If the GUID were simply a random number, you could keep an arbitrary subset of the bits and suffer a certain percent chance of collision that you can calculate with the "birthday algorithm":

```
double numBirthdays = 365; // set to e.g. 18446744073709551616d for 64 bits
double numPeople = 23; // set to the maximum number of GUIDs you intend to store
double probability = 1; // that all birthdays are different
for (int x = 1; x < numPeople; x++)
probability *= (double)(numBirthdays - x) / numBirthdays;
Console.WriteLine("Probability that two people have the same birthday:");
Console.WriteLine((1 - probability).ToString());
```

However, often the probability of a collision is higher because, as a matter of fact, GUIDs are in general NOT random. According to Wikipedia's GUID article there are five types of GUIDs. The 13th digit specifies which kind of GUID you have, so it tends not to vary much, and the top two bits of the 17th digit are always fixed at `01`

.

For each type of GUID you'll get different degrees of randomness. Version 4 (13th digit = 4) is entirely random except for digits 13 and 17; versions 3 and 5 are effectively random, as they are cryptographic hashes; while versions 1 and 2 are mostly NOT random but certain parts are fairly random in practical cases. A "gotcha" for version 1 and 2 GUIDs is that many GUIDs could come from the same machine and in that case will have a large number of identical bits (in particular, the last 48 bits and many of the time bits will be identical). Or, if many GUIDs were created at the same time on different machines, you could have collisions between the time bits. So, good luck safely truncating that.

I had a situation where my software only supported 64 bits for unique IDs so I couldn't use GUIDs directly. Luckily all of the GUIDs were type 4, so I could get 64 bits that were random or nearly random. I had two million records to store, and the birthday algorithm indicated that the probability of a collision was 1.08420141198273 x 10^-07 for 64 bits and 0.007 (0.7%) for 48 bits. This should be assumed to be the best-case scenario, since a decrease in randomness will usually increase the probability of collision.

I suppose that in theory, more GUID types could exist in the future than are defined now, so a future-proof truncation algorithm is not possible.

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