Which 8-bit computer could / can display the most colours on screen?

Please take into account undocumented/newly discovered video modes and other hacks. For example, static sprites supposedly allow for more colors on the c64.

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    Most colours in palette or max simultaneously on screen, or max in any one pixel line? Commented Dec 21, 2023 at 18:28
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    Does a 8088 PC with 24-bit VGA card count?
    – Justme
    Commented Dec 21, 2023 at 18:37
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    "the 8088 shares the same 16-bit registers and one megabyte address range as the 8086", so I don't think it counts. Commented Dec 21, 2023 at 19:09
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    The 8088 is a 16-bit processor. Now, the 8080/8085 were 8-bit, but I don't think they were ever combined with hardware that could do VGA.
    – penguin359
    Commented Dec 22, 2023 at 3:28
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    Do you consider NTSC artifact colors to be real colors?
    – Mark
    Commented Dec 22, 2023 at 22:15

6 Answers 6


Considering only 8-bit CPUs, I think the answer is the Fujitsu FM-77 AV40, which can display any 64,000 colours from a palette of 262,144 with a 320×200 resolution (the 64,000-colour limit is tied to the resolution).

Among more common systems, GTIA-equipped 8-bit NTSC Ataris can display 256 different colours on-screen simultaneously (16 hues and 16 luminance levels, with restrictions on changes per line).


The Game Boy Colour allowed for 32768 colours (https://gbdev.io/pandocs/Palettes.html). With 8 palettes of 4 colours available, that's 32 colours on screen at once. The palette data can be updated between lines, but there is not enough time to change every colour every line. My best effort allows for 18 meaningful colour updates per line, allowing for 2606 colours per screen. 24 colour changes per line is possible, but with restricted colour choices, giving 3464 colours per screen. A maximum of 4608 colours per screen may be achievable, but would require writing unique values to the palette register every 2 CPU cycles

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    I hope you'll make a yt video showcasing your efforts. Commented Dec 23, 2023 at 8:49

The Amstrad CPC plus range of Z80 machines could display 4096 colours at the same time. 4096 Preview demo by Kevin Thacker

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    wow Commented Dec 22, 2023 at 7:52
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    It might be worth adding more detail here. A lot of people probably know that the palette had 4096 colours. The fact that it was possible to get all of them on screen at once is a bit more obscure. Commented Dec 22, 2023 at 20:58
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    @ianthompson I would, but you only ever saw this many colours in demos, and I don't really know it was done. I assume that you could swap the palette on every horizontal line. Commented Dec 23, 2023 at 16:39

The Sam Coupé has a built-in palette of 128 colours.

But it also has the extremely-questionable Kaleidoscope add-on; primarily a demo of their GPIO-esque hardware development kit, it applies a programmer-set variable resistance to the internal RGB colour prior to output in 256 steps.

So if the CPU can sit in a busy loop spamming OUTs then in principle 32,768 colours are available to you.

The linked page is kind of long, so to pull out the relevant supporting materials:

Kaleidoscope gives us an additional eight, independent bits for colour generation, offering us 256 shades of each of the native 128 Coupe colours.


So, how do we use these colours? Well, first we need to know how to access them. Kaleidoscope looks like a single write-only port to the processor, sitting at port address 8063 (&1F7F).


Using this method you can place all 32768 colours on screen at once (as long as you use the line interrupts to put the native 128 colours on screen).


MSX2+ computers can show up to 19268 colours simultaneously. Also, MSX computers equipped with a GFX9000 cartridge can show up to 32768 colours.

F1 Spirit 3D Special by Konami on an MSX2+ computer Golvellius 2 by Compile on an MSX2+ computer


Any embedded system using an 8-bit micro and (for example) an FT800 lcd controller would be capable of 256k colours. Probably not quite what the OP had in mind but there must be many examples.

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    Good idea, yeah, there are many modern 8-bit (re)creations. Commented Dec 23, 2023 at 7:43
  • If we go along this route, then many years ago someone reportedly connected a microcontroller to a Radeon GPU via an I2C debug interface. So technically, even a 4-bit MCU could do the same and use the GPU as 24-bit framebuffer, which means, even at 4K resolution, you can't fit all possible colors on screen at once. I don't know if GPUs supported 30-bit colors back then.
    – Justme
    Commented Dec 23, 2023 at 13:16

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