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I need to generate 5 random numbers, for that purpose i used the interrupt of clock: mov ah,2ch int 21h. I took the milliseconds(DL) and this was supposed to be the random number. But i get the same number 5 times. If you have another way to solve the problem using interrupts please help.

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Use rdtsc instruction. –  Egor Skriptunoff Jun 3 '13 at 14:00
DL contains hundreths of a second, not milliseconds. Also: "Note: On most systems, the resolution of the system clock is about 5/100sec" (source) –  Michael Jun 3 '13 at 14:50
Using a source of data that was designed to be as repeatable as possible, and updates at a low rate, to generate random numbers is clearly a bad idea. –  Hans Passant Jun 3 '13 at 16:14

2 Answers 2

up vote 1 down vote accepted

If you need a small (pseudo)random number, use:

rdtsc % N
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If you need a random number, use rdrand ... see software.intel.com/en-us/blogs/2011/06/22/… - do not fall into the trap of calling timestamps "random". Not even high-res timestamps such as the TSC - even that fails a basic test for randomness, namely, (non-)predictability –  FrankH. Jun 4 '13 at 5:33
True, edited my answer. –  Suhosin Jun 4 '13 at 6:20
It's worth mentioning that any random number generated on a computer is at best pseudorandom, as it has to be seeded from something which is not random. –  Suhosin Jun 4 '13 at 6:45
That's precisely what Intel has done with rdrand - it's a CSPRNG on top of a true-HW-entropy-source. The above article references software.intel.com/en-us/articles/… which gives details on the actual HW-side implementation behind it. –  FrankH. Jun 5 '13 at 13:57

rdrand (see comment to another answer) seems like a good idea if your processor has it. I think its pretty recent addition for Intel CPUs, so I don't think they do, and I also don't think it is very fast.

If not, and you want fast, hi-quality (psuedo) random numbers in assembly code, XORShift random number generators seem pretty good. Short code, long period, excellent statistics. Here's what I use in a (32 bit) work-stealing SMP processor scheduler to decide which processor to steal from:

   public XORRNGvalue32
XORRNGvalue32 dword  2463534242           ; see COMPUTE_RANDOM32 macro
; XORShift random number generator; see http://en.wikipedia.org/wiki/Xorshift
; or Marsaglia, George (July 2003). "Xorshift RNGs". Journal of Statistical Software Vol. 8 (Issue  14).

 COMPUTE_RANDOM32 macro ; uses EAX and EDX
; Marsaglia suggested 32 bit RNG:
;  unsigned long xor()
;    { static unsigned long y=2463534242; "32 bit seed value y"
;      y =(y<<13); y^=(y>>17); return (y =(y<<5)); }
      mov     eax,  XORRNGvalue32
      mov     edx, eax
      shl     eax, 13
      xor     eax, edx
      mov     edx, eax
      shr     eax, 17
      xor     eax, edx
      mov     edx, eax
      shl     eax, 5
      xor     eax, edx
      mov     XORRNGvalue32, eax ; has nice random number in EAX here

If you want to initialize the seed to a clock value (e.g., RDTSC), you can do that.

Its pretty easy to to implement a 64 bit variation; see the beautiful paper backing this up.

If you need 5 random numbers, you might do OK calling this 5 times; I'd be tempted to call it 6 times and throw one of them away. You'd be better off with 5 different routines with 5 different XOR/shift constants (Marsaglia has dozens in his paper), but if you call them all synchronously they'll all operate in lockstep. You can use your interrupt to make egregious calls to one of them to knock them out of phase.

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Wrt. to the speed of rdrand, check, for example, smackerelofopinion.blogspot.co.uk/2012/10/… - if present, it's fast. –  FrankH. Jun 5 '13 at 14:03
The article suggests 100 million random numbers per second --> 1 every 10 ns. The 64 bit version of Marsaglia's routine is essentially the same sequence of instructions widened to 64 bits, using different constants. Assuming these are all executed sequentially, and that each takes a few clocks, Marsaglia's routine ought to take about 20-30 clocks. On a 3 Ghz machine, that's... 10 ns! Marasaglia's generators are also claimed to have excellent "randomness" properties. ... –  Ira Baxter Jun 5 '13 at 22:39
... If I had to choose between a vendor-specific instruction, and a generic routine, both of the same speed and quality, I'd choose the routine. The real randomness of Intel's instructions are probably good for cryptographic prootocols, though. –  Ira Baxter Jun 5 '13 at 22:40

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