Memcached servers are pooling servers. Meaning that you define a pool (a list) of servers and when the Java client attempts a write it writes towards the pool.
It's the client's job to decide which server from the pool will receive and store the value and how it will retrieve the value from that pool.
Basically this allows you to start with one Memcached server (possibly on the same machine) and if push comes to shove you can add a few dozen more servers to the pool without touching the application code.
Since the client is responsible of distributing data across the pool of servers (the client has to choose right memcached server to store/fetch data) there are few distribution algorithms.
One of the simplest is modula. This algorithm distributes keys depending on the amount of memcached servers in pool. If the number of servers in the pool changes, the client won't be able to the find stored data, there will be cache misses. In such case it's better to use consistent hashing.
Most popular java memcached clients spymemached and xmemcached support consistent hashing.
In some use cases instead of directly using the memcached client, caching can be added to a spring application through AOP (interceptors) using simple-spring-memcached or Spring 3.1 Cache Abstraction. Spring Cache currently doesn't support memcached but simple-spring-memcached provides such integration in snapshot build and upcoming 3.0.0 release.