regarding @TomTom's comment:
If you have SQL Server Enterprise edition available you should use Table Partitioning.
If this is not the case, my original post may be helpfull:
Deleting a large amount of data is always difficult. I faced the same problem and I went with the following solution:
Depending on your requirements this will not work, but maybe you can get some ideas from it.
Instead of using 1 table, use 2 tables, with the same schema. Create a synonym (I assume you are using MS SQL server) that points to the "active table of the 2 tables (active means, this is the table that you currently write to). Use this synyonym for the inserts in your application, or instead of using the synonym, the application could just change the table each x days it writes to.
Every x days you can truncate the old/inactive table and afterwards recreate the synonym to target the truncated table (if you use the synonnym solution), so effectively you are partitioning the data per time.
You have to synchronize the switch of the active table. I automated this completely, by using a shared App-lock for the application, and an Exclusive Applock when changing the synonym (== blocking the writing application during the switching process).
If changing your applicaiotn's code is not an option, consider using the same principle but instead of writing to the synonym you could create a view with instead of triggers (the insert operation would insert into the "active" partition). The trigger code would need syhcnronize using something like the Applock as mentioned above (so that writes during the switching process work).
My solution is a litte more complex, so I currently cannot post the code here, But it works without problems for a high load application and the swithcingt/cleanup process is completely automated.