Regarding the use of sequential keys (as with identity, sequence, and NEWSEQUENTIALID) vs. nonsequential ones (as with NEWID or a custom randomized key generator), there are several aspects to consider.
Starting with sequential keys, all rows go into the right end of the index. When a page is full, SQL Server allocates a new page and fills it. This results in less fragmentation in the index, which is beneficial for read performance. Also, insertions can be faster when a single session is loading the data, and the data resides on a single drive or a small number of drives.
However, with high-end storage subsystems that have many spindles, the situation can be different. When loading data from multiple sessions, you will end up with page latch contention (latches are objects used to synchronize access to database pages) against the rightmost pages of the index leaf level’s linked list. This bottleneck prevents use of the full throughput of the storage subsystem.
Note that if you decide to use sequential keys and you’re using numeric ones, you can always start with the lowest value in the type to use the entire range. For example, instead of starting with 1 in an INT type, you could start with -2,147,483,648.
Consider nonsequential keys, such as random ones generated with NEWID or with a custom solution. When trying to force a row into an already full page, SQL Server performs a classic page split—it allocates a new page and moves half the rows from the original page to the new one. A page split has a cost, plus it results in index fragmentation. Index fragmentation can have a negative impact on the performance of reads. However, in terms of insert performance, if the storage subsystem contains many spindles and you’re loading data from multiple sessions, the random order can actually be better than sequential despite the splits.
That’s because there’s no hot spot at the right end of the index, and you use the storage subsystem’s
available throughput better. A good example for a benchmark demonstrating this strategy can be found in a blog by Thomas Kejser at http://blog.kejser.org/2011/10/05/boosting-insert-speed-by-generating-scalable-keys/.
SQL Server® 2012