(turns cassette tape into an NVMe) Noel: «We can go faster» At this rate, that Amstrad is going to travel through time. Great work!

Over the last year, this has become my favourite channel, but this video is even better than usual! Absolutely fantastic stuff, Noel. So informative, so enjoyable to watch. Just brilliant. And 100% agree about Head Over Heels. We spent literally days playing it as kids, but only as an adult have I come to appreciate it as programming masterpiece. Cramming so much game into so little memory is a work of technical genius that staggers me to this day.

IF we had this kind of speed back in the day we could have saved so much time.... possibly get our chores done? NAH! We'd just play more games! 😂

I fondly remember writing my first spectrum tape fast loader at 11 years old. It could only save/load at twice the speed but for me it was an incredible achievement. It's a shame I really don't have the same level of interaction with my computer hardware today.

Congrats on Ep 100 man!! Well done!

I wanted to start a whole comment about that they usually pulse width encoding and not FSK, and then you are explaining the timer loops to detect the pulse width. This is the first time I see content that's really in depth with some nice assembly. Thank you!

My guess is that pause happens when the Arduino needs to fetch a block from the SD card. At faster speeds its probably spending more and more time in the routine that fetches data. You could use a different CMD to stream a byte at a time or use DMA to transfer blocks and use ping pong buffers for playback.

Another brilliant video from Noe's Retro Lab. It is clear that you invested much time in researching, experimenting and in producing the video. To see such an effort is awe-inspiring, and in such an esoteric topic makes it even better. In addition, you do come across well on the camera if I can say that without sounding weird. You are rather photogenic, and your commentary is oddly pleasing to listen to. Every detail of your content is top-notch. Picking a favourite channel is like picking a favourite kid, but yours is definitely a strong contender for the top spot.

Back when I used a ZX81, I found you could make it reliably load more or less at fast forward speed by jamming the pinch wheel from WH Smith own brand C15 (nasty, rattly, and cheap) and it didn't seem to be affected by the tape increasing speed as it ran out.

"...and I will see you next time!" Noel channeling his inner GreatScott!!

Wow, that was really well researched. Great job!

You really did your homework for this one. Excellent work Sir!

Like others have said, since I discovered your channel a couple months ago it has quickly risen to the top of my anticipated video list. Never had an Amstrad (I'm in the US) but I find the research, diagnostics, and mods you have been doing fascinating.

Always a pleasure to watch. The three check for a bit (or 5 in some systems) is also very common in hardware implementations, i.e. UARTs accept a bit as one or zero when the input has been in the same state for 3 (or more) sampling clock pulses. It makes the sampling more robust against frequency mismatches.

Wow, very cool. I love the idea of using the 'parallel' port as a sort of serial port :)

I love channels like this . Stuff that interested you as a kid, becomes even more interesting as an adult

Happy 100th! This episode was super fascinating, I've always wondered about those early baud rate recordings and how they work. The part where you made it load through the parallel port was gold!

Epic video this one! Lots of effort and love gone into this one!!!! =D

Love this channel and these sort of videos in particular. The stubborn refusal to give up and to keep going further down the rabbit hole so the computer doesn't defeat you is awesome and of course what all of us users of these old machines had to do back in the day!

On the C64, I once built a custom speed loader using the parallel port and encoding the data on the cassette analog rather than digital. It worked, but only useful in the scene at that point as we already had 286 with hard drives.

It´s fascinating seeing so many skills being used at the same time for one purpose.

Wow! 100! Congrats to you. You're still in my Top 2.

This video popped up in my recommendations recently, and I'm so glad it did. This was a really cool deep dive! Mod: I was watching most of yours videos this evening, and really enjoyed them! You should have a lot more subscribers :)

now this is a celebration video! congrats i love the way you research on these projects, trial and error, the fact that you don't hide mistakes, and you're also not afraid of voicing your opinions when you can back em up. without the need of being whiny. keep'em coming!

Congratulations Noel! All the best to your brilliant channel!!

Congrats on the 100th! Your channel is absolutely amazing. This video sets you apart from other favourites and I definitely look forward to the follow up. Why anybody would vote a thumbs down on this one is beyond me, a double thumbs up is required in this case for me.

Congrats on the 100 anniversary! This video was really interesting! Thanks!

That was amazing. It really makes me want to look at older equipment and see what sort of fun things can be done.

Happy 100th episode Noel! This was a very fun episode. I do not load software by tape but enjoyed watching your experiment regardless.

As a longtime TRS-80 cassette port hacker, I support this video! +1

No idea why YT recommended this but i'm glad it did, super interesting!

Congratulations on the 100th video, hope this is just the introduction to a long career. I do not want to elaborate a posh post with a list of positive adjectives here, but yours is by far my most appreciated 8-bit channel. Every time I realise there is a new episode, just keep it in my mind to watch at the end of the day. I normally watch your episodes (as this one) a couple of times (and even more times in the parts where you get deep in the more interesting explanations). So nice you made some merch and, when my situation gets better, will Patreon & "merch addict" Noel's Retrolab. Love the solution where you skip the opamps and jump directly to the chip: I was shouting this idea at the screen when you came up with it :-)))

Congrats on video#100. My mind is blown away at how knowledgeable you are, not just at electronics, but understanding of coding and everything else in between. Fantastic video Noel, keep up the good work. Rebranding looks great too. Will check out the merchandise. Love your channel. All the best, Alan.

Very interesting and well done video. Not only did I learn about making loading faster but also why loading from a cassette can be unreliable or complicated at times.

Wow! With each of your videos I'm thinking 'It can't get any better', but then you proof me wrong again!

Congratulations on the 100th episode, I wish you a lot of success on this channel. Nice new intro. Greetings!

Definitely one of my favourite channels although if I don't hear "there we go" in a video when you are repairing something,I feel cheated 😂

This will be nice to see an update in the near future. Good work 👏

Wow, this answered some questions that were buried in the back of my mind for ages. Subscribed!

A lot of impressive technical deep dive in this one Noel, really enjoyed the watch! Thank you :)

Another excellent video Noel! Congratulations on episode 100, who'd have thought a humble Amstrad CPC could outpace an Arduino! Here's to many more episodes.

The code definitely needs some cleanup. Just write to the PIN port to toggle a bit. The internal state variable is redundant. Alternately, use the built-in timer to produce a pure tone. And of course the Arduino library which is made for ease of use and portability, sacrifices way too much speed.

Your channel and Adrian's are my favorite retro tech channels.

Black in the 80's I had an Amstrad CPC 6128 and a Philips tape recorder. When I was loading games from the tape recorder, I pushed the fast forward half way down, while it was loading, making the tape spool while still playing the "sound" and, yes the games was loading much faster. Sometime it crashed. I had to be very precise, pushing to hard, and it didn't worked.

I remember I was trying to make my Spectrum+2 to load faster. Friends with Atari machines had their "Turbo 4500" and later "Turbo Universal" and were able to push the limit up to 6000bps. But it was Atari with special tape recorders, so it was possible (and necessary) to modify the recorder HW in order to get through the much higher frequencies. All with regular tapes. I was trying to analyze the built-in recorder (+2 have one) to get better signal, but it would require quite a big rebuild. I changed the recording scheme, so zeroes and ones were the same length, but ones flipped the signal, so the result was also two frequencies, but just one clock. This improved the speed a bit as zeroes required half the time. In the end with the stock HW I was able to push the speed to somewhere around 2400 - 2500 bps. And then I moved to other loader tricks - like showing rolling counter instead of the border bars or being able to switch memory banks while also keeping some parts excluded, so I could record or load the whole memory in one block, which I used to create my 128K tape copy program.

I see you've finally crossed over the line from pure hardware to tinkering with software :)

i had no idea that's how the tapes loaded, fascinating!! thank you so much : )

That was some ingenious and creative engineering. Brilliant stuff!

Hi Noel, congratulations with your #100 video. I remember that there where cd’s with recorded audio that where loading really fast on the msx with a diskman . See the game collection cd with 33 games on a audio cd

A very cool video - from a true SME! Very interesting and informative!

Congrats on episode 100!!

I have no idea what he’s talking about, but I was on the edge of my seat

Excellent video. A very interesting topic, well researched, and clearly presented. Well done. Looking forward to the follow up.

OMG, I hadn't realised just how much I had forgotten over the years! I spent weeks, probably months, studying fast loaders on my C64, reverse engineering them (disassembler) and figuring out how they worked. The Commodore 64 Programmer's Reference Guide had an amazing amount of information in it but still skipped most of the required information therefore I had to rely on practical testing and experimentation. In the end I produced a considerably faster saving and loading scheme that worked mostly reliably on my computer... only mostly reliably because there's a disjoint between the recording and read heads on a datasette unit (Commodore) or regular tape player/recorder and a tape recorded at such speed on mine, even reliably, would almost never load on a friends computer. As a result I had to slow the process down until it was reliable on friends computers as too, and the end result? A fast loader that was pretty much the same speed as the original ones that I reversed engineered! The Arduino problems did amuse me a bit, but then I remember the problems with my turbo loader and NMI (Non-Maskable Interrupts) that might happen at any time in the execution loop and discovering this and having to deal with it. An interruption in a processing loop that's really timing sensitive can really cause chaos and some early turbo-loaders were easy to cause to fail just through pressing some keys on the keyboard during loading (and some game exploits relied on this). Just to add, I can pretty much guarantee that my code would *never* have coped with the difference between PAL and NTSC systems! :) Anybody who doubts the effort and smarts that went into our early computer days really isn't paying attention or is trying to deprecate them because the early computers weren't multi-GHz monsters with CPU capacity to waste. We had very limited processing resources and we got every bit of speed out of them that we possibly could... and by way of comparison, non-turbo loaders typically had data read times best described in bytes per minute and reading just 32K of data could easily take half an hour or more. Great video, thanks.

Really enjoyed this one.... not sure how I stumbled on your channel. Your presentation of technical data made me feel smarter :D Great Content.

grats on the 100th, you deserve it bud

Very interesting! I learned a lot about tape loading, thanks! And happy 100th ;o)

When the arduino loader reached its limit, my first thought was to generate a wave file played back from a phone or directly from the PC?

Some time ago I discussed another way of speeding up the tape loading: just use only half of the wave, thus duplicating the speed without increasing the bandwidth; this is: converting it into a non-return-to-zero protocol. It has only the inconvenient of inserting DC level, but it should be removed by the capacitor in the tape input (and also, in average, it should also be cancelled).

I loved the video!. Your channel is a true gem and each video you do is better than the previous one. I'm also a HoH fan. I managed to finish like 3 worlds after a lot of practice. Keep up the good job.

4:36 - Wow! That's one second faster than Animal Crossing: New Horizons! (Not over-exaggerating, literally timed New Horizons to be 60 seconds while spamming the A button to get past the menus and forgetting the announcements.)

Reminds me of LapLink, and other early PC peripherals that worked with printer ports that were not bidirectional. It probably used the same trick; at least one bit _does_ go the other way, for handshaking.

Happy 100th, very informative and a candidate for a hackaday entry.

Back in the day, I was told that you didn't want "studio quality" tapes, because they were supposed to be worse. The reason given for that was that studios run their tape at a much higher speed (wider tapes too, I'd guess) and so the actual uniformity of the tape would be far less important. I don't know if it was true, but I did remember this claim all those years...

Congrats for the 100!!!

This trick might even work - with some minor modifications - on an MSX with a cassette interface port (which is a DIN-8 connector). The cassette read pin is attached to pin 7 of port A of the PSG instead of the PPI, but the modulation is the same. The MSX BIOS has values for 1200 and 2400 baud, but I have been able to get it up to 4800 baud when using a cassette deck instead of a data recorder (and on Type-II tapes, but I'm not sure if it's relevant). The highest baudrate for the tape port I have seen for the MSX is 9600 baud. Philips made a CD for the MSX with 99 programs on it, which you could fast-load that way. OpenMSX supports wave files natively as cassette input, so it may be fun to experiment with that as well.

Great job Noel.

This video is fantastic - thanks. So much research and yak shaving :D

Brought back memories. I modded a model one TRS-80 to 4 times cassette speed and double clock speed. Those were the days. :)

Your SD card is made in TAIWAN!!! I am from TAIWAN!!! :)

fascinating stuff there. Love it.

C316/R310 create a low pass filter with a 3dB point of 10KHz. So a 50us pulse will be half of the full amplitude at a lower frequency. The second opamp with the 47K feedback resistor is an inverter with hysteresis, and if the signal level is less than some amount I can't determine (because I don't know the voltage on the bias divider), then no signal will pass through. This is a form of a noise gate. You could measure the output of the first and second opamps as you vary the frequency of a pulse train to determine the max allowed frequency. The time gaps in the Arduino pulse train are likely the time it takes to read a sector or block from the memory card. Often this sort of code is written in an interrupt handler that, when it handles a "sector ready" (or similar) interrupt, simply reads in a loop to get the 512 (or whatever) bytes of data out of the device. During that time it is running with interrupts disabled, so things like timer interrupts get delayed. You will probably find those gaps are a consistent time, and, unless you can make the loader code handle pauses in the bit stream, that will tell you the minimum pulse width you can handle reliably.

On using a normal compact cassette tape for data transport, an unrelated project that was contemporary with the CPC464 release we used to record audio using stereo heads with one channel fed from a very stable 8KHz pure sine wave source while the other channel contained our target audio. Then using a dynamic buffer on the reader input stage which took out most tape distortion we were able to recognise FSK up to 2,700bps & 16dot PSK up to 9600bps

From a signal theory perspective, a mono tape is good for something in the ballpark of ~250kbps with ideal encoding (Shannon limit, assuming a reasonable 15kHz of bandwidth and 50dB of signal to noise margin). FSK is far from ideal in this respect, but has the advantage of very simple encoding/decoding. I suspect you could achieve at least 1/10 the theoretical maximum if you used an external peripheral to do the tape decoding using a more advanced coding scheme like one of the low order (4/8/16) QAM modes with error correction then fed that to the CPU (since the CPU is unlikely to be fast enough to handle the decoding and won't have a good way to interpret a more complex encoding that takes advantage of the analog nature of the channel). Obviously not generally practical, but since you're already in the realm of theoretical limits it might be interesting to explore!

Many moons ago, I had 2 ZX Microdrives attached to my Spectrum - these were basically an endless tape loop, and you could load a typical game in just a few seconds. 👍

Very interesting. I really like the way your videos are done with regards to quality and the way you explain things. Any change of a coffee mug?

cant wait for part 2, that was fun

Congratulations for your 100# episode. Thank you for inspiring us. I wish you much success. God bless you.

Wow that's some in depth research and testing.

I assume you're just using a generic ol' SD card? If so, try using a faster one. I'd recommend a small size SanDisk Ultra, because they're cheap, but any card with the "A1" symbol will have low access latency. (I.e. delay between issuing a read command and the card responding with the data). IME that's the main performance difference between cards when used on a microcontroller.

Nice video again But, if you resort to a purely digital input (the busy bin) It makes no sense to keep the same data format as in the tape. That FSK-like coding was used to remove the DC component of the data because audio equipment will block any DC component, but it will double the bandwidth of the signal with respect to a plain NRZ. It would be simpler and way faster to use a serial data format: start bit + data + stop bit (This only increases the bandwidth by 10/8). I'll guest 30Kbaud can be achievable, and the UART in the Arduino can also help a lot to avoid unintended pauses. (I managed to read a 115200 baud serial data using bitbanging in a 4MHz PIC10F200. The Z80 is slower, but not an order of magnitude) Best regards

I'd be seriously tempted to re-jig a TZXDuino with a Pi Pico instead of the Arduino Nano. It could pre-load the tape image into RAM and spit it out as fast as you like. Probably a little bit cheaper than using even a Chinese clone of the Nano, too.

When I was a kid I used to wonder how these 'magic' Amstrad fast tape loads work. 33 years later I finally have some clue!

If you want a challenge, how about you create your own input device and read all 8 heads on an 8 track real to real? Reading a byte at a time should be pretty fast. :-)

Enjoyed it indeed Noel. Another great video! The concept is great, pushing the limits of existing ecosystem of available programs & hardware to get the fastest load. I guess this 'faster horse' approach is only the start. Having a purpose built 'load on the fly' device which loads directly into the CPC's memory through the bus port would get you the fastest throughput and load times. Without resorting to moving to the "disk interface" world. I think all raspberry pi versions could handle that job well.

Mother of God.... *runs to find his old Amstrad* 10/10 video! o7

Great video! I was doing something similar a few months ago, but I went the route of using physical tapes. It was on my TRS-80 Colour Computer, using a high speed Poke and rerecording the audio at double speed I was able to cut load time in half! Although it ended up being more reliable to playback the double speed file right from my computer :)

This is really interesting, I love the mix of hardware and software.

You could use an ESP32 with it's two cores and higher speed to help out with these issues. You could have one core read the SD card and the other core generate the signal.

I did almost the same thing for another Z80 computer, the Video Technology Laser 500, and I also found that the upper limit was imposed by the non linearity of the audio input circuit. I played .WAV files directly from Audacity on the PC. One of my tricks was to elongate the duration of the 7th bit pulse (corresponding to the end of the byte) in order to compensate for the RET from the "ReadOneByte" function.

I understood about 5% of what you were saying but it certainly is entertaining new subscriber from me

sweet!... really great job Noel..the printer port loader is brilliant!

Es fantástico descubrir los límites del hardware y como se puede ir un poco más allá... Me encanta este canal y lo relacionado con todo lo retro.

👏👏👏 I wonder how fast we could go using real tape but modern DSP/FPGA/Fast CPU and multi-frequency encoding 🤔

What a cool intro! Its the best I've seen!

Fantastic experiments - now I want to try this on my Oric-1!

I was expecting a c-cassette doing mach 1 :/ Fun fact: timers always run over the allocated time in a non real-time system that has a scheduler, because it's about sleeping the thread and asking the scheduler to wake it up after the allocated time. The precision depends on many things, but can be quite rough.

Happy 100th video posted anniversary! As usual, very nice and pleasant to listen to)

I honestly think future digital archeologists will be thankful for these conversion of material that would simply be gone in a couple of more decades. 👍🏻

This was an amazing watch!