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I'm coding a simple primality tester program for Windows in x86 assembly language (MASM32), which involves calculating a square root of a (64-bit) integer. My question is: Is there any simple way for obtaining the square root? Should I use some combination of ADD/SUB/DIV/MUL instructions?

I found some information on how this could be achieved in C language, but I'm just wondering if I'm missing something here?

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You may be able to factor away the SQRT requirement by exploiting the fact that "x < SQRT(y)" is equivalent to "x*x < y". – 500 - Internal Server Error Jan 10 '12 at 19:07
@500-InternalServerError If the square root is used for determining the search range of potential factors (of a prime candidate, finding one would make it not prime), it would be much faster to do a single square root than square all of the x values in the entire range, 2 <= x < n where n is the prime candidate. – mctylr Jan 12 '12 at 18:47
@mctylr not really. no. You're going to search sequentially (usually in ascending order). So you find the sqrt (call it x) of the first number (call it n) then calculate and store (x+1)^2. ... keep x as the sqrt while you increase n looking for primes until n > (x+1)^2 ... then simply set x=x+1 and repeat. You only need to recalculate the sqr once for every time the ceil(sqrt(n)) changes. You only need to calculate an SQRT once to initialize your program. – Philip Couling Aug 28 '13 at 22:30
using SSE instructions will be much faster than x87 – Lưu Vĩnh Phúc Feb 22 '14 at 13:20
up vote 6 down vote accepted

I think the simplest way is to use the FPU instruction fsqrt like this:

int64 dq ?
squareRoot dd ?

fild int64        ;load the integer to ST(0)
fsqrt             ;compute square root and store to ST(0)
fistp squareRoot  ;store the result in memory (as a 32-bit integer) and pop ST(0)
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You mean other than by using the FSQRT instruction? Sure, it's floating-point, but it should be easy enough to do the conversion. Otherwise you have to use something like Newton's Method.

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There are numerous algorithms and techniques for calculating a square root of a number. In fact calculating the square root using Newton-Raphson's method is a standard assignment for Numeric Analysis students, as an example of the general case of finding the root of an equation.

Without profiling and benchmarking the code, and knowing whether you need a single or multiple square roots (SIMD calculations such as via SSE/SSE2), I would suggest you start with @Smi's answer, which uses the x87 FPU FSQRT instruction, as your baseline implementation. This does incur a load-store hit (quick summary: moving between FPU and CPU's ALU breaks caching and pipelines) which may negate the advantage of using the built-in FPU instruction.

Since you mentioned prime testing, I'm guessing that the sqrt is only used once per candidate number to determine the search range (any non-trivial factors are between 2 <= f <= sqrt(n), where n is the number being tested for primeness). If you are only testing specific numbers for primality it's okay, but for search lots of numbers you do square root for each candidate. If you are doing a "classic" test (pre- elliptic curve) it may not be worth worrying about.

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