I suppose that the primary memory in your device/machine is RAM. So basically your application would be exists there at run-time (after you run that application from hard disk for example, it will be load into the device memory). By the way, all of the binary-instructions which are executable for the processor are in RAM now.
To simplify that, let say processor will start reading the memory from the very first cells, like 0, will try to understand what to do with that, and after finishing will move on to the next one which is 1 in this case and so on.
Now let say
mov al, 0x10 is equal to
0xAABB in our imaginary processor. At the physical memory,
0xAA is stored at the cell number
21. Our processor is still busy to reading the stream. When it reaches the memory at
20, it would load the binary value that is
0xAA in this case. By the way, in our processor's documentation it means Fill up the AL with the Following data. The Following data in our case is
0xBB, so the processor will do that.
As you can see:
- here, in our example, everything exists in the RAM (at run-time) including executable instructions, data, etc.
- CPU reads it from RAM and will try to do whatever is supposed/necessary to do by that
- As you may noticed that
mov al, 0x10 wasn't allocate at the run-time, but it was all hard-coded by the compiler, and stored into an executable file (for example)
- So, that imaginary
0xBB is exists on the RAM, but you can't change it at the run-time. Again keep it in mind that it wasn't also created at the run-time, it was just loaded into the RAM, at run-time
I hope it helps you understand that better.