You have a situation where the composite key has two components. The first is 4 bytes and the second 4 bytes. The total key is 8 bytes.
A primary key index is clustered, meaning that the "leaf"s of the b-tree are the actual records themselves. A clustered index is going to be faster to access than other types of indexes.
One consideration in the performance of an index is the size of the key (as well as additional columns being kept in the index). An index with a 4-byte key is going to be smaller than an index with an 8-byte key. This means less disk usage and less storage in memory. However, the gains here might be pretty small. After all, a million rows in the table would correspond to at most a 10-20 million bytes (indexes have additional overheads in them).
Another consideration is the performance of data modification steps. In a clustered index, inserting/modifying a key value in the middle of a table requires re-writing the records themselves. However, you question does not seem to be address data modification.
If you have already defined the primary key index, then adding another index is additional overhead for the system. You might find that both indexes are occupying memory, so instead of saving space you are actually adding to it.
Ultimately, the answer to this type of rather arcane question is to do some timing tests. If the
B column were much, much larger than the
A component, I could possibly see some gains. For queries that only use
A, I could possibly see some gains. However, my guess is that such gains would be quite minimal.