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"A is a multiple precision n-bit integer represented in radix r" What does this statement mean? In particular, what does A being a multiple precision n-bit integer mean? Please help. Thank you

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I think the term is a misnomer - the "precision" doesn't vary, only the size of the representation changes. The term "precision" is probably used because we refer to 32-bit float representations as single precision and 64-bit float representations as double precision - but in that context, the term "precision" actually makes a lot of sense, as 64-bit floats are capable of much more precision than 32-bit floats. – Steve314 Sep 17 '11 at 11:58
BTW - I don't think I've ever heard the term 'multiple precision n-bit integer', but if it exists, the only sane interpretation is a variable-bit-width integer built from (a resizable array of) as many n-bit chunks (typically register-width unsigned integer values) as needed. – Steve314 Sep 17 '11 at 12:02

2 Answers 2

up vote 3 down vote accepted

It's very difficult to say without any context.

But if I had to guess, I'd say it's probably referring to arbitrary-precision arithmetic. i.e. it's a type with no constraints on storage (and therefore no constraints on number of digits).

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Yes, this seems to be the usual interpretation. Some google-fu provides an example: "A multiple-precision unsigned integer is a variable of the class mpuint: mpuint x(n);. Here n is the number of 16-bit unsigned integers used to represent x." – Captain Giraffe Sep 17 '11 at 11:13

Let me answer my own question

if the processor is an X bit processor, any integer number that can be represented with in X bits ( ie, 0 to ((2^X)-1) for unsigned int's) it is a single precision numbers. If the integer needs to be represented using more than X bits, it is a multiple precision number. Usually any number is represented using bits that are a multiple of X, since an X bit processor has registers X bits wide, and if a number requires , for eg, 1 bit more than X, it still needs two X bit registers to be stored (hence such a number would be double precision)

Another example, a floating point number in C requires 4 bytes space. So something like

float x;

is a single precision floating point number

double x; requires twice the space of float, hence it is a double precision floating point number

(And if you believe this is wrong please leave your suggestions in the comments)

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