Hats off to you guys.
ОтветитьQuantum Mechanics Shit.
May be it's the other relativistic Shit that makes it better 😂😂😂
It is said that NAND data can only be stored for 4 weeks at 55 degrees Celsius. If my SSD works at 55 degrees Celsius, does it mean that the controller needs to rewrite the data after every 4 weeks of operation to prevent data loss? Or rather, after powered on, NAND itself could prevent electronic loss without consuming the lifespan?
ОтветитьDies of too mutch information
ОтветитьIncredible video
Ответитьthat's not quantum that's just physics not everything has to be quantum as some kind of excuse
ОтветитьHoly Cow!! This is a huge amount of info I have never heard of! Many thanks!
ОтветитьHow do companies physically make things that small? And fast enough to make it affordable to every kid who wants an ipad? Like what kind of machine does this?
ОтветитьI work on embedded systems which use these memories..but I have never understood these complicated construction until i came across this awesome video with fantastic explanation and animation.. thanks to the creators
ОтветитьMakasih bang, akhirnya PR gw kelar
Ответитьhow on earth did we go from stick and stones to this
ОтветитьThank You
ОтветитьSeeing a 1TB Micro SD still blows my mind.
How were all the components being fit it such a very tiny space? 🤯
Imagine going back to the 1970s and tell a scientist that you have a quantum computer in your pocket
ОтветитьThank you for the thorough and accessable explanation. I was watching another video on another channel on electrochemical computation and it occurred to me that the method they were using would not hold up well too many cycles and was not good for fast computation. I thought instead that using capacitors for calculation and less volatile form memory for long-term stability, instead of the electrochemical battery like structures they were using be the best way to do it. And I got to thinking about solid-state drives and how they have to be non-volatile but I didn't know how they worked at a microscopic level. And with an easy search I found your video and found the explanation. Storing a charge in a Quantum well tunneling right and then field potentials to read is An Elegant solution. It probably could be used in simulated neurons alongside capacitors.
Ответитьso then how do we controllably release the electrons from a charge trap when its time to erase or rewrite?
Ответитьbut now the question ist: how is that thing made?????
Ответитьdamn.. i could only understand half of this
ОтветитьBrilliant, again!
ОтветитьAbsolutely astounding!
ОтветитьGood video
ОтветитьThe only way to improve memory to 1000 times of capacity is by its voltage, it is previously done by a scientist who fit 16 Hd movies in 16kb. But he died just before publishing this technology
ОтветитьI found no quantum mechanics in it. If there are 10 levels 3 bits for each means 2^30 possibilities. So u have to make 2^30 kinds of memories. For data feeding also every time read of 30 bits and choose particular mermory unit. It looks improved but at the end of your research. You will find older is better than improved.
Ответитьoh my god. there is a finite amount of energy in the universe, why are we putting so much of it in jail?
ОтветитьOh ! Now i understand why strong magnet can destroy the harddrive ..
It will disturb the electron cloud , hence electron probability.
Sir,
How to call certain memory cell.
Can you please explain the addressing of memory cells and any clock required for the memory card.
So the electrons are on one side, then they just... decide to be on the other side? Quantum mechanics is fucking wild
ОтветитьBut I'm very curious how these are made. Of course the theoretically background in itself is stunning enough, but how do you build something like this?
ОтветитьIncreíble chups que duran un billón de años
ОтветитьInteresantes video , gracias
ОтветитьIt's pretty amazing to know that to build something so sophisticated and precise, that on a molecular level these technichians are working blind. Because when building things you can usually see how you're shaping it and constructing it as you go along with your eyes. Here it looks like you have to trust a computer screen to tell you what you are seeing because otherwise it's impossible to see with the naked eye.
ОтветитьFinally someone with the balls to get granular
ОтветитьDouble watch is must for more curious species
ОтветитьI would have studied my high school books📚 more Interestingly if I had found the channel before..❤️
ОтветитьAmazing and very well done, even for a noob in quantum like me could understand the concepts. Thank a lot
ОтветитьWow, I'm baffled. I had no idea flash memory works because of quantum tunneling. Now that's a mind blow.
ОтветитьAh yes. Back to conventional harddrives it is then. Miss me with that shit
ОтветитьHonestly, the more I know, the less I know...
ОтветитьWhat I find amazing is that a photo, text message or document probably being saved or stored in multiple cells in many layers, would need it's own unique identifier to help the CPU or the chip which would retrieve this information pull out each and every bit located in the different cells needed to make the text message or photo. Because if you have millions (well billions nowadays) of bits making up one photo for example located in many cells, you're going to need an extremely reliable way of being able to find all the bits in each cell needed to make said photo
I mean of course the phone does this without us thinking about it
I'm astounded by the level of detail you go into
ОтветитьSuch a beautiful video!
Ответить🙂
ОтветитьAfter watching this i wonder how in the first place they are able to synthesize material on a nanoscale level, now that i will love to watch
ОтветитьWow 🤯🤯🤯
ОтветитьInsane.
ОтветитьIm high af trippin out
ОтветитьGreat work Thank yoU
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