Just curious but what is the probability of matching a Guid?
Say a Guid from SQL server: 5AC7E650-CFC3-4534-803C-E7E5BBE29B3D
is it a factorial?: (36*32)! = (1152)!
It's not clear what you're asking. I see two ways to interpret your question.
Given a GUID
g, what is the probability of someone guessing it? Let's assume for simplicity that all 128 bits of a GUID are available. Then the probability of guessing
2^-128. That's small. Let's get some intuition around that. Let's assume that our attacker can generate one billion GUIDs per second. To have a 50% chance of guessing
g, our attacker would have to generate 2^127 GUIDs. At a rate of one billion per second, it would take 5391448762278159040348 years to generate 2^127 GUIDs.
We are generating a collection of guids. What is the likelihood of a collision? That is, what is the likelihood that we generate two guids with the same value? This is the birthday paradox. If you generate a sequence of n GUIDs randomly, then the probability of at least one collision is approximately
p(n) = 1 - exp(-n^2 / 2 * 2^128) (this is the birthday problem with the number of possible birthdays being 2^128).
So, even if you generate 2^60 GUIDs, the odds of a collision are extremely small. If you can generate one billion GUIDs per second, it would still take 36 years to have a 1.95e-03 chance of a collision.
The number of possible GUIDs (128-bit value) is 2^128 or 3.4×10^38 — roughly 2 trillion per cubic millimeter of the entire volume of the Earth.
In other words, kind of low.
(Source for Earth volume reference: WikiPedia)
Depends on the type of GUID generation algorithm. Current algorithms use 124 random bits so the probability is 1 in 2^124.
With older algorithms (that use time and MAC address) the probability is much higher.
There are a number of things wrong with your calculations. First off, 36*32 implies that any alphanumeric character can be part of the GUID. This is not the case; only HEX characters are allowed.
Secondly, the calculation for the number of unique GUIDs is Number of Valid Characters (16: 0-9, A-F) ^ length of GUID (32 characters )
So we have 16^32 ==> 2^(4^32) ==> 2^128
The odds of guessing any one GUID is 1 / 2^128.
It is 1 / (number of unique numbers possible with the given UID length). In the above example we see 16 bytes, or 128 bits. 2^128, so the probability of a match is 1 / 2^128.
It depends on how many GUIDs are generated. This is similar to the birthday problem in statistics. See Wikipedia and http://betterexplained.com/articles/understanding-the-birthday-paradox/ (this one specifically has a GUID example)
In general, the probability of a collision for generating M guids over N possible guids is
1 - (1- (1/N))^C(M,2) where
C(M,2) is 'M choose 2'