Is a Completely Mechanical CPU possible?
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- čas přidán 4. 05. 2024
- The first video in what will probably be an absolutely insanely complicated project that will drive me crazy. I’m so excited.
Cad Files: www.thingiverse.com/thing:486...
Cool links that you should check out in no particular order:
xkcd 505: xkcd.com/505/
Ben Eater’s 8 bit computer: • 8-bit computer update
And as always, My social media:
Instagram: / wesleykagan
Patreon: / wesleykagan
Website: www.wesleykagan.com
For promotional inquiries: wesley.kagan@gmail.com - Auta a dopravní prostředky
I know, I know. Not a car video. Next week the Jaguar is getting some upgrades!
Don't worry, I can't be the only computer nerd/car guy who likes gate level digital design in your audience. This is awesome, and I am only two minutes in.
Turing was an assclown and now the government is using 5g chips to turn us all gay.
check out Rory Mangles TIM 8 relay computer. he did it with a minimal number of relays. He implemented a serial ALU. might give you some ideas on how to put together your mechanical computer
@@Cracked1ce serial architecture is a great idea. It's much lighter on gate counts. It's also slower, but this wasn't going to be a speed demon.
@@jefffrasca4054 Me too! I love the nerd-vids.
When modern society breaks down and electricity is no more, you'll be the only one playing DOOM on your mechanical computer
but does it run crysis?
@@ExplizitDuester Estimated to run at least 60FPW
@@Skinflaps_Meatslapper Does "FPW" mean "Frame per Week"?
@@gweltazlemartret6760 If you prefer FPS that would come out to about 0.00009920634FPS
If modern society breaks down, I assume the rest of us will be playing DOOM for real.
Fascinating thought experiment.
Thank you! I'm still tinkering with the 2nd part of this, but I'm happy with the direction so far. Love your channel!
@@WesleyKagan looking forward to part 2!
Yea, a bit like Babbage's Analytical engine - except this will be binary so some of the 'mill' parts will be simpler although the analytical engine would have been able to calculate with 20+ decimal place accuracy.
The 'store' part is still going to be massive though. :-)
Destin is probably the reason I'm here.
@@eliljeho yup, algorithm is doin its job.
The speed of the computer is suddenly shifted from GHz to Horsepower. Turbo boosting the CPU takes on it's original meaning!
It would be fun to have him build an actual windmill to power the CPU he makes. Or maybe to use mirrors and a small homemade stirling engine instead.
@@SapioiT I'm thinking more like 5.7 Hemi.
I need to upgrade my PC's drive shaft to play call of duty.
I think horsepower will just increase the "transistor count limit". To increase frequency, you would need a gearbox to drive the "clock" at a higher RPM.
@@odw32 You need horsepower for both. Torque and RPM.
"Is a mechanical computer possible?"
Alan Turning would like a word.
As would Babbage.
@@grimftl I was about to say Babbage.
Konrad Zuse as well
Jacquard wants to say a-hon!-hon!-hon!
No, It is not possible for two reasons (even if his idea is beautiful):
1) The more number of mechanical pieces in use, the more likely to crash. We already have lots of crashes, not want more of them.
2) The latency and timing that sucks!!! Even the electrons and light emissions have unacceptable delays in some complicated circuits.
Ok this was quite neat. Just fyi this appeared on my YT home screen and i've never seen you before, so you have good reach.
Same
also same
Same - also, subscribed immediately both for cars and mechanical computers...
Ngl Rinoa, your username got me curious about your channel. Your pfp made me think it might have been related to gaming, as you well know I was incorrect lol (mostly). You come off as a relatively smart person in your videos, so I decided to subscribe. Have a nice day!
Same
Coming soon: solid state mechanical engine management.
I very much hope that’s sarcasm, mechanical fuel injection is a thing and it is currently a step up from modern ECU tech
@@dylanzrim3635 It pains me to explain the joke, but I'm pretty sure the point was "a modern ECU, implemented as a mechanical computer instead of an electrical computer"
@@dylanzrim3635 Yeesh, humorless. Nothing about "engine management" implies fuel injection. And yes, MFI has been around since at least WW2.
Engine management via a difference engine.....
@@dylanzrim3635 step down*
Not even 3 rules - all computation can be reduced to a single rule: NAND. You can build all gates using NANDs, and you can build FFs using NANDs too. It's feasible to build an entire Turing complete computer using NANDs only.
NOR is universal too
@@prototypeinheritance515 Yes but NAND is more widely used.
I remember this is how most is manufactured
And nands can be has been built of stone(chrystal in nature) man mad structures duh!!!
@antonchannel And it's pretty cool now that i tried it.
9:03 although its worth noting that nasa has actually been considering giving it a look for venus-based rovers, due to the fact that electronic circuits dont hold up well at all under the venusian atmosphere, whereas mechanical devices should hold up far better and remain working for longer. we may actually see mechanical computers make a come back, at least for venus missions
while that might be vaguely true, the amount of processing that has to be done on an modern rover is large enough that rover might have to be much bigger than anything else built before.
@@psd993 true, and the idea of mechanical circuits being used is still only a consideration for now, rather than something that's been decided on. If we can make electrical circuits work, then that's obviously a better choice, I mean there's a reason we moved away from mechanical processing for the most part. It's just that NASA is at least deeming it a worthwhile consideration incase electrical circuits aren't a viable option. Doesn't hurt to have a backup plan after all.
Steampunk dwemer gang 😎
No, it's for a Mercury mission, not Venus.
@@revampedharpy09 perhaps mechanical sensors and instrumentation outside of a thermally insulated electronic processing unit will be the compromise they need.
interent: "i wanna put freevalve on my miata already"
wesley: "i wonder if i can do differential equations with switches"
Charles Babbage: "I beat you to it by more than a century"
Big brain reply
@@deusexaethera Allan Turing: "let's put input and output in the same place"
I can't imagine how much friction will exist in the final system.
I was just thinking that.
*L U B E I T*
grease cooling
actual adding machines from the period would basically be BATHED in lubricating oil at least daily if not more frequently.
@@IONATVS Imagine having to change your computer's oil every other month 🤣
This is awesome!! I think the final design will be excellent for classrooms in order to teach kids how logic gates work, especially if it can be made in such a way that the gates snap together and be 3D printed.
completely agree I'm in high school and this the best explanation on how computers work I've ever found
@lucaraza5613 There are tons of explanations, Ben eater, Sebastian lague, etc., you probably just didn’t find any of them until now. In fact, I think Sebastian Lague’s is better, because you can follow along for free (you can follow along with Ben Eater’s but most of the time he just explains the gates and uses chips because real life is limiting. Also, real objects are expensive, so you also need to purchase a kit to follow alongs)
Hey dude! Just wanted to say I think you’re doing a great job here! Spherical cow in a vacuum! LOL
Thanks man! Love what you’re doing too, we need to chat again soon!
*There's a GPU shortage
Wesley: alright what do I have in the scrap pile I can put together.
@gfgffgfg fgf Graphics Processor Unit.
OMG - he can use it to mine for bitcoin.
@@robertbingham8053 yes. However, be careful saying GPU because you would typically need a whole graphics card rathar than just the GPU.
@@robertbingham8053 also, there’s a silicon/chip shortage in general, not just GPU/CPUs so this comment still technically makes sense.
@@ShyDigi Likewise with a motherboard and CPU, though.
That logic gate looks like it was designed to survuve a neuclear blast, Skookum asf
Skookum As frig is acceptable
"Skookum" - must be in BC, Canada. That's not a thing anywhere else. :D
AvE lol 😂
@@Watchmedome3017 yup here's here too.
Dewclaw will be mortified that no ones, zeroes or angry pixies will be required
I haven't heard the joke about the "spherical cow in a vacuum" in ages. Talk about specialist humor!
It may not be efficient to a electrical CPU, but it gives way to looking at a CPU's in a different light. I think that is valuable. Being able to see things from different angles, always proceeds with progression.
1) Yes, it is possible to build a mechanical logic processor.
2) The frictional losses in a mechanical logic processor would make the entire thing melt into a pile of slag if it ran at anything close to a usable speed.
3) If you're really committed to doing this, you should use pneumatic gates or hydraulic gates instead of purely mechanical gates.
but what if he wants purely mechanical gates?
I don't think a "usable" speed is required for this kind of project. It's not really going to accomplish any significant work, just getting it working is an amazing feat
I think that was called Fluidics.
What if this was working in the vacuum of space?
@@sixhundredandfive7123 Heating, cooling, and different lubrication issues are very different. There is no "air" to carry away any heat. Parts exposed to extremes of temperature.
Man, pls continue this project, it is amazing
I randomly ran into your page and I am super stoked about watching your videos. Thanks a bunch!
Damn, you never fail to exude sheer genius.
Truly
"Beauty in engineering doesn't necessarily have to be efficiency" - Absolutely agree!!!!
Sometimes the "inefficient" way is objectively better suited to a particular task. For example reading in a settings file "inefficiently" allows for much greater flexibility which ultimately ends up saving time, but it still takes more clock cycles to complete.
I was about to disagree with that statement, mainly as a knee-jerk reaction, because efficiency in design inherently has a beauty on its own. It may not produce rhythmic sounds, or have good-looking patterns, or even look interesting to the naked eye, but a well-designed integrated circuit is beautiful, as well as a plane that flies well, or any other simple and elegant solution to a problem. May be my inner German speaking or something, but there is an undeniable beauty in efficiency, a great satisfaction in seeing the best possible solution to a problem...
Why then I do not disagree at all?
Because there is one human activity strongly associated with beauty that is, speaking on a purely utilitarian term, an utter waste of resources: That activity is PRODUCING ART!
Art is probably the opposite of efficiency. It has zero utilitarian value, and still, it has existed longer than engineering... or probably art and engineering have coexisted forever, because the beauty of engineering comes from its likeness to art:
Rhythm, for example, is something humans really like. The basis of music is rhythm, and a pleasant and beautiful thing machines tend to do is producing rhythmic sounds... In rhythm we can find the beauty of a well crafted machine, because an engine with a problem will not produce rhythmic sounds. Electrical equipment on the other hand produces monotonous hums and is not pleasant to listen to. Nobody finds beauty on the sound of electricity.
I consider the best testament to human ingenuity the ability to take the beauty of efficiency and the beauty of art, and combine them into one single design or machine.
As you can imagine, I really, really like watches, and clocks, and engines, and trains, and railways, and propeller engines...
@@renard6012 Exactly! Although electrical waves seen on an oscilloscope are beautiful, so perhaps it's all about how you experience something?
I would actually disagree with electronic hums and droning being disliked. That is after all the basis of the Hurdy Gurdy instrument, a thousand years ago it was an instrument in nearly every church and was used everywhere because many societies at the time found beauty and perfection in an uninterrupted melody or note, and this produced what is basically a a wheeled violin that can be cranked to create droning near violin noises and the notes played on the strings are played by keys on a box over the fretboard.
Electrical hums can harken back to that view on perfection and can even be seen in modern EDM music with droning undertones that act like bass and texture to the notes on top of it.
Nevermind the fact that people play music with pure electricity with Tesla coils so even the sharp unpleasant noise of electricity can make music as well.
@@ComotoseOnAnime I absolutely love the sound of a hurdy gurdy - it also has some low-pitch clicking noises as the fret keys are operated. Very rich cello sort of sound, with a continuous drone in the background. Beautiful.
ive wanted this for so long. thanks so much for working on this
Wow, what an excellent video, I love how you show the connections between the very simple to the very complex. I can't wait to see the follow up!
By the way, there is a practical application for this. On the surface of Venus, electronics don't work, everything needs to be mechanical. NASA is/was running a contest for a venus rover that uses no electronics and communicates by positioning pointers to be read from orbit with a camera.
That is interesting to hear about. I think micro-scale selective compliance mechanisms is probably the best way to go about it, and with metals they could withstand VERY high temperatures.
www.nasa.gov/feature/jpl/nasas-venus-rover-challenge-winners-announced
its probably going to have to be light enough to be shot in to space, unless it only needs to be 4 bit, he almost has a finished product
who the heck would want to go to Venus anyway
more info
initial contest announcement: www.nasa.gov/feature/jpl/nasa-wants-your-help-designing-a-venus-rover-concept
winners announced: www.nasa.gov/feature/jpl/nasas-venus-rover-challenge-winners-announced
Scott Manley video: czcams.com/video/1DEvcJgBy0c/video.html
Or maybe the proper question is, how can we get electronics working on the surface of Venus?
@@fluffmiceter1846 active refrigeration, vaccum tubes _may_ work, but I wouldn't want to run them through the vibration of launch and landing, let alone the thermal stress of code of deep space followed rapidly by the heat of reentry and the surface of venus (and there is a good reason we don't use them for computers any longer, their reliability is poor)
And since we don't manufacture large numbers of tubes any more, setting up a production line for them would not necessarily be any cheaper than developing mechanical computers, and the result may not be any smaller.
"roll that intro.....I don't..I don't have an intro" is one hell of an intro
Great video - interesting concept, really well explained, loved the Doglas Adams quote. I'm looking forward to updates as you progress!
I'm really looking forward to the rest of this series!
Please keep at it!
Isn’t this basically an irl redstone computer? Still awesome
Yep. I think the ultimate goal of any computer is; can it run crisis? And can it run Minecraft.
@@WesleyKagan Have you seen @Foone on twitter? Their test, for both salvaged retro computers and hacked up modern embedded devices, is "will it run Doom?".
Can we not physically do this with nano tech yet?
@@WesleyKagan I'm still not convinced Crysis wasn't some *really* elaborate HCF command with an emphasis on the F.
@@WesleyKagan bruh i build a mc turing machine and steve mould uploaded water computer basically same day. its been a few weeks and i sucessfully built 8 bit by 8 bit long multiplication in mc. i think computers in diffrent mediums might be a meme on the rise
Every other youtuber: I cant think of a video idea so I'll do a vlog.
Wesley: I cant think of a video idea so I'll reinvent the Babbage engine
man this is quite the amazing video. I havent gone through you channel but i would really be interested in hearing more about this project, and your ideas about computers in general. great content.
First time running into your channel. I know nothing about cars nor do I wish to, but computing intrests me and this video was really interesting, can't wait for follow-up!
Main problem i see is friction. With enough gates in series you won't be able to move the inputs, since a single input will move the entire machine simultaneously.
What i think would be better is to have a mechanical clock input. This input would be what drives the outputs so that all the inputs do is decide whether the "clock" makes the output move or not.
For example the AND gate:
set A -> reset B -> pull clock -> nothing changes
set A -> set B-> pull clock -> output changes
I'm bad at explaining my ideas but i hope you get what i'm saying. The only drawback with the mechanical clock input that i see is that you would have so sequence it.
For example with your current design as soon as one input is changed the entire machine moves and the result is near instant, but with this mechanical "clock" you would have to strobe each section step by step, sort of like a wave traveling through the gates.
But then if you connect each section to the clock but with an inverter in between each section your clock it should be enough to sequence your clock in a "tick-tock" kind of way.
And thinking about it you only need two clocks i total, one inverted, the other normal and just connect every second gate to one and the rest to the other clock.
Anyways do what you do, will be interesting to see what you come up with.
Came for the racecar, staying for the physics... yes yes yes, more content like this
There will be racecar videos soon too! Thanks!
Becauseracecar!
Here for race car stayed for physics
Yes, the same.
If the cow is in a strong vacuum and the vacuum container is spherical, then there would indeed be a spherical cow in a vacuum.
I don't know really how or why I got this channel recommended to me, but I am sure glad I saw this video! I think this is a real neat project and I can't wait for more videos!
Awesome video. I have never seen your videos, this one appeared because lately I've been into such mechanical things. I really hope you continue this project since it looks really fun, educational and relatively new to youtube (as far as I know).
interesting thing I can already see is that the gates aren't exactly binary - since you can push them the gate inputs to different degrees. You've created some weird binary-analog abomination and that's pretty cool.
See fuzzy logic: en.wikipedia.org/wiki/Fuzzy_logic
As one of my EE professors used to say, 'All circuits are analog if you try hard enough.'
Electronic circuits have the same issue - a typical 5V logic chip will always see an input under 0.8V as a '0' and an input over 2.0V as an '1'. This leaves a range (0.8V - 2.0V) where the behavior is 'undefined'. (It may be off, on, or even weakly on or weakly off)
Some amount of effort is put into avoiding this undefined range.
@@cctmsp13 Detents.
As someone who looked into GTL systems I know the issue. At least in my use case I had some degree of control over the high and low thresholds.
@@cctmsp13 I once got a fortune cookie while on a business meal. It said "Even digital circuits are made of analog parts." It was like destiny.
Someone builds a CPU in minecraft
Wesley: So can we build a ryzen out of spare parts in the garage?
Technically yes, but the energy needed to drive it likely would render it useless. It's much easier to move a few electrons for a few nanometers than a few metal rods for a few millimeters, I think.
@@FlameRat_YehLon How cool would it be though.
@@FlameRat_YehLon OH REALLY!? DO YA THINK!?
@@OnFight1997 Computation is basically just wasting a whole bunch of energy to gain the tiny amount of information entropy. I mean, you wouldn't want your computer to just yeet away while doing stuffs so... Everything would turn into heat eventually.
And this kind of mechanical logic gate is huge (a few million nanometers vs a few nanometers in process level), which means you need loads more energy to drive it in order to achieve the same computation power.
@@FlameRat_YehLon when he said "cool" he probably meant "amazing to look at while performing some calculation", I guess he wasn't referring to temperature.
Never seen your channel before, this just popped intoy recommendations. And I can thank the algorithm for that! This is awesome :D
This is totally awesome! I know about Konrad Zuse's mechanical computer Z1, but I never seen befor explained this basic components. Thank you very much, it really helped me to understand it!
Nvidia head quarters right now: He built it in a cave, with a box of scraps!
Underrated comment lolol
Hahahaha
Omfg 😭😂💀
Yes, but we aren't Wesley Kagan
@@francescoesposito9462 Lol
I appreciate the fact that you don't have an intro.
SAME BRO
The Bruce Lee intro - My style is no-style.
I’ve always been very interested in mechanical computing. Thank you for posting!
This is a super cool project and and this video as a whole was very entertaining. Excited to see part 2!
When you scale up your logic circuit, you might end up with a problem : push-pull logic gates are lossy, and after tens or hundreds of them it might push the final rods so little you wouldn't even be able to notice it.
Rotational gates are harder to build (you need gears, sometimes complex ones, they can be made out of legos though), but they solve this problem. Although a full computer built with this will need a lot of torque.
You might also want to look into non-logic gates operators that mechanics allow, a half-adder can be built with a single double-channel relay (while with indivitual logic gates you could need 3 or 4, maybe more), there's probably similar setups in mechanical computing
Even with push pull logic gates you're gonna need a ridiculous amount of power since as the circuit gets bigger u have to push more and more.
@@OneDeuxTriSeiGo and @Moby Dick I was thinking that some biasing might be helpful. Whether that comes from springs, hydraulics, or some other clever design. How about Buffer stages so 'weaker' 1s are still 'full strength'?
Electronic circuits have Vcc and Ground which each step uses to stay near 1 or 0, so why not do something similarly with mechanical analogs? (pun intended)
@@dfunited1 The analogy here between voltage/resistance and force/friction is quite apt; the friction at each stage saps the power until after X stages, it's no longer able to overcome sticktion. One could use a "clock signal" along with bistable spring-loaded latches such that each stage is alternatively triggered and reset, thus the amount of "voltage" (mechanical force) is constant through each stage.
3D-printed LEGO bricks could be a very slick concept to visualize computer logic, and easily scalable! Might need SLA pinter though for accuracy. But it'd be easy tp print ones with working mechanics at once! Even 4x2 could do and/or and 2x2 not. With little thinking you might do nand/nor. It'd be fascinating toy!
@@gadi70 I have a SLA printer and it's definetly something I'll try in the future, it's a really good idea!
I'm a CS student and a petrol head so I think I just found my new role model
Never seen your channel, glad this got recommended. Subscribed, love mechanical shit, cars, and project "diaries" like these. Keep up the good work.
Back when I was in Highschool I had a similar idea for a clockwork computer, using the direction of spin as bits. I drew up the plans for the gates and a potential processor, unfortunately, 3D printers didn't exist quite yet back then.
Would love to see a video of your take on neural nets, would be fascinating to alot of us caveman mechanical engineers
I’ll put one together, it’s a super cool part of computer science
@@WesleyKagan I rang the bell just to see you explain NN
"Art itself is in nature, and technology just reveals where it's hidden." That's a very profound statement.
11011
I was enjoying the vid up until that point. To me it seemed a shallow pretentious statement, and completely misunderstands what art is and why it exists. Fortunately that really doesn't matter in a vid about making mechanical computers :)
It's a truism to say that art is in nature - after all everything is in nature - nothing profound there. The idea that technology somehow reveals 'where' art is is just nonsense - completely meaningless... unless you are shortsighted and need optical technology, or its nightime and need artificial illumination, or you are lost on the way to the museum, and need some cartographical tech... but those are just practical details.
As far as the binary logic - that's cool. It would be neat if there was a simple mechanical implementation for a NAND gate, because that is all you need - every other type of logic can be build from NANDs
@@oldmossystone I completely disagree with your blanket, and quite frankly derogative, statement. A statement that is just as shallow as you claim that the original statement is.
Because:
There would be no flute without the technology to drill holes in bones or forming wood. Not to mention metalworking, but that is much later.
Body paint works as sunscreen, and extracting the paint and mixing it is also technology.
That statue that always was inside that block of marble?
It required many skilled hands to turn the marble rock into a block, and even more technology to create the tools used in all of the processes from extracting a slag of stone to polishing the final statue.
Making a strict divisions between art, science and technology is dangerous. Art, including stories, have always inspired scientists and engineers to create new things, while new technology and scientific breakthroughs made new kinds of art possible. The links between technology and science most definitely goes both ways as well.
@@57thorns The implication in your original statement is that art is hidden and needs technology to reveal it. If this were true, all art would require technology to reveal it. This would exclude e.g. singing from art. QED.
While various forms of technology can be exploited in the creation and dissemination of art, there is no essential need for technology in the pursuit of art.
There is no need for a 'division' in order to make a distinction between technology, art and science either. Division would be bad, distinction is necessary in order to understand what each of them is, and to help us understand their unique value in our culture(s).
Returning to your example of the Block of marble. The statue was not always inside the block. The statue is a result - a side effect - of an expression of the artists state of mind during that creative process. The important point here is that if there was no stone, the expression could still have occurred in some other way - the Block of marble is not the essence of the art. The statue itself isn't even the essence of the art - otherwise any statue would be art (clearly not the case, many are just ornaments with no greater value). The statue or song or painting is a conduit - a medium through which to communicate.
A book is a useful analogy here. A book is a physical thing with pages and words. But the book is not the story, and the words are not the story either the story is an abstract construction of ideas that the reader decodes by reading the book.
A statue is like a book, it is a medium through which an artist has encoded some abstract meaning. If the statue is art, it is because it contains some deeper meaning encoded by the artist well enough that it can be decoded by the 'consumer'.
In the same way a story doesn't have to be in a book, it could be spoken word, or a movie, the essential meaning encoded in a statue could potentially have been encoded in a painting, or some other art 'form'. Not all available encoding forms require technology.
@@oldmossystone And yet, you can't accurately retell a story over time without a book (or other media that conveys words, including, but not limited to wooden staves, loose sheets of paper, movies, computers, clay or stone tablets).
I subscribed because of this video. I did something similar when I was young using relays but it never occurred to me to try to make it use no electricity at all. This is a very cool project and I'm really excited to see it get done.
Awesome! I was going to mention XOR gates, but you covered that! Well done!
6:59
ah yes, the exclusive AND gate : only turns on when the laws of physics are disobeyed and all logic is broken
My favorite
I’m here for the nerdery. Whether it’s car nerding, or mechanical engineering, or whatever.
I'm in Computer Organization currently for my Software engineering degree currently and this video/concept is amazing. Keep up the amazing work!
Dude is incredible how you explained it and is the best explanation of a computer I've seen to bad I'm not into cars but still will subscribe.
Well this is getting interesting, I work on turbine engine fuel controls for a living, essentially a hydromechanical computer, although much more analog than binary. Its impressive what can be achieved without the use of electricity, these take into account the throttle position, barometric pressure, temperature, and current engine rpm along with a few other parameters to meter the correct amount of fuel at any given time. And all designed in the era of slide rules no less! A digital system would likely be better, but they still do the job. I look forward to seeing where you will take this.
My friend used to work on pneumatic logic for tube trains doors and aircraft wings or something like that. Again, no electricity, but I do thing it was binary decision logic stuff
That’s fascinating, I still am amazed at what engineers did before computers.
Do you watch AgentJZ?
@@WesleyKagan Check out the vacuum logic setup of an 80's era Honda and imagine having to troubleshoot it: www.autoweek.com/car-life/but-wait-theres-more/a1860746/run-away-screaming-1985-honda-cvcc-vacuum-hose-routing-diagram/
@@Default78334 is that why my '87 CRX never passed Smog?
Oh no they made Minecraft CPUs a real thing
I think shader packs will really bog it down though.
Here is a real world lightsaber :-)
czcams.com/video/xC6J4T_hUKg/video.html
Hope you keep going with this man, would love to see the result!
I am fascinated. Please continue this project!
Wesley: Creates a miata that runs using cutting edge supercar technology
Also Wesley: I am going to build a super computer out of pipe cleaners and toothpaste
Great video! I was surprised you didn't mention hydraulic computers. Lots of older automatic transmissions are, very basically speaking, just sets of logic gates that are controlled using hydraulic fluid and vacuum.
Man gotta say, just discovered this gem of your channel keep up the shit (loved the piston engine video), this video shows at least me the potential of your channel defenitally super interestingand provoking my immagination giving that bit of knowledge and expand it your own way, damn something im into subbed instanty!
As a recent comp sci grad, I found this fascinating. We had to build a simulated four-bit computer from basic logic gates, and we had to use Solidworks to model mechanical things, but we didn't put them both together! LOL! Also, nice (and very fitting) xkcd reference.
"so we're going to assume there's a spherical cow in a vacuum"..
This cracked me up
the NAND gate alone provides a COMPLETE logical system, btw.
Don't even need to go that far. You can use a 3-state inverter with pull to get it all!
(or more easily with just a NOR gate which is effectively the same thing but with the pull resistors and buffering added in)
@@Fingerblasterstudios NOR is obviously also a complete logical system
I hope you will continue this series, really interesting! Keep going!
THANK YOU for this. In a sci-fi setting I roleplay in, I have a where a race of aliens get into space before they've mastered electronics. However, they are absolute masters of clockwork and so their ships computers are completely mechanical. And this showed me how this could work.
So I should be wearing gloves and PPE watching this video as well, yes?
Absolutely
Also applies to styropyro
And a safety mask :))
Have alwasy thaught about this. Compliant designs seem a realy good way of doing this as are far more simple. Would also allow for extreem minaturisation as could be manufactured using steriolithography similar to a silicon chip.
Fun fact is that one of my professors basically worked on a design kinda like that on the silicon level. There was a poster outside the door when I went to go have her give me one more submission time cause I submitted the wrong assignment. It used a relay design and the price bends with a compliant design on it if I remember correctly.
It sure seems like these things need to be 3d printed to ease the mamoth task of building a functioning computer.
Indeed, but this scale will have a certain pleasing clackety aesthetic quality to it.
Ya beat me to it :) I was going to suggest the same thing for the same reason. Honestly I'm surprised micromechanical computers aren't a niche market already. Seems like they'd be useful in nuclear disasters, to go into high radiation areas where electronics don't work.
This is inspiring stuff. Best of luck in your quest.
I just discovered your channel. I am fascinated with your exposition style and how you explain steam concepts. I was specially intrigue by the perseptorn and neural activity you mention at 8:30. Hope to see more of these type of content.
This is a concept that I've been fascinated by for years, but never looked into actually doing due to lack of production equipment. I am eagerly looking forward to this!
Hey, that looks like a really neat project!
Also looking forward to seeing more of the FreeValve-Miata. Keep up the good wörk!
Freevalve miata!
Buddy, I just subbed specifically for this project and the fact that you shouted out Ben Eater, right before citing Douglas Adams. This is an awesome project.
Man I swear you and me are so much on the same wavelength it's scary. Keep it up I love your videos. All of them, every topic.
Careful about a spring return, you might introduce too much impedance.
Love this! Cant wait for pt 2
Probably the most interesting channel on the ‘Tube at the moment. Thanks Wesley, keep it up.
Now I've got a follow up video to look forward to. Good luck!
I would love to see more of this project. Did you ever do anything more with this?
Awesome video! Once in a while, I daydream about alternate implementations of logic gates. One fun one would be water-driven gates next to a waterfall.
Looking forward to seeing this project continue!
Love this idea excited to see more!
"I dont have an intro" lol, immediately had to press the like button
Too bad I can not double like this comment.
My man is an inventor proper!!!!!
Same thing was done with water on another Channel a while ago. "Intel wet inside" or something. Same thing though.
@@MaNNeRz91 It was done on Steve Mould's channel with help from Matt Parker (stand-up maths).
@@chitlitlah that's the one 👌
I can't wait to see were this project goes. I really wanted someone to build a functioning mechanical computer that was programable. Thank you for giving me a view on what that is like, and hope to see more.
Making a modern mechanical computer was actually an idea I was just thinking about recently. So you can imagine as soon as I saw this video I had to watch, I am happy to say I also definitely wasn't disappointed. Great content and I hope to see more!
“Hey, how long do fresh eggs keep after you put ‘em in the fridge?”
“Uh~, here-let me look it up.”
*GOD-AWFUL CACOPHONOUS CLACKING*
Whether it's the sound of a mechanical computer tapping away, or the pony express delivering letters, both will be loud. Pony express for delivering bits might be faster though.
@@WesleyKagan Speaking of the pony express, cars and planes carrying hard drives and/or sd cards is still faster by total download time than anything else. And it may always be, those things keep storing more and more things in less space, even while Moore's Law slows down in other respects. (And hey, while I've got you, I highly recommend building out the full common logic gate set, not just using the minimal complete set (e.g. the AND, OR, and NOT gates you mention, or you could've just used NORs and nothing else, like Minecraft). That's all well and good for Minecraft (I made one, it was fun), but having XOR, NAND, etc, will let you have fewer components, lower friction, etc., all while keeping to the spirit of the project. May also want to make custom Muxers, Flip Flops, etc? E.g. google the wikipedia article "List of 7400-series integrated circuits". The low-complexity stuff on that list is probably good inspiration for what you might want to consider making specialized modules for.)
Why would you put eggs in the fridge??
@@kimarna Don’t get cocky with me just ‘cause you don’t know nothin’ fancy.
Damn, you my friend have definitly an underrated channel.
this is an amazing project! hope to see more of it
Looking forward to seeing the rest of this series !
Looks like a fun adventure! I imagine the resistances of the system are going to stack up pretty quickly though. Electronic circuits can be built with gain, to increase the strength of a weak signal. Can you achieve the same with your mechanical system? Where does the energy come from to do so?
the only solution I see is hydraulics but hen why not just make 100% hydraulics logical gates. propagation would be slower though
@@geemy9675 a hydraulic computer would be the easiest kind to build that I can think of, you could use air, water, mercury whatever lol most electrical circuits could be copied into a hydraulic circuit anyway. Would be slow but also would be cool, my optimized guess for core speed is like 100 hertz, possibly 1 Mhz lol but I think it'd be really hard to get that fluid to move any quicker and still retain accuracy in the system
Matt Parker built a calculator out of domino pieces. But it can only do one calculation. I guess the pieces hold potential energy which is good.
Other people built calculators with "marble gates". You could let marbles roll down and then lift them up on several places to add energy again.
Are marbles too slow?
You could power each mechanical gate and only let the connected gates direct the energy instead of providing it on their own. That's how real electronic computers work, don't they? Maybe push some rod upwards and another rod can connect it to another gate or disconnect it, like a clutch.
This is a "CMOS NAND Gate": en.wikipedia.org/wiki/CMOS#/media/File:CMOS_NAND.svg
It connects a high voltage / push to the output, if at least one input pulls and it connects a low voltage / pull to the output if both inputs push. So, in the end it "not-pushes" exactly if input a AND input b push, like a NAND gate should. (IDK if that helps anybody, sorry. I was pretty intrigued by that difference between the flow of the 1s and 0s and the flow of the voltage in computers when I first learned about it.)
@@jomanout5866 I would use water and put it next to a dam.
"Charles Babbage. Paging Mr. Charles Babbage! Please come to the white courtesy phone. Somebody on CZcams who obviously didn't take computer science has never heard of the Analytical Engine."
I've always wanted to do this; I can't wait to see how it goes. I think it would be a great way to show people how computers are not merely magic, but rather a beautiful machine.
This is awesome. Just found this video and i`m hooked!
"I'm in a little uncharted territory here"
You and me both buddy.
Just make a nand. You can do any function with combinations of nands.
Absolutely great project! I subscribed just to see it happening. Please, keep up the good work and good luck :D
I hope this continues, this is amazing!