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I have been reading about e.g. 32-bit microprocessor architectures. I have a simple question: if the maximum number of bits in a floating point number is 32 bits, then how does that number get into the microprocessor for processing? Can it be as part of a machine language instruction? Because if the answer is yes, wouldn't it have to constitute the entire machine language instruction (in other words, there would be no room left for control bits or opcodes or anything else, since all 32 bits would be used for the number itself). Is that how it is actually done, i.e. is there a machine language command that says "attention CPU: the next machine language command you will read is not actually a command; it is actually a number".

Or, alternatively, does all "data" that gets fed to a computer have to come in separately, not as part of the machine language instructions?

In particular, I would like to know how Intel microprocessors handle this issue.

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3 Answers 3

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My assembly is a bit rusty, but what I can remember is that there is specific registers for instructions, and specific registers for data. So you would literally move your next data item into the relevent registers, and then shove your desired instruction into the AX(?) register.

But, I caution - last time I wrote assembly was back in 2004....

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Problem is: I looked at a book on computer architecture and there were instruction registers and data registers. But I was perplexed by the fact that the machine language seemed to be spec'd only to load memory location numbers into the address register, and not data numbers into the data register. And in this toy example of a Von Neumann computer, the first bit of the address-loading instruction was a special "this is an address load" bit, meaning the number of addresses was based on n-1 bit words making it impossible to load a full n-bit word in a single instruction. –  user58450 Jan 23 '13 at 9:38
    
You know, I never really thought about it before, but we do distinguish between "programs" and "data" and maybe, in fact, your machine language instructions cannot include "data", but only "program instructions." I wonder... It doesn't make sense really, since I can write a statement "x = 1" that assigns the number 1 to the variable x, once compiled. So somehow the machine language must let me supply numerical data, I would think... –  user58450 Jan 23 '13 at 10:22
    
Put it this way - EVERYTHING is sitting in memory. Your first level memory is you CPU registers, where the CPU can operate on things. After that comes various levels of caches, RAM, HDD etc. When a variable is declared, it gets pushed on the application's stack - where it gets a memory address :D After that an actual value will be copied into that location.As for not having enough space for a 32 number - yes, you do, just gonna need three op cycles: two moves and some bit shifting. Hopes this makes sense - as I said, it's been a while! –  demaniak Jan 23 '13 at 18:12
    
I see, so the answer is you can definitely include regular numbers even 32 bit numbers in your machine language program. Appreciate your remarks. –  user58450 Jan 24 '13 at 7:09

all the data on the cpu moves via a central bus or other channels. Data is stored either in memory or the caches although there is not much room in the cache. Let's say you use the inc eax; command, the inc itself is a information that was fetched from the RAM. Thing is, there are intra-cpu commands like the one above, where the EAX gets incremented. Then there are commands that required outside data. For these commands, a part of the instruction is an address itself. In later Intel cpus, it's possible to add an operand in the instruction itself, by it's smaller. The address in the instruction is either a pointer to the data you need or a pointer to a pointer of the data you need.

Bottom line, a CPU looks for instructions. If the first thing it gets booted with is not an instruction, the cpu would still treat it as a number and that'll mess up everything.

example: let's say we have a 8 bit CPU, the first thing in the memory that gets loaded in the cpu should be an instruction, so let's say it gets 01001010, then the opcode is 01, (add or w.e), then the instruction would be to add w.e is at the address 001010 to the accumulator

Damn I suck at explaining this

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Often, machine language instructions can consist of several words. So one word is the instruction next word or words are associated immediate data (a value to put to register, or memory address to operate on). This is how things work on CISC processors, like Intel x86 related architectures.

But you are onto something. In RISC architectures, it's common that each instruction is exactly one word. In this case, to load a 32 bit value, two instuctions are needed. In other words, there is a one-word instruction to load a value with less bits, and then another one-word instruction to load rest of the bits, when needed. Very often 2nd instruction is not needed, the "small" value might still have 24 bits, which is enough for most number values in program code..

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