For a reasonable implementation of Java:
Each object has a header containing, amongst other things, a pointer to the runtime type (for instance
String, but it could never be
AbstractList). Assuming the runtime compiler (generally HotSpot in Sun's case) cannot determine the type statically a some checking needs to be performed by the generated machine code.
First that pointer to the runtime type needs to be read. This is necessary for calling a virtual method in a similar situation anyway.
For casting to a class type, it is known exactly how many superclasses there are until you hit
java.lang.Object, so the type can be read at a constant offset from the type pointer (actually the first eight in HotSpot). Again this is analogous to reading a method pointer for a virtual method.
Then the read value just needs a comparison to the expected static type of the cast. Depending upon instruction set architecture, another instruction will need to branch (or fault) on an incorrect branch. ISAs such as 32-bit ARM have conditional instruction and may be able to have the sad path pass through the happy path.
Interfaces are more difficult due to multiple inheritance of interface. Generally the last two casts to interfaces are cached in the runtime type. IN the very early days (over a decade ago), interfaces were a bit slow, but that is no longer relevant.
Hopefully you can see that this sort of thing is largely irrelevant to performance. Your source code is more important. In terms of performance, the biggest hit in your scenario is liable to be cache misses from chasing object pointers all over the place (the type information will of course be common).