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Tell me the truth ...
(piefed.jeena.net)
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this post was submitted on 15 May 2025
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The 8-bit Intel 8051 family provides a dedicated bit-addressable memory space (addresses 20h-2Fh in internal RAM), giving 128 directly addressable bits. Used them for years. I'd imagine many microcontrollers have bit-width variables.
bit myFlag = 0;Or even return from a function:
bit isValidInput(unsigned char input) { // Returns true (1) if input is valid, false (0) otherwise return (input >= '0' && input <= '9'); }Nothing like that in ARM. Even microcontrollers have enough RAM that nobody cares, I guess.
ARM has bit-banding specifically for this. I think it’s limited to M-profile CPUs (e.g. v7-M) but I’ve definitely used this before. It basically creates a 4-byte virtual address for every bit in a region. So the CPU itself can’t “address” a bit but it can access an address backed by only 1 bit of SRAM or registers (this is also useful to atomically access certain bits in registers without needing to use SW atomics).
Tell this to the LPC1114 I'm working with. Did you ever run a multilingual GUI from 2kbytes RAM on a 256x32 pixel display?
I did a multilingual display with an 8031 in 1995 on a 2x16 text LCD. I had 128 bytes of RAM and an EPROM. Did English, Spanish and German.
You kids have it so easy nowadays. 🤣
Last counting was 114 languages on the LPC1114. And yes, with normal LCDs I've done similar things on an 8051 before.
We could go the other way as well: TI's C2000 microcontroller architecture has no way to access a single byte, let alone a bit. A Boolean is stored in 16-bits on that one.
And, you can have pointers to bits!