8 characters - perfectly random - 36^8 = 2,821,109,907,456 combinations
10 characters - perfectly random - 36^10 = 3,656,158,440,062,976 combinations
GUID's - statistically unique* - 2^128 = 340,000,000,000,000,000,000,000,000,000,000,000,000 combinations
* Is a GUID unique 100% of the time? [stackoverflow]
The problem with your GUID -> character conversion; while your GUID is statistically unique, by taking any subset you decrease randomness and increase the chance of collisions. You certainly don't want to create non-unqiue SKU's.
Create SKU using data relevant to the object and business rules.
i.e. There likely to be a small combination of attributes that makes an object unique (a natural key). Combine the elements of the natural key, encode and compress them to create a SKU. Often all you need is a date-time field (ie CreationDate) and a few other properties to achieve this. You're likely to have a lot of holes in sku creation, but sku's are more relevant to your users.
Wholesaler, product name, product version, sku
Amazon, IPod Nano, 2.2, AMIPDNN22
BestBuy, Vaio, 3.2, BEVAIO32
A method that reserves a range of numbers, and then proceeds to release them sequentially, and never returns the same number twice. You can still end up with holes in the range. Likely though you don't need to generate enough sku's to matter, but ensure your requirements allow for this.
An implementation is to have a
key table in a database that has a counter. The counter is incremented in a transaction. An important point is that rather than incrementing by 1, the method in software grabs a block. pseudo-c#-code is as follows.
-- what the key table may look like
CREATE TABLE Keys(Name VARCHAR(10) primary key, NextID INT)
INSERT INTO Keys Values('sku',1)
// some elements of the class
public static SkuKeyGenerator
private static syncObject = new object();
private static int nextID = 0;
private static int maxID = 0;
private const int amountToReserve = 100;
public static int NextKey()
lock( syncObject )
if( nextID == maxID )
private static void ReserveIds()
// pseudocode - in reality I'd do this with a stored procedure inside a transaction,
// We reserve some predefined number of keys from Keys where Name = 'sku'
// need to run the select and update in the same transaction because this isn't the only
// method that can use this table.
using( Transaction trans = new Transaction() ) // pseudocode.
int currentTableValue = db.Execute(trans, "SELECT NextID FROM Keys WHERE Name = 'sku'");
int newMaxID = currentTableValue + amountToReserve;
db.Execute(trans, "UPDATE Keys SET NextID = @1 WHERE Name = 'sku'", newMaxID);
nextID = currentTableValue;
maxID = newMaxID;
The idea here is that you reserve enough keys so that your code doesn't go the the database often, as getting the key range is an expensive operation. You need to have a good idea of the number of keys you need to reserve to balance key loss (application restart) versus exhausting keys too quickly and going back to the database. This simple implementation has no way to reuse lost keys.
Because this implementation relies a database and transactions you can have applications running concurrently and all generate unique keys without needing to go to the database often.
Note the above is loosely based on
key table, page 222 from Patterns of Enterprise Application Architecture (Fowler). The method is usually used to generate primary keys without the need of a database identity column, but you can see how it can be adapted for your purpose.