Very interesting video, thanks a lot for the clear explanations. I laughed about your allusion to the Terminators :D. Please make more videos, you are very talented for that.
The only issue I see in memristors working as analog signal storage devices are the tolerances and temperature dependency of resistance will not give you accurate resistance values. So instead of an ideal memristor going from 10ohms to 100ohms, the power dissipation during the transition might put you at 105ohms. Also, if ambient temperature changes by +-20C, actual resistance might read 90-110ohms. So for ANNs that require precision in their weights, it will throw off outputs significantly.
Very good video !! thanks a lot for taking the time to explain the memrestor concept, I was looking for a straightforward explication beyond the popular hype news articles. Now I clearly understand the base concept, fascinating and informative video !!!! thanks again
Thanks so much for this video!! It's sooo cool! I'm thinking of getting into memristor research, but I've also been trying to follow quantum hardware advancements (some crazy stuff!!). How are they related, and how do qubits compare to memristors?
Typical convention is we say that current (electrons) flows from positive to negative, but since electrons are negatively charged, they actually move from negative to positive! We use the first convention for simplicity. I believe the other is called the ben franklin current convention haha
Technically, a small amount of current is not supposed to effect any amount of resistance change. Of course, in actual practice, I wonder if it could happen over time. I'm pretty sure that the resistance threshold should hold as long as the reading current is far enough below the switching current. You brought up a good point.
TheVillageIdiot I really hope they have figured it all out! Maybe after every read operation they rewrite the data over to fix the resistance change... but that would slow things down considerably...
Eviltech That is an excellent question! For learning applications we have this figured out via the theory of AHaH Computing: knowm.org/ahah-computing/ There is no such thing as a "non-destructive read operation" in AHaH Computing. We found a way to create attractor states that match with optimal points of decision. The act of using the system heals it, like living systems. This enables us to create memristors with very low thresholds of adaptation and hence lower operating voltages while still enabling learning.
Hi sir can I have pdf file memeristor verilog A code please؟ can you help me plz? Message error: an invalidsyntax has been specified for port declaration in module header. Specify only discipilne indentifiers for port declariations.Message error: an invalidsyntax has been specified for port declaration in module header. Specify only discipilne indentifiers for port declariations
Thanks for your video. Just a minor point regarding car batteries. It is unlikely a battery will explode if you short it. A car battery is designed to supply high currents. 100s of amps on occasion. Many melted screwdriver tips or tools welded to your wedding ring - few exploding ones but always handle with respect. Lets hope memristors are next big thing.
You know, I've been looking at vids to understand memristors, how they work and why they're so fundamentally going to change computing. Now I do. And by a guy who talks like a hillbilly. Awesome. Thanks :-)
What a wonderful introduction to memristors for the layman. It takes intelligence to present new ideas simply. Thank you for this video. As for the neural network applications, we have been working on that. Check us out at www.knowm.org.
Alex Nugent Thank you for watching the video. I know you're a very busy person so I'm glad you stopped by. I'm not all that good at presentations but I figured someone needed to give some kind of basic explanation. Your video explaining the fractals role in AHaH computing is absolutely beautiful. My mind will be buzzing just trying to absorb half of your findings. I wish you all the luck in getting your product into mainstream use.
I found a solution for viewers: use 2x video speed, that makes it more condensed. Anyways, interesting topic, I'm new to it, so thanks for an introduction. Do you also deal with the material point of view?
I need to know more about memristor as
synapse
Thank you sir for explaing some basics of this variable resistor.
Very interesting video, thanks a lot for the clear explanations. I laughed about your allusion to the Terminators :D. Please make more videos, you are very talented for that.
Very nice work!!! with very basic illustration, you did a clear, consistent approach!! I hope you can continue the work on this channel!
The only issue I see in memristors working as analog signal storage devices are the tolerances and temperature dependency of resistance will not give you accurate resistance values. So instead of an ideal memristor going from 10ohms to 100ohms, the power dissipation during the transition might put you at 105ohms. Also, if ambient temperature changes by +-20C, actual resistance might read 90-110ohms. So for ANNs that require precision in their weights, it will throw off outputs significantly.
Very good video !! thanks a lot for taking the time to explain the memrestor concept, I was looking for a straightforward explication beyond the popular hype news articles. Now I clearly understand the base concept, fascinating and informative video !!!! thanks again
Thank you for making this sir
+Albert Renshaw You're welcome.
I learnt more than a lot sir...
Simply genius. Thank you sir
Thanks so much for this video!! It's sooo cool! I'm thinking of getting into memristor research, but I've also been trying to follow quantum hardware advancements (some crazy stuff!!). How are they related, and how do qubits compare to memristors?
Think its good for holograms ! Thank you! Very well explained.
Well explained video, thank u sir! So this brings me to a question, what is a fundamental problem to have memristors in our computers?
thanks a lot for your clear explainations, it helped a lot
Who is this guy? Real smart guy.keep it up
at 6:00
Electrons move from +ve to -ve ?
or from -ve to +ve ?!
Typical convention is we say that current (electrons) flows from positive to negative, but since electrons are negatively charged, they actually move from negative to positive! We use the first convention for simplicity. I believe the other is called the ben franklin current convention haha
I have an idea on how to make a Crossbar Memristor work. How can I get in touch with you via e-mail?
awesome! great explanation!
thank u for this video. This is just very educative in a simple way..
Ok, so how does multiple readings of the memristor affect it's resistance?
Technically, a small amount of current is not supposed to effect any amount of resistance change. Of course, in actual practice, I wonder if it could happen over time. I'm pretty sure that the resistance threshold should hold as long as the reading current is far enough below the switching current. You brought up a good point.
TheVillageIdiot I really hope they have figured it all out! Maybe after every read operation they rewrite the data over to fix the resistance change... but that would slow things down considerably...
Eviltech That is an excellent question! For learning applications we have this figured out via the theory of AHaH Computing:
knowm.org/ahah-computing/
There is no such thing as a "non-destructive read operation" in AHaH Computing. We found a way to create attractor states that match with optimal points of decision. The act of using the system heals it, like living systems. This enables us to create memristors with very low thresholds of adaptation and hence lower operating voltages while still enabling learning.
Alex Nugent That's awesome!
Can you help explain how manginas work?
Hi sir can I have pdf file memeristor verilog A code please؟
can you help me plz?
Message error: an invalidsyntax has been specified for port declaration in module header. Specify only discipilne indentifiers for port declariations.Message error: an invalidsyntax has been specified for port declaration in module header. Specify only discipilne indentifiers for port declariations
Great video
Great Stuff
Thank you so much
Thanks for your video. Just a minor point regarding car batteries. It is unlikely a battery will explode if you short it. A car battery is designed to supply high currents. 100s of amps on occasion. Many melted screwdriver tips or tools welded to your wedding ring - few exploding ones but always handle with respect.
Lets hope memristors are next big thing.
Bro u should do more videos
You know, I've been looking at vids to understand memristors, how they work and why they're so fundamentally going to change computing.
Now I do. And by a guy who talks like a hillbilly.
Awesome. Thanks :-)
Skynet begins
All hail our new robot overlords!!!
What a wonderful introduction to memristors for the layman. It takes intelligence to present new ideas simply. Thank you for this video. As for the neural network applications, we have been working on that. Check us out at www.knowm.org.
Alex Nugent Thank you for watching the video. I know you're a very busy person so I'm glad you stopped by. I'm not all that good at presentations but I figured someone needed to give some kind of basic explanation. Your video explaining the fractals role in AHaH computing is absolutely beautiful. My mind will be buzzing just trying to absorb half of your findings. I wish you all the luck in getting your product into mainstream use.
Por favor alguien lo suba con subtítulos :/
Good job in principle, but too much empty words. Could be reduced to 1/4 time without loosing any information.
Story of my life in a nutshell. I wish I was able to do what you said but my mild aspergers causes lots of problems.
I found a solution for viewers: use 2x video speed, that makes it more condensed. Anyways, interesting topic, I'm new to it, so thanks for an introduction. Do you also deal with the material point of view?
Jeeeeeze, enough with the random digression that serve no purpose....
+Bryce Musial You know... that is the best description of me I've ever heard.