I think choosing an Isolation level for a trasaction depends on the nature of transaction. But as far I have seen it is always advised to avoid (or say 'restricted') using READ_UNCOMMITTED. Most database uses READ_COMMITTED as default isolation level. Somehow I find myself slow to observe advantage of READ COMMITTED over READ UNCOMMITTED.
The only advantage of READ COMMITTED over READ UNCOMMITTED I see is READ COMMITTED wiil never do a DIRTY READ. I find DIRTY READ can make Database unconsistence only in case of a Transaction ROLLBACK(Transaction from which dirty read made). That implies in a part of a system where Transaction ROLLBACK is very unlikely (or say never) to happen READ UNCOMMITTED will give better performance over READ COMMITTED.
Lets take a case: we have record A = 100; B = 200;
T1(READ_UNCOMMITTED) | T2 | A = A + 100 //(A=200 NOW) READ(A); //200 | B = B + A //400 | COMMIT; | | COMMIT;
The only way database will go unconsistence is Transaction T2 'ROLLBACK' occurs. Now if it is most unlikely of T2 to have a ROLLBACK than it seems to me as perfomance gain over little risk taken.
Thanks in advance
Edit This one is too long for a comment so @Quassnoi Let us say we have two transaction T1 (session 1) and T2 (session 2). T2 takes database from a consistence state DB_S1 to DB_S2. As you already know T1 with READ_UNCOMMITTED may give a result that is not compilant with either DB_S1 or DB_S2. The same we may say about T1 with READ_COMMITTED.
Lets say a schedule: T1 starts, counts 100; T2 starts -> has updated row 1 to .9M ; T1 starts -> counts 150 T2 starts -> finish update T1 starts -> can't find anything where value = 1 hence finish.
T1 gives result as 150 which never existed.
I guess in this case T1 needs a Searializable Lock to guarantee a consistence result otherwise it would be on the mercy of transaction scheduler.