Clojure is a functional programming language designed to take advantage of multi-core/SMP processors. You can get a lot out of a functional programming language without shared memory access, and indeed Erlang does this wonderfully, but it does not take advantage of all the processors powers.
Where clojure shines in comparison to 'Actor model' languages is when multiple threads want to work on the same data in a meaningful and coordinated way. If you have a trivially parallelizable problem like image processing then you don't need these advantages and you can just send one chunk of data to each worker. When these bits of data are interdependent then Coordinated shared access becomes a real advantage.
In the context of games you can use this to have many threads updating the game world and one thread showing it to the user. a
ref will ensure that the user always sees a consistent game world, while many threads are editing it. without this you would need to have each thread responsible for determining when to show it to the user, or only have on thread.
Another reason to use such a model for editing a game world, other than speed, is to allow you to seperate processes that do different things into different threads in one of Rich's early clojure examples he shows an ant simulator where each ant has its own thread that updated the ants position on the board, which made for some very short and simple code.