Long ago, when I was bringing up a new circuit board with a CPU chip on it, I had to start by programming hex values into a ROM chip to get things started running.
Every CPU chip has some convention for what it does when the power is applied. Usually it loads something from a fixed location in memory and either uses it as a memory address from which the first instruction is loaded or uses it as the first instruction to execute.
Back to the new board. After programming the ROM chip, the chip was plugged into the board and power was applied. It was a pain to figure out if it was doing the right thing. Perhaps the new hardware was working. Perhaps it wasn't. I used an oscilloscope to watch the data and address lines on the CPU to see if it was a recognizable pattern. Since the processor was so simple in one case, that was enough.
Once you know it is actually coming up, you start using a cross assembler (or even a cross compiler) writing the low level code for the thing to run. It generates the hex bytes and those get burned into another ROM in the pattern the processor needs to execute. Pretty soon you have it working. (Or maybe not so soon.)
I only did this twice that I remember. In one case, the little board just had to listen for bytes coming in a hardware port and respond to them by sending other bytes out another port. That was the whole connection to the outside world. (It actually is similar to today's web services. Bytes come in and bytes go out.)
It is challenging and frustrating but very fulfilling. I'm glad I did it. I don't want to do it any more.