How has no one made such a straightforward, easy to understand series of videos detailing stuff like this yet? You make it possible for even those who are total noobs to redstone able to understand with ease. Absolute legend
You can represent a circuit using an equation. So if you can simplify the equation using Boolean algebra or other methods you can construct a simpler/more compact circuit.
This tutorial series is amazing. I used this video, the video on encoders/decoders, and the video on displays to make a 4 bit adder/calculator. You input the 2 numbers to be added by flicking levers to draw the digits on a 7 segment display. It goes through a decoder to isolate the numbers to 1 line, then it encodes it into 4 bit binary (only up to 8). After going through a 4 bit adder, the resulting 5 bits are decoded, and then encoded back into a 7 segment display format. It takes a couple of seconds to run a calculation, and is probably horribly unoptimized, but it was my first time experimenting with logical redstone and I was very happy with how it turned out
Wow, thank you so much for this video. I've been interested in binary for such a long time but only recently understood how counting in binary works. The way you laid out everything made a bunch of concepts just *click* for me. Thank you, I really love this series.
Hey, I’m so glad you’re making this series! I’ve actually built two crude calculators up to this point with TH-cam help, but now I’m actually looking to truly design my own. I’ve been trying to build a serial binary to BCD converter using decoders, but once it gets to multiple outputs, the machine messes up and essentially begins flickering. Any tips on how to avoid this?
I had a similar problem with a display. What I found happened was that the serial receiver would have the one tick activate all the pixels and turn the rs nor latches into clocks. I would go through and see if anything could act as a clock because of a short pulse going into it.
This series has genuinely blown my mind. You made something I thought would be far too technical and mathematical for me to understand, be so elegantly simple. This is a fantastic series and I'm sure is teaching and inspiring so many people, fair play mate honestly. Subbed!
This is the most amazing thing I've ever seen, I've done a digital electronics course in University but because it was just writing notes it was pretty useless to me But now you've shown me a practical use, I feel a lot better
This guy is amazing even though I'm late i understand so much now! The time this guy spends into these machines just to show off and to explain from something littler, to bigger, its crazy round of applause to this guy
Loving your content - the most concise and well explained series on the basics of redstone logic. Thanks to your vids I’ve made my first ever large machine of my design - a working two player game of battleships
I absolutely love this serie becausea I’m already pretty good at redstone but my builds always end up massive, so these concepts are just helping simplify everything so much ❤️❤️❤️
I’ve noticed this hole gets filled and then vacated in slow cycles… each time getting better and better. Here’s hoping Matt doesn’t lose any drive to keep sharing this amazing stuff
This is amazing! I'm currently studying computer science and we have digital logic. Every time I hear anything in that subject I think of Minecraft. I've tried to make thins in Minecraft but I've gotten stuck on some details, but now I know how to do 'em. Thanks!
The alternatives to ripple carry adders, for the sake of doing your own research, can be insta-carry adder, carry look ahead, carry look everywhere, or the current fastest redstone adder discovered, the carry cancel adder. There's plenty of resources and I hope a few of these are covered in this series!
Omg you're videos are getting ever better, especially the ending is so exiting. If the next video is there I'll just ran to that video and watch it immediately.
helllloo matt, i must admit, this video inspired me to try and make an adder using lego, so far it has been really fun and I've built the and, or and not gates needed. Racking my head to figure out xor though :) thanks for teaching me about binary, i reckon i almost understand it now, cheers!
Im really looking forward to the next video, I made a ripple carry adder once and didn't even know it was possible to have a constant processing time. I might one day actually finish the computer that I wanted to make!
I've been using redstone to teach myself computer concepts for some time now and have been stuck on binary subtraction for over a year. I'm positive if you did a video on it I would understand.. Congrats on the growth of your channel, you really deserve it.
I ended up building one of these redstone displays with the read/write function on my own before I even knew this existed. I'm now watching this a month after I built it.
Man I love computer science since a long time I loved to create my own circuit with software but you .. you made me the occasion of learning one of my favorite thing in minecraft when I discovered your channel I instantly started created my own circuit, they work good, but each time you do a video you learn me how to make my circuit better and more compact and I just love that your are making me love minecraft again and I can thx you more than liking every video you do and subscribe too you. Thx for your tutorial and I can see man you are gonna go far because you explain things soo well !! Sorry for the fault I'm from France so my grammar is not perfect :/
Oh damn, this isn't an ancient 4-5 year old minecraft series.. it's actually current. I was sad a couple days ago so I just started (for the first time) with redstone. I already took a couple basic courses in analog and digital electronics because of uni and could see the similarities in redstone. I started learning basic gates yesterday and today made my first 3-bit ripple adder. Was looking for any videos on storing binary data in Minecraft and stumbled onto this treasure. Will def follow, this only ends one way.. with me building a computer inside my computer :)
You could use droppers, tripwire, hoppers, and serial number data sending to make an extremely compact amount of data, you'd do this by checking every two ticks if an item trips a wire, and if it does that's a one, if it doesn't that's a zero, so in other words you could have a computer constantly sending data to itself.
The explanation is very good! Just a bit criticize here, you should have started from a bit adder because it is hard to follow when you start with the circuit with carry in. Not so beginner friendly, but if you can take time then please include it in next video.
the 4 settings on a repeater correspond to adding a delay of 1-4 redstone ticks; in other words, adding 1/10, 1/5, 3/10 and 2/5s of a seconds delay to the redstone line respectively. They also always have a signal strength of 15 as their output, extend a signal's length to match their redstone tick delay if said signal was shorter than their tick delay and, if powered from the side by another repeater, will remain in their current state of power regardless of if the input changes until unpowered by the side repeater
Check out the NEW AND IMPROVED logical redstone series here! th-cam.com/play/PL5LiOvrbVo8keeEWRZVaHfprU4zQTCsV4.html
first reply
@@ItzFlowerGMD second reply
@@megadave6685The third reply
"Oh my god, that's among us"
I spat out my water, thanks
I can’t unsee it after he mentioned
Where did he said that
@@rogelioayus 10:40 wait a few seconds
I didn’t expect that at all.
Someone covering solid computational redstone logic in 2021. A miracle
And it’s not even solely redstone. It’s legit based on real life concepts used in computing
How has no one made such a straightforward, easy to understand series of videos detailing stuff like this yet? You make it possible for even those who are total noobs to redstone able to understand with ease. Absolute legend
dude ikr. I saw a hole and am trying to fill it
@@mattbatwings I have to say you’re doing an amazing job. I really hope you get more coverage, I think a lot of people would really like your content.
Seems like I am noober then an noob
@@mattbatwings legend
@@mattbatwings ( ͡° ͜ʖ ͡°)
with this series exist, this give me unlimited potential to make DOOM inside mineccarft
Grammar 100
Its just a matter of time until that happens. Doom runs on everything
It whont run fast, but it will run doom
Pfff, let's do Red Dead Redemption 2 right away
Cyberpunk 2077
Yes, I know, there's still background noise, dude I'm using NVIDIA broadcast and it still won't get rid of it grrr
Oof
GRRRRRRRRR
How about ShadowPlay?
It's 6:30 am for west Russia, I haven't slept yet and I'm learning how to do addition in minecraft with redstone, zero regrets, great video
Most Russian thing i've ever heard
:O
It eleven for me in America and I’m about to get a mountain lighting
@@seno7904 how was the mountain lightning?
О привет
Beautiful presentation and a fun cliff hanger. As a sprouting CS major, it's fun to see how these concepts translate into MC redstone.
man, I really wanna how these guys compactify circuits. feels like magic to me honestly
You can represent a circuit using an equation. So if you can simplify the equation using Boolean algebra or other methods you can construct a simpler/more compact circuit.
yo mattbatwings you are a god at redstone
These videos are so helpful! thank you for making this series
I have Adder in my school studies and now I understand it better. Its in the name, it Adds. Thanks for a great video
This tutorial series is amazing. I used this video, the video on encoders/decoders, and the video on displays to make a 4 bit adder/calculator.
You input the 2 numbers to be added by flicking levers to draw the digits on a 7 segment display. It goes through a decoder to isolate the numbers to 1 line, then it encodes it into 4 bit binary (only up to 8). After going through a 4 bit adder, the resulting 5 bits are decoded, and then encoded back into a 7 segment display format. It takes a couple of seconds to run a calculation, and is probably horribly unoptimized, but it was my first time experimenting with logical redstone and I was very happy with how it turned out
10pm upload bruh moment
2:30 pm aus time bruh moment
@@imonocleman6045 yo same
@@imonocleman6045 11:30 am other aus time
creifty maester maen
crafty meister
Wow, thank you so much for this video. I've been interested in binary for such a long time but only recently understood how counting in binary works. The way you laid out everything made a bunch of concepts just *click* for me. Thank you, I really love this series.
Hey, I’m so glad you’re making this series! I’ve actually built two crude calculators up to this point with TH-cam help, but now I’m actually looking to truly design my own. I’ve been trying to build a serial binary to BCD converter using decoders, but once it gets to multiple outputs, the machine messes up and essentially begins flickering. Any tips on how to avoid this?
you could join my discord so that we can take a look at it, or wait about 2 weeks for me to get to double dabble in this series
@@mattbatwings I am soooo hyped for double dabble lmao. Been waiting for a good video for years
I had a similar problem with a display. What I found happened was that the serial receiver would have the one tick activate all the pixels and turn the rs nor latches into clocks. I would go through and see if anything could act as a clock because of a short pulse going into it.
Ahh yes, finally a reason to open TH-cam again :)
Thanks for the great upload!
This series has genuinely blown my mind. You made something I thought would be far too technical and mathematical for me to understand, be so elegantly simple. This is a fantastic series and I'm sure is teaching and inspiring so many people, fair play mate honestly. Subbed!
These videos are 10/10 honestly.
This is the most amazing thing I've ever seen, I've done a digital electronics course in University but because it was just writing notes it was pretty useless to me
But now you've shown me a practical use, I feel a lot better
just learned about this in my digital logic class, then came to check it out in minecraft. you got it SPOT ON dude, nice job!
Bro, you taught me more than my school did
This guy is amazing even though I'm late i understand so much now! The time this guy spends into these machines just to show off and to explain from something littler, to bigger, its crazy round of applause to this guy
This video went from "addition, boring" to "oh my god it all makes sense now wow that's easy" amazing job man
Yoyoyo!!! You're the most active redstone youtuber ever lol. I've probably learn the most from here, and I just found this channel like a week ago
Loving your content - the most concise and well explained series on the basics of redstone logic. Thanks to your vids I’ve made my first ever large machine of my design - a working two player game of battleships
I absolutely love this serie becausea I’m already pretty good at redstone but my builds always end up massive, so these concepts are just helping simplify everything so much ❤️❤️❤️
I’ve noticed this hole gets filled and then vacated in slow cycles… each time getting better and better. Here’s hoping Matt doesn’t lose any drive to keep sharing this amazing stuff
"Omg thats among us" LMAO THE first funny among us joke
Nice, you're about to teach me something I haven't learned yet, and I have a BS in Comp Sci.
Ah- perfect. I just made my first full adding calculator yesterday and was really proud of it
This is amazing! I'm currently studying computer science and we have digital logic. Every time I hear anything in that subject I think of Minecraft. I've tried to make thins in Minecraft but I've gotten stuck on some details, but now I know how to do 'em. Thanks!
this series is great!! we're already nerds about some comupting stuff so a lot of this is recap, but seeing how it's done in redstone is very cool
The alternatives to ripple carry adders, for the sake of doing your own research, can be insta-carry adder, carry look ahead, carry look everywhere, or the current fastest redstone adder discovered, the carry cancel adder. There's plenty of resources and I hope a few of these are covered in this series!
Omg you're videos are getting ever better, especially the ending is so exiting. If the next video is there I'll just ran to that video and watch it immediately.
I really like how the outputs at the end were evenly spaced 👍
this is sooo under appreciated
I loved this video! I'm looking forward to the purple monstrosity at the end
I am so hyped for more of this series!!!!!
helllloo matt, i must admit, this video inspired me to try and make an adder using lego, so far it has been really fun and I've built the and, or and not gates needed. Racking my head to figure out xor though :) thanks for teaching me about binary, i reckon i almost understand it now, cheers!
Thank you! This is the best explanation for binary adding i've ever heard! :D
this is very good information. i wish I had this resources when I learned computational logic and such😅
I love watching this series
Im really looking forward to the next video, I made a ripple carry adder once and didn't even know it was possible to have a constant processing time. I might one day actually finish the computer that I wanted to make!
3:44 when the first binary addition example isn't 101+11
I've been using redstone to teach myself computer concepts for some time now and have been stuck on binary subtraction for over a year.
I'm positive if you did a video on it I would understand.. Congrats on the growth of your channel, you really deserve it.
It is amazing how you can create such great things in a simple Block-game.
thanks u bro!! i knew how was the logic diagram by myself but i didn't know how to compact that thing, nice videos!
This series is so good, thank you so much! Helps a lot!
these videos in this series are so useful
I ended up building one of these redstone displays with the read/write function on my own before I even knew this existed. I'm now watching this a month after I built it.
Welcome to redstone class series and boy oh boy, im learning A LOT
I watch this series religiously wow.
I’m a bedrock player, and even his videos help me
Man I love computer science since a long time I loved to create my own circuit with software but you .. you made me the occasion of learning one of my favorite thing in minecraft when I discovered your channel I instantly started created my own circuit, they work good, but each time you do a video you learn me how to make my circuit better and more compact and I just love that your are making me love minecraft again and I can thx you more than liking every video you do and subscribe too you.
Thx for your tutorial and I can see man you are gonna go far because you explain things soo well !!
Sorry for the fault I'm from France so my grammar is not perfect :/
Honestly, I'm watching these more for the compsci info than the redstone info. Redstone makes compsci easier to understand!
Amazing series
Tip: For anyone wondering how to convert these truth tables to redstone circuits, I usually do them using Karnaugh maps. :)
I love this series. It really got me into this part of Minecraft. :D
Fantastic video, really want to make a programmable cpu someday, and this is helping a ton with conceptual stuff. Thanks for making this series :D
i am actually trying to learn how computers do calculation using the XOR and the AND logic gate you helped me with this alot!
You are a GREAT teacher my dude! This helped me ALOT!
I wish Minecraft and this series existed when I earned my electronics degree. I would've aced my logic classes.
I already know how to do addition, but I love watching your videos anyway! Great job man, keep it up!
I didn't know there was an alternative to the ripple carry adder, I learned something today !
Oh damn, this isn't an ancient 4-5 year old minecraft series.. it's actually current.
I was sad a couple days ago so I just started (for the first time) with redstone.
I already took a couple basic courses in analog and digital electronics because of uni and could see the similarities in redstone.
I started learning basic gates yesterday and today made my first 3-bit ripple adder.
Was looking for any videos on storing binary data in Minecraft and stumbled onto this treasure.
Will def follow, this only ends one way.. with me building a computer inside my computer :)
This video is helping me pass my digital logic class, thank you lmao
Oh, you said about the ticks thing I said last video, sorry if it sounded like a attack, that wasnt my intension just want to help :D
no it wasn't an attack at all, it's helpful and I appreciate it! now people won't be confused :)
i learned how to read binary in class today so i can finally understand this
I want to see video with also subtracting, multiplying or subdividing
this man is my new teacher.
Best guy who explaining redstone logic!
You could use droppers, tripwire, hoppers, and serial number data sending to make an extremely compact amount of data, you'd do this by checking every two ticks if an item trips a wire, and if it does that's a one, if it doesn't that's a zero, so in other words you could have a computer constantly sending data to itself.
Thank you for this lesson! You are really helping me!)
yo i frickin love these vids
1:52 remdinds me a ferrite core memories :)
i love the coordinate plotter
In France at 5 a.m. :
"Oh god I need to sleep.."
- New logical tutorial -
*Open youtube and start Minecraft*
dude i love this series :)
I'm glad I study computer science/engineering in uni. Logic gates seem so much simpler
the cliffhanger made me laugh
10:44 "oh my god, thats amongus" LMAO
The explanation is very good! Just a bit criticize here, you should have started from a bit adder because it is hard to follow when you start with the circuit with carry in. Not so beginner friendly, but if you can take time then please include it in next video.
Thank you for this great and useful video! Keep up the good work ;D
"Now for the good stuff,"
NOOOOOOOOOOOOOO, I WAS ENJOYING THIS, SCREW THE SUBJECT THE THE VIDEO ;(
The best redstone logic
Excellent work, keep going!
Ohhh mannn look at this production value. Matt you got cliff hangers now haha
yooooo, its the redstone legend
Yo mattbatwings. That was a very cool video.
I really love this channel
what a cliffhanger at the end
Even if won't probably build a cpu inf minecraft, that's super interesting
I don't even have minecraft but this really helps me on logisim
This is awesome
I can't believe myself how I invented this 2xw pixels redstone lamp screen. You have indentical one!
Now I’m confused because repeaters have 4 different settings and I thought it was 1-4 RTs but is it actually 10/4*s? (S being the setting it’s at)
they are 1-4 RTs. they can also be viewed as 2, 4, 6, and 8 GTs as well.
@@mattbatwings yeah that makes sense, I just always thought the game ran 4 RTs a second :/
@@alexdacat7052 yeah it runs at 10 RTs ticks per second. so for example a 4 RT repeater has a delay of 0.4 seconds
the 4 settings on a repeater correspond to adding a delay of 1-4 redstone ticks; in other words, adding 1/10, 1/5, 3/10 and 2/5s of a seconds delay to the redstone line respectively. They also always have a signal strength of 15 as their output, extend a signal's length to match their redstone tick delay if said signal was shorter than their tick delay and, if powered from the side by another repeater, will remain in their current state of power regardless of if the input changes until unpowered by the side repeater
@@eratheoracle …I know how repeaters work.
I was just confused about how *long* they waited
i like the way he moves the camera at the last 😂😂
I love these tutorials