Cheap Risc-V Supercluster for $2 (DIY, CH32V003)

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I couldn't resist to make a RISC-V Supercluster. The CH32V003 MCUs are only 10 cents each so I couldn't resist to put 16 of those on one PCB. That comes with all sorts of challenges. But it's only a little practice for what's going to come...
Parts & tools(affiliate links):
CH32V003: aliexpress.bitluni.net/ch32v003
Edge Connectors: aliexpress.bitluni.net/edgeConn
Preheating Station (only $50 shipped): aliexpress.bitluni.net/heatin...
My camera and lens (4k 60fps): amazon.bitluni.net/gh5
Zoom H6 Audio Recorder: amazon.bitluni.net/h6
0:00 Intro cheap Risc-V
0:50 Cluster design
2:20 PCB Ordering and part management
3:26 My first 4-Layer PCBs
3:50 Assembly
4:55 Blind design gone wrong
5:44 Sometime we are lucky
6:44 Open drain bus protocol
7:27 First blink program
8:22 to be continued...
plz share :-)
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#electronics #riscv

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4 авг 2024

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Комментарии : 336

@BangkokBubonaglia Год назад

Make a fast phased ADC. You have 64 ADC's. Apparently the ADC clock is 24 MHz, 10 bit sigma delta conversion. That means you should be able to get 2MHz conversions. If you get the timing right, starting each conversion at exactly the correct clock phase, you may be able to build up to a 128 MHz, 10 bit ADC. That is damn fast for a $2 component. Of course, you'll have very limited memory so you won't get a very long sample window. Even if you only store 8 of the 10bits, that is a maximum of 512 samples per channel at 2MHz, or 256uSec of data. You'll need to make sure all the chips are synchronized to an external clock. It would be interesting to see what you can actually achieve given the real limitations of the hardware. After you know, you can turn it into a very cheap, albeit slow oscilloscope.

@hstrinzel Год назад

Amazing that you can remain that cheerful and positive on SUCH DIFFICULT projects! Well done and keep right on going! I also enjoyed your earlier ESP32 breakthroughs.

@ikocheratcr Год назад

If the CPUs could talk between each other, a neural network would be pretty fun.

@bitluni Год назад

they can, they will, it fun

@vsabadazh Год назад

I could help with adapting tensorflow for this thing, did this at a previous job!

@coenraadloubser5768 Год назад

@@vsabadazh Tinygrad might be a better fit...

@congchuatocmay4837 Год назад

SwitchNet or SwitchNet4.

@Aziqfajar 10 месяцев назад

I wonder how it will perform.

@igordasunddas3377 Год назад

I'm just a software engineer, but this hardware stuff always fascinates me. Awesome video! Thank you!

@vaisakhkm783 Год назад

ikr... i get into software from making hardware stuff... but it stuck with me, now i am also just software engineer..... all these hardware projects making me go back to old days...

@IONYVDFC Год назад

Your enthusiasm is infectious :-) I would love to see a cluster like this solve large parallel synthesiser calculations or other audio conversion modules like digital reverb. Pure Data is a great starting point which has been around for decades as an IDE (as a simplified GUI) for modular synthesis on x86 and ARM based SBC's. I know I am probably dreaming now, but since Risc-V is open source thing, I can imagine using this flexibility to developing an instruction set tailored to digital signal processing.

@icebluscorpion Год назад

There is a trick for the runny solder paste let it partially dry out In The open and don't use it right away. On the other scenario where the paste is to hard you can add liquid flux to get the consistency right just mix the dry out old paste with the new one until consistency is perfect.

@freakinccdevilleiv380 Год назад

Spreading some on a piece of paper may do the trick too

@icebluscorpion Год назад

@@freakinccdevilleiv380 sure for very small badges and quick bodge jobs Is this method suitable but for quality production/repair is this method (solder paste on paper) very wasteful, expensive and unnecessarily Laborioso.

@hansdietrich83 Год назад

Normally, when you make a 4+ layer board, you use the internal layers as power planes. On the one hand it is very convenient to just put a via next to each VCC and GND pad and be done with routing power, on the other hand, it provides proper return paths for the signal traces, as they are electromagnetically coupled to the nearest reference plane. Robert Feranec has some really interesting videos about proper PCB design practices

@johnmoore5319 Год назад

But making the internal layers power planes and the external ones GND doesn't just introduce a parasitic capacitor? and should you make copper pours in the internal layers or just leave the routes?

@hansdietrich83 Год назад

@@johnmoore5319 1. you definitely want to use at least one of the internal planes as ground to get an uninterrupted gnd plane. 2. Yes, you introduce capacitance, but the capacitance is between the power and gnd planes, so it is actually desirable. Also, this capacitance is so small, it is basically negligible. 3. The internal planes should only be used as a continuous planes. The signals are routed on the outer layers or on internal signal layers, not the layers that are used as power planes. This way, you always have a signal layer and a power plane layer next to each other, which is great for signal integrity. 4. The question if you should pour GND on the outer layers is a while different discussion (too long for this comment) 5. Bonus tip: always place a GND via next to a signal via, so the return current can switch reference plane as well All these topics are discussed in Roberts videos at length

@BlackDreaded Год назад

@@johnmoore5319 As hansdietrich said watch the videos of Robert Feranec - I binged those and I am not even that deep in PCB design. They are awesome.

@nonchip Год назад

@@johnmoore5319 sprinkling caps all over the general vicinity of ICs also introduces capacitances, that's the whole idea of why we do that: to turn the power supply of everything in our circuit into a capacitor, which filters out any spikes. also note "power planes" means power planes, not "VCC". GND *is* a "power". so if you have 4 layers you'd stack like this: signal, gnd, vcc, signal. and yes, planes mean planes, not routes.

@avinadadmendez4019 Год назад

It also has to be mentioned that properly sizing your power delivery requirements is important, not all circuit boards require dedicated power planes, in fact, you can get by just routing power tracks in most simple MCU boards with low current transient requirements. Current transients are what determine how careful must your power routing be. I have used power planes for complex microprocessor boards. But for simple low power MCU boards? I just route power tracks, works perfectly fine and gives me some extra board area to work with, it also allows to cut 6 layer boards to just 4 layers. Overengineering can be as harmful as bad engineering, when you spend $800 building prototypes that may as well have costed $200

@apaskiewicz Год назад

Holy sheet. I have never seen your channel before, and I'm in awe! Thank you so much for this video!

@YippeePlopFork Год назад

Bitluni, you’re obviously unaware but almost all of the RU-vid movies that have inspired me, intrigued me and given me experiment ideas have been yours. You are awesome. Thank you 😊👍

@outbakjak Год назад

I've never heard anyone refer to a RU-vid video as a "RU-vid movie" 😆 but cool imma start saying that

@kayezero703 Год назад

Bro wake up bitluni uploaded a new video

@TheTinkerDad Год назад

"How many cores are too many?" - you're the Ivan Miranda of electronics :) I can't wait to see what can you do with this cluster!

@melvinolson8381 Год назад

When he showed the super large tiled panel at the end of the video, it reminded me of startrek computers with all the blinking lights.

@MrZomhad Год назад

This is sick! Can‘t wait for the super super cluster! :D

@oscarcharliezulu Год назад

I remember working on a Sun Sparc with two 50 mhz processors and it was considered a high end workstation at the time! Here are 16, 48mhz RISC processors on a pcb the size of the sparc cpu.

@tangiblewaves9730 Год назад

"you know, I like it cheap" - totally my attitude too! To get the most out of the cheapest parts is soo much fun,isn't it! A really great video; you have one more subscriber! ✌❤

@peter.stimpel Год назад

finally, some good use of the Pink LED fundings. Nice.

@freakinccdevilleiv380 Год назад

That's sick man 💯 Hadn't watched your videos in a while. Bitluini = GOD of Led screens

@rbamba1731 Год назад

Really cool! Gonna wait for an update for the bus upgrade.

@profdc9501 Год назад

Perhaps consider using a PNP constant current pull-up on the open drain bus to help speed things up. This could be as simple as a current mirror with 2N3906. This will probably at least double the speed of the bus.

@therealjammit Год назад

Be careful with using PNP. They're normally "slower" than NPN and the fast ones are more expensive. I was thinking of doing what we did in the old SCSI days. Use two resistors (normally around 240 ohms) in series. For a 5v signal that would give you a 2.5v source with an impedance of 120 ohms (a voltage regulator with a series resistance will do the same thing). Depending on the drive capability the equivalent series resistance might require different resistors (for example if a 500 ohm impedance is needed use two 1k ohm resistors).

@big0bad0brad Год назад

I wish they binned JFETs for zero gate voltage current

@cheponis Год назад

@@big0bad0brad They sort-of do. See Art of Electronics to explain.

@big0bad0brad Год назад

@@cheponis Yeah the bins are just too large tho, I'm thinking parts you could order in resistor precisions

@cheponis Год назад

@@big0bad0brad Wrap the FET around an op amp, that will get you what you want.

@jamesmor5305 Год назад

Your projects are always amazing. I hope the cluster can be useful to make many parallel Task

@phildem414 Год назад

Uber cool little project! Reminds of early 2000's custom dsp boards that did the same to make realtime multi algorithm sound processing boards. I wonder with cool application you imagine for this!

@Octoate Год назад

But can it run Doom 😁?

@R1D9M8B4 Год назад

I lost count on how many times my man... my teacher.. my idol... my role model said cheap. I feel SINCERE SHAME for not being subscribed. I need more of this mans in my life no homo.

@mervmartin2112 Год назад

DEC's PDP series used a buss master so wouldn't have data collisions. Love the cluster!

@Pixelcrafter_exe Год назад

Following the idea of maximizing mcu count you could for cost efficiency look for adressable led strips with use a mcu as controller chip for the insividual led groups. It would then just be a matter of bridging over the diodes which block the upstream comunication.

@dreznik Год назад

you are a hardware production genius!

@mrrummynosetetra Год назад

Rendering the Mandelbrot set would be a good way to show the scaling properties of the supercluster since its algorithm is small and parallelizes well. It would be fun to see each ch32v003 with a neo-pixel and then create a display for the mandelbrot set with a matrix of superclusters (ping-pong balls would be a nice extra :)

@erascarecrow2541 Год назад

That could work... Though i'd like to see it efficiently let me run ffmpeg to do video encoding on the newer codecs like AV1. I'd be VERY happy with it, if i got say 256 cores encoding video at profile 1 or 2 at an acceptable speed. I consider acceptable speed about 2-4x longer encoding than the video playback is). The space savings in most cases are anywhere from 1/4th to 1/2 the size (at least compared to h264) Depends on how scalable this would be. Hundreds or thousands of cores, so long as you can avoid major bottlenecks in ram you'd be able to make a really cheap useful processing center.

@The-Weekend-Warrior Год назад

OH MY GOD.... :) Just discovered your channel... where have you been until now??!!! :D:D:D Love this content.

@tangiblewaves9730 Год назад

One Question: Which development enviromnent do you use for the WCH controllers? VS Code? I'd love to hear about your experiences! (Sorry if I have overlooked the info...)

@8bit711 Год назад

Slick work Bro! dope.

@BRUXXUS Год назад

Incredible work! I’m sad that I’ve not been able to catch many streams lately.

@johboh Год назад

Nice job! Very inspiring!

@Really2950 Год назад

Definitely smarter and a cut above the usual electronics channels. I’d love to know what you do in your day job

@captainpumpkinhead1512 Год назад

Holy hell. That's incredible!

@pixeledi Год назад

awesome work!!!!

@plutonianfairy Год назад

Could you please link that stream where you developed the communication protocol?

@davidw.2467 Год назад

You could program the cluster into a small neural network and train them to recognize simple patterns. That would be real fun.

@helmutzollner5496 Год назад

Interesting. Sitting tight for the next instalment.

@ainu_channel 3 месяца назад

This is mindblowing

@playdav485 Год назад

hi it would be interesting to see if that could be programed to be a neural net to get complicated outputs from simple inputs

@kmcderm133 Год назад

I had this idea years ago when I was building a project with uc's, but I had'have no way to implement it. I'm very glad to see this working, even if I didn't do it! :) I don't suppose there's a kit of this available?

@Gigawipf Год назад

Interesting that you can program those all together. That would really make it much easier when dealing with many microcontrollers on a bus. Thought about those options as well with the STM32 ARM SWD interface but assumed because there is a handshake that it won't work anyways. Might be different here.

@jimbronson687 Год назад

Very cool engineering big fellow.

@shanebekker Год назад

That new hot plate, was that normal solder paste and is it necessary to have a heating profile?

@PlatimaTinkers 10 месяцев назад

What is that solder paste you're using @6:01? Sorry if it's a noob question!

@domnik9062 Год назад

bought that hot plate a few weeks ago as well haha. Works fine

@Bianchi77 Год назад

Nice video, thanks for sharing :)

@satibel Год назад

I'm interested to see how many triangles they could output per second. something that might be cool would be to add a pair of ram chips and use double buffering then use the master to output the framebuffer to a screen. (you could use a clock and a counter to do the fast switching and just have to handle the blanking.) you could use a DDR chip (e.g. MT46V32M16P-5B) that can give you 16 bit RGB565 color you can directly feed to an adc per channel (probably a resistor ladder with a high speed op amp like 3 SN10501D or a single LMH6683 would work) if the processing is too slow you could just redraw the same frame till it's done, and then swap the buffers on the next vblank.

@angelg3986 Год назад

How do these compare to the 32 bit arm MCUs like stm32 ? Does it provide 64 pin packages? Linear address space? Power consumption vs mips ?

@elmariachi5133 Год назад

So, as an MCU these don't have direct external data and address pins like a CPU, right (for attaching fast external RAM and storage)? Edit: Couldn't you put the solder paste in the refrigerator for making it stick better?

@inlywang8157 Год назад

Cool project, informative as always

@alexandermcalpine Год назад

Great post! neat.

@marcus_w0 Год назад

Wow! Over 3000 Likes on a video on such a small video - you're (seriously) going viral. This video must perform very good.

@SupernovaSpence Год назад

CSMA/CD is basically what you’re implementing. It’s great if all of your cores are responding to the exact same code and handing out tasks to each core because each core can be listening for the same code and then you can feed each core the variables individually and they will get to work independently. The draw back comes when you are trying to handle each core independently on different tasks and different programs and they are completing at different times. Each device pining for attention around the same time exponentially reduces through put because they are all on the same collision domain. If you can’t avoid this, then maybe you can multiplex 4 cores in 4 rows together so you have 4 more collision domains. You would see a 4 fold increase in communications speed. Ideally, each core would have its own communication channel. Another alternative would be to use interrupts so there are no collision domains, also significantly increasing through put.

@KimTiger777 Год назад

Voice recognition is quite CPU intensive although I don't know how well it would perform on this cluster. I know there is a open source project for droids that aims to be bi-directional communication with a human, but one of the things hindering it from being fully autonomous droid is that it is quite cumbersome to drag a laptop around including extra battery. Using smaller components could potentially solve this problem. It probably would be a daunting task to accomplish.

@CausticCatastrophe Год назад

this is already insane

@pilliozoltan6918 Год назад

Low Pin-count Debug Interfaces for Multi-device Systems is a good article about how to program multiple MCUs with a single programmer bus. In short: with JTAG it's easy, with SWD it's possible in some cases.

@NotSpllit1 Год назад

great vid :D

@AlanTwoRings Год назад

Imagine a Beowulf cluster of these!

@zubrkabbi Год назад

Love it!

@jadimari6792 Год назад

Hi, do you still use your siglent oscilloscope. I was thinking of buying one that's why I was asking

@thenextproblem8001 Год назад

How long do you keep your PCBs in Ultrasonic cleaner?

@prashanthb6521 Год назад

You are a genius guy.

@blackarrow8683 Год назад

Which part number has the pink LEDs, please?

@8bit711 Год назад

6:14 I fully yelled out loud YES! Even got goosebumps.

@bernardogalvao85 Год назад

I wish I could understand this. Because it looks awesome!

@UFAnders Год назад

Oh my god who is this wonderful dude

@domoledlight Год назад

I want to thanks you a lot so much because you made me enjoy electronic and win a lot of time when i started 7 years ago when you made me discover the esp8266 than i switch to esp32 the best mcu ever. Has i don't have your level 😢 i made a 3 esp32 mcu motherboard working with simple interrupt to make an advance domotic box witch one still working in my house and some customer. My next project is to discover stm32h7 world with cube mx it seems to be a gaz factory 😅 we will see if i have any succes.

@Serhii_Volchetskyi Год назад

Try to use I3C next time. I heard about that protocol, and it would be nice to see it alive. It would be nice to see you making some software for such a cluster.

@birdybirdy688 11 месяцев назад

wow, this is cool!

@sandichhuu Год назад

Greate, but how you can program all at once ? You connect all Rx and connect all Tx from childBoard to the motherBoard ? Then push the code at once ?

@r4yguzman190 3 месяца назад

hi, Mr. Bitluni, i remember u did a 6 hr long video on the PCB design of the Risk-v Cluster, was that video delete it?

@n00ter99 8 месяцев назад

This is freakin awesome

@TomaszStachewicz Год назад

Oh, perfect, right when I got my package of CH32 chips and programmers.

@aryan038 4 месяца назад

is that possible to make a more powerfull version to use in a phone, tablet, compuer, etc. ?

@rbelatamas Год назад

great video ❤ may i ask what is the pcb editor app name?

@KimTiger777 Год назад

What software was used for the PCB?

@charlesskomp5362 Год назад

Seems like a good hobbyist gpu project to me!

@viktoreidrien7110 Год назад

amazing man, use the supercluster to build a RISC-V computer!!!!

@XEONvE Год назад

i did something similar back few years ago with atmega tiny, but I cant find any usable application for it.

@collie147 Год назад

was there a clock divider on the text at 8mins?

@cheetahkid Год назад

can you program it on arduino ide?

@khimbittle7705 Год назад

great video

@Ed19601 Год назад

Impressive and interesting. Just wondering, if you programmed them all at once, they have the same program, how do the individual processors know it is their turn? You mentioned they have an ID. Was that baked in? If so how you know what their ID is? Pull it from the processor?? How, as they are all responding at the same time? Do i understand correct these chips have an inbuilt LED? Or did you solder one very close to each?

@whatelseison8970 Год назад

Those are surface mount LED's and they're external. You can see them in the schematic at 5:03 and on the board beside the chips if you look close at 5:38.

@freakinccdevilleiv380 Год назад

The programmer thinks it's only one chip because they all respond identically. After programming, each chip uses a unique id stored in its Rom from the factory. But I think he really needs to remake the board anyway because at this point he doesn't know who is who in which physical position 😂

@sumansaha295 Год назад

It could be that at runtime they co-operate and assign themselves the ID DHCP style(but adhoc), but otherwise the program is same

@blechtic Год назад

That's cool. I think any cluster is going to be memory and memory bandwidth limited, though. Data transfers are going to dominate there, so you'd maybe need memory banks accessible by the master and at least one of the slaves each and only use the common IO lines for synchronization and signalling (and programming). That is, if you want to take advantage of the processing power available rather than just the parallelism.

@satibel Год назад

that would need a board revision, but a neat thing would be a 2-4 lane memory bus. though depending on what you do, you may be compute limited because those are only 48Mhz processors, so not extremely fast, and they have their own local ram so you might be able to do quite a lot in parallel only. also depending how they are linked, they actually can do DMA via I2C/SPI so that might not be a problem.

@Felenari Год назад

Good watch ty.

@allcrafter3747 Год назад

I have no idea of this but I would suggest running Homeassistent on it for ultra low power consumption

@orcofnbu Год назад

this is the real life mad scientist

@eitantal726 Год назад

is the $2 just for the PCB? or the entire BOM?

@forsakenrider Год назад

holy heck!!! awesome!!!

@mahdijoharian2731 Год назад

can you make a pluge and play library for setting up a supercluster in all cpu types like esp32 esp8266 s3 stm32 risk5 arm rbpi and more

@Vili69420 Год назад

But can it render a screenshot from crysis?

@moriscnam Год назад

Good job

@moseshorowitz4345 Год назад

How about adding a lot of environmental sensors, plus a small display, and making the first Tricorder?

@thewhitefalcon8539 Год назад

You have to put all the LEDs for the big board at the front of the board, and then you can stack them vertically in a small rack and have das blinkenlights

@jakubhusak1624 Год назад

I have programmed 10 atmega circuits at once in parallel (it was tough to program 500-1000 circuits, but in parallell there was 10 times faster!).The ISP protocol worked well and no issues. Sometimes one or two chips did not get programmed because of some malfunction, but the rest was OK. The code had internal integrity check, so I have had instant info that programming process went OK.

@big0bad0brad Год назад

Beware in general that it's possible to program flash memory "just barely" or "all the way" and the difference doesn't manifest until some time later as the bits start to fade out. I'm not sure if this could have happened in your case but it's something to be aware of.

@MkmeOrg Год назад

Very coooooool!

@among-us-99999 Год назад

can you try making it run a simple neural network?

@nkronert Год назад

Hey, it's a baby Connection Machine! 🤗

@FMontanari709 Год назад

Hang on, if all chips are programmed at the same time, how did you assign their ID? Is there a serial number printed in one of the registers or something?

@freakinccdevilleiv380 Год назад

ID is in Rom from the factory yes