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As far as I understood it, BigInts are usually implemented in most programming languages as arrays containing digits, where, eg.: when adding two of them, each digit is added one after another like we know it from school, e.g.:

 246
 816
 * *
----
1062

Where * marks that there was an overflow. I learned it this way at school and all BigInt adding functions I've implemented work similar to the example above.

So we all know that our processors can only natively manage ints from 0 to 2^32 / 2^64.

That means that most scripting languages in order to be high-level and offer arithmetics with big integers, have to implement/use BigInt libraries that work with integers as arrays like above. But of course this means that they'll be far slower than the processor.

So what I've asked myself is:

  • Why doesn't my processor have a built-in BigInt function?

It would work like any other BigInt library, only (a lot) faster and at a lower level: Processor fetches one digit from the cache/RAM, adds it, and writes the result back again.

Seems like a fine idea to me, so why isn't there something like that?

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2  
BigInts aren't implemented with strings, they're implemented with arrays of bytes. If you think of a byte array as a string in base-256 notation, though, then what you said is correct. –  JSBձոգչ Apr 12 '10 at 20:02
    
I think I wrote about strings because the last BigInt lib I've implemented in my own stupid language which doesn't even have arrays. Of course I ment that. –  ol. Apr 12 '10 at 20:04
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Why isn't there a dynamic pony and unicorn drawing routine in the processor! –  Paul Tomblin Apr 12 '10 at 20:05
    
@Paul: Some time until the next 1th April now. Let's hope they don't accept people from meta at Intel until then shocked No seriously, why isn't there built-in bigint support? ^^ –  ol. Apr 12 '10 at 20:06
    
In Python this is implemented in the Decimal module. –  smci Jul 14 '11 at 23:51

6 Answers 6

up vote 8 down vote accepted

There are simply too many issues that require the processor to deal with a ton of stuff which isn't its job.

Suppose that the processor DID have that feature. We can work out a system where we know how many bytes are used by a given BigInt - just use the same principle as most string libraries and record the length.

But what would happen if the result of a BigInt operation exceeded the amount of space reserved?

There are two options: 1) It'll wrap around inside the space it does have or 2) It'll use more memory.

The thing is, if it did 1), then it's useless - you'd have to know how much space was required beforehand, and that's part of the reason you'd want to use a BigInt - so you're not limited by those things.

If it did 2), then it'll have to allocate that memory somehow. Memory allocation is not done in the same way across OSes, but even if it were, it would still have to update all pointers to the old value. How would it know what were pointers to the value, and what were simply integer values containing the same value as the memory address in question?

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Binary Coded Decimal is a form of string math. The Intel x86 processors have opcodes for direct BCD arthmetic operations.

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Which hardly anyone uses anyway. –  Michael Myers Apr 12 '10 at 20:18
    
@mmyers - wasn't there a spate of computers showing the year as 2016 this year because somebody in the Windows team screwed up the BCD to decimal conversion? –  Paul Tomblin Apr 12 '10 at 20:40
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teck.in/… –  Paul Tomblin Apr 12 '10 at 20:42
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@mmyers: OP wasn't asking if it was popular. :P BCD is/was used in financial applications for fixed-point math to avoid loss of precision / roundoff errors. –  dthorpe Apr 12 '10 at 21:09
1  
+1 for the mention. Also, interestingly (or not), IEEE-754 defines both Binary and Decimal radix variants. en.wikipedia.org/wiki/IEEE_754-2008. –  user166390 Apr 12 '10 at 22:37

Suppose the result of the multiplication needed 3 times the space (memory) to be stored - where would the processor store that result ? How would users of that result, including all pointers to it know that its size suddenly changed - and changing the size might need it to relocate it in memory cause extending the current location would clash with another variable.

This would create a lot of interaction between the processor, OS memory managment, and the compiler that would be hard to make both general and efficient.

Managing the memory of application types is not something the processor should do.

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IIRC, a multiplication result will only ever require a number of bits equal to the sum of the widths of the operands. So assuming we're multiplying two equal-sized variables, you'll never need more than 2X the space for the result. –  rmeador Apr 12 '10 at 21:33
    
Sure, but you don't know that size until runtime, which is the hard issue. –  leeeroy Apr 13 '10 at 17:06

As I think, the main idea behind not including the bigint support in modern processors is the desire to reduce ISA and leave as few instructions as possible, that are fetched, decoded and executed at full throttle. By the way, in x86 family processors there is a set of instructions that make writing big int library a single-day's matter. Another reason, I think, is price. It's much more efficient to save some space on the wafer dropping the redundant operations, that can be easily implemented on the higher level.

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I think a processor that handles x86/x87/MMX/SSE/SSE2/SSE3/SSSE3 wasn't necessarily designed with the goal of minimizing the instruction set. –  Jeffrey L Whitledge Apr 12 '10 at 20:20

There are so many instructions and functionalities jockeying for area on a CPU chip that in the end those that are used more often/deemed more useful will push out those that aren't. The instructions necessary for implementing BigInt functionality are there and the math is straight-forward.

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BigInt: the fundamental function required is: Unsigned Integer Multiplication, add previous high order I wrote one in Intel 16bit assembler, then 32 bit... C code is usually fast enough .. ie for BigInt you use a software library. CPUs (and GPUs) are not designed with unsigned Integer as top priority.

If you want to write your own BigInt...

Division is done via Knuths Vol 2 (its a bunch of multiply and subtract, with some tricky add-backs)

Add with carry and subtract are easier. etc etc

I just posted this in Intel: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx SSE4 is there a BigInt LIbrary?

i5 2410M processor I suppose can NOT use AVX [AVX is only on very recent Intel CPUs] but can use SSE4.2

Is there a BigInt Library for SSE? I Guess I am looking for something that implements unsigned integer

PMULUDQ (with 128-Bit operands) PMULUDQ __m128i _mm_mul_epu32 ( __m128i a, __m128i b)

and does the carries.

Its a Laptop so I cant buy an NVIDIA GTX 550, which isnt so grand on unsigned Ints, I hear. xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx

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