Relay Computer ep. 3 - Completing the 16-bit adder

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  • Опубликовано: 4 дек 2024

Комментарии • 47

  • @antonnym214
    @antonnym214 7 лет назад +3

    You should be a professor. I understand you better than anyone else who has explained this stuff. Outstanding work, both technically, and in your communications skills.

  • @goodmaro
    @goodmaro 5 лет назад +3

    If I'm understanding correctly, the ripple nature of your adder makes the time for completion of the operation variable, depending on the number of carriages the data dictate. Which means to pass the output wherever it's going, you need either a "wait" signal (which would need be a multiple-or of the carry bits -- just a "short" as you call it) or to clock it to the maximum required, making the overall architecture synchronous.

  • @TheYaronn
    @TheYaronn 7 лет назад

    I really enjoyed watching the video series! I liked the in-depth explaination of both the theory and the construction. Can't wait to see future episodes!!

  • @haakonpad
    @haakonpad 7 лет назад +6

    The computer's coming along nicely i see. This is going to be so cool when it's finished :D Can't wait for the next episode!

    • @ClicketyClack
      @ClicketyClack  7 лет назад +1

      Thanks - I should be able to do some new episodes in a more timely fashion now. Glad you're enjoying the project.

  • @antonnym214
    @antonnym214 7 лет назад

    Great video with nice production values. Content and context excellent. Everything is well-explained and shown on camera. Very interesting stuff. You are helping me with my research. I'm considering making a RISC cpu. Very small instruction set and memory to keep the number of relays low.

  • @CNLohr
    @CNLohr 7 лет назад

    When I was a kid, I DREAMED of making a relay computer. When I got older, it lost it's lustre. I am so thankful for people like you so I can live vicariously.

    • @goodmaro
      @goodmaro 5 лет назад

      I had exactly the same (day)dream ~50 years ago. But my architecture would've been a lot clunkier. Like, feh, who needs binary? I just imagined 10 wires north-south, 10 wires east-west, and 100 outputs from the pairs of them! Actually just 81 because the 0 would just be an absence -- which wouldn't fail very safely!

  • @josedominguez2021
    @josedominguez2021 7 лет назад

    Thaks man, Hiper VDO.
    I love relays.

  • @robynwyrick
    @robynwyrick 7 лет назад

    This is totally addicting.

  • @DSUSN127
    @DSUSN127 7 лет назад +5

    I feel like an idiot. I literally just realized why your voice sounds so familiar. Hahaha. Cool video series. Hope to see you again soon.

  • @Mrpilka987
    @Mrpilka987 7 лет назад

    this have so much potential, it's going to be amazing.

  • @frac
    @frac 7 лет назад +13

    Fantastic. MOAR! MOAR NOW! Sleep is forbidden!
    Honestly though, great videos. Really looking forward to the next bits (Heh. See what I did there?).

    • @Ezra_TheKing
      @Ezra_TheKing 7 лет назад

      lol bits HAHAHAHAHAHA

    • @Ezra_TheKing
      @Ezra_TheKing 7 лет назад

      And yes the video's are pretty proffesional unlike my spelling lol

  • @josedominguez2021
    @josedominguez2021 7 лет назад

    It is not possible, you have only three vdos. We want more!!!! Please.
    I love Relays.

  • @drewduncan5774
    @drewduncan5774 7 лет назад +8

    Any chance you'd ever construct a relay circuit for floating-point arithmetic?

    • @ClicketyClack
      @ClicketyClack  7 лет назад +2

      I'm not planning on it - floating point is pretty complicated to do.

    • @drewduncan5774
      @drewduncan5774 7 лет назад

      True... but it would be really cool.

    • @Tristoo
      @Tristoo 3 года назад

      you don't need relays to do a shift, and floating point doesn't just require adds

  • @jacobcorr337
    @jacobcorr337 7 лет назад +1

    Are your schematics available anywhere?
    Great vids! Excited for the remainder of the project.

  • @edgeeffect
    @edgeeffect 7 лет назад +4

    Very well produced video (RUclips electronics needs more of this sort of thing) maybe the pace is a bit on the slow side (but maybe I'm just too impatient)... and a great project... relay computers are the most aesthetically pleasing... are you sure that's a "no" for the nixie tubes?

  • @Blacklab412294
    @Blacklab412294 5 лет назад

    I think you did a great Job. Did you ever reworked the board, so you didn't have to use Jumpers to fix things? Also would it have been helpful to add a LED & Resistor across the coil so you could see which relay was on ?

  • @tahwnikcufos
    @tahwnikcufos 7 лет назад +1

    Oops... a little light on pin 9 of U1 5:30 ;-)

  • @thefish5585
    @thefish5585 4 года назад +1

    Can you provide schematics for this whole project.

  • @iMacGeekDK
    @iMacGeekDK 7 лет назад

    Awesome project. Really sparked my interest in digital electronic enigneering. I want to bulld a 4 bit computer, can you recommend any book on CPU architecture? :) Greetings from Denmark

    • @ClicketyClack
      @ClicketyClack  7 лет назад +1

      Thanks! This was partly inspired by the (short and easy) book CODE by Charles Petzold. It describes a hypothetical relay computer to explain digital logic. It's just beginner level, but surprisingly thorough and has wonderful diagrams. :)

  • @ct6502-c7w
    @ct6502-c7w 5 лет назад

    Very interesting! But all those relays must have cost a small fortune!

  • @matata66
    @matata66 3 года назад

    Question, at this point, can you give just one input at once, or are there multiple inputs ate te same time ?, ( i am learning )

  • @WellingtonAlbuquerque
    @WellingtonAlbuquerque 6 лет назад +1

    What is the orange thing called U1 and U2?

    • @ClicketyClack
      @ClicketyClack  6 лет назад +1

      Those are resistor networks - basically eight 330Ohm resistors in one package with one common pin.

    • @WellingtonAlbuquerque
      @WellingtonAlbuquerque 6 лет назад

      Thanks. Nice job

  • @Mckooldude
    @Mckooldude 6 лет назад

    Are the Gerber files posted somewhere? I'm definitely interested in spinning up some boards.

  • @TomStorey96
    @TomStorey96 7 лет назад

    liking your videos!
    try using blu tack to hold your parts in place while you solder them in, instead of bending leads.
    just remember to remove the blu tack before you solder any leads that are close or in contact with the blu tack as it can leave a bit of sticky mess behind.

  • @chiefartificer7159
    @chiefartificer7159 7 лет назад +1

    Fantastic work! Please don't forget to provide the PCB files as you produce them! Github could be a good choice. And if you ever write a book about the subject count me in as a customer. Thanks in advance!

    • @gorillaau
      @gorillaau 7 лет назад +1

      chief artificer I'd buy a copy, even if I don't intend building one. These are what we may have had today if the silicon wafer didn't come along.

  • @davidprock904
    @davidprock904 5 лет назад

    Piece of shelving, sheeeet... use the walls of your house

  • @samba3403
    @samba3403 7 лет назад

    is this still moving forward?

  • @pypy05
    @pypy05 7 лет назад

    But can it run crysis?

  • @gravypod
    @gravypod 7 лет назад

    Where do you hide your time machine back to the 70s? I can't imagine another way to get this many relays.

  • @jhallenworld
    @jhallenworld 7 лет назад +1

    Wow nice video! But hey man what are you doing? I've also made a relay computer ("single board relay computer") and you are forcing me to raise the production values of my own videos...

  • @Zenas521
    @Zenas521 7 лет назад

    You make high quality videos and would like to see the nest video... Hello?

  • @Wingnut353
    @Wingnut353 7 лет назад

    Most of these relay computers implement a bus interface.... rather than implement large custom boards to test the individual subsystems... why not just go ahead and implement the bus interface and test from that level.

  • @mydix2small859
    @mydix2small859 7 лет назад

    Judging by your Hands, you have an Underdeveloped veinous system, you need to Exercise More.