In general in distributed systems you have to choose between processing items either :
- at most once
- at least once
Processing something exactly-once would be convenient however this is generally impossible.
That being said there could be acceptable workarounds for your specific use case, and as you suggest storing the items already processed could be an acceptable solution.
Be aware though that PFADD uses HyperLogLog, which is fast and scales but is approximate about the count of the items, so in this case I do not think this is what you want.
However if you are fine with having a small probability of errors, the most appropriate data structure here would be a Bloom filter (as described here for Redis), which can be implemented in a very memory-efficient way.
A simple, efficient, and recommended solution would be to use a simple redis key (for instance a hash) storing a boolean-like value ("0", "1" or "true", "false") for instance with the HSET or SET with the NX option instruction. You could also put it under a namespace if you wish to. It has the added benefit of being able to expire keys also.
It would avoid you to use a set (not the SET command, but rather the SINTER, SUNION commands), which doesn't necessarily work well with Redis cluster if you want to scale to more than one node. SISMEMBER is still fine though (but lacks some features from hashes such as time to live).
If you use a hash, I would also advise you to pick a hash function that has fewer chances of collisions than md5 (a collision means that two different objects end up with the same hash).
An alternative approach to the hash would be to assign an uuid to every item when putting it in the queue (or a squuid if you want to have some time information).