2015 Breakthrough Junior Challenge Semi-Finalist - Trinary Computing

This was really well explained, I get how binary and stuff works but I never knew how to explain it well enough

Bruh, It took me 5 hours of similar videos to find this one that made it super simple. Where can I send you bitcoins? :D

where is the "breaktrhrough"? that's an old concept. ever heard that , for instance, multiple frequencies can be used to transmit more than 0 / 1 at a time? it's no different from multiple voltage levels representing more than one state - it wouldn't be a bit (binary digit) anymore, but a "tet" (ternary digit). you forgot to tell about the cons of this approach!

I've been working on my own Ternary project in Unreal Engine's visual scripting system. I designed a large variety of Ternary logic gates and then managed to recreate them with two components, so it has the same manufacturing complexity as binary but with like 80+ logic gates with varing input and output amounts.

Man, this is a good video, Thank you.

why do you use this annoying futuristic background music for a concept that is as old as computing itself?

2015 Breakthrough? some of the first computers where like this

Balanced ternary is way cooler!

You do not know what you are talking about.

Thumbs up if you're watching this in 2018 because of IOTA and its ternary chips

I've spent hours looking for a video that could help me understand the basics, every video I've seen always slaps you in the face with endless look at me tactics that make you remember watching the video more than being able to remember the content. I love your laid back approach that breaks everything down without the need to understand the useless jargon that only an electrical engineer would know just to make themselves look smarter and give you the illustration of learning. Thank you for the lesson, sincerely someone who learned.

Говоря о несимметричной троичной системе также следует сказать о симметричной тобишь с ччислами -0+
Эта система была применена в ЭВМ Сетунь
Главной её особенностью была работа с отрицательными числами и дешевизна в производстве
Вот вам ссылка на главный источник о сетуне
ternarycomp.cs.msu.ru
Speaking about the asymmetric ternary system, it should also be said about the symmetric i.e. with numbers -0+
This system was used in Setun computers.
Its main setun feature was working with negative numbers and low cost in production
Here is a link to the main source about Setun
ternarycomp.cs.msu.ru

Bro i didn't this exist 😮

Omg I didn't know none of this thanks 😥🤔

I would presume in a circuit based world, "unexpected" is the result of some sort o both states. Take a robot. You train it to stop when it sees a red light. When there is a green light, it goes forward. Add a variation to this experiment. When I light turns red, someone steps in front of the robot. A computer using logic would just keep moving forward. I computer using reason would stop, since it sees something unexpected outcome...a red light with something stepping in the way. This implies reason is based on some sort of learning process...that red light wants you to stop for some reason. A trinary system can, in my opinion, can integrate this process.

The difference between logic and reason is that logic expects expected outcomes, whereas reason expects the possibility of unexpected outcomes.

You just taught me how to add to 324 with two hands
Amazing. Thank you

Excellent video! Excellent introduction to trinary architectures for beginner computer science students! Thank you! Keep studying, and God bless you Ben!

This video is more about how numbers in different bases work

Bravo ! 👏👏👏👏👍

Who's watching this in 2020 because your teacher made you watch it for online classes ⌨📺

Amazing video. In your opinion what would be the most powerfull computer system...Trinary or Quantum? Nice work.

balanced trinary is more elegant, but less intuitive.

This is very helpful, thank you

thank you bro

Very nice vid

Great job on this video!

Nicely explaint keep creative

That was awesome

brilliant

9:05 The math isn't actually similar. In fact, it starts to get a lot more interesting when the digits represent (-1,0,+1) instead of (0,1,2)