What are the fast solvers for FEM equations? I would prefer open source implementation, but if there is a commercial implementation, then I won't mind paying for it.

How about FEAP. It has full source code available when you purchase it. It is pretty big project, maybe its too much for your needs, but check it out.
It has also a Personal Edition called FEAPpv available for free, including source code. Differences between those versions are listed in this pdf. 


"brad"? do you mean "broad"? you don't say if your problem is linear or nonlinear. that'll make a very big difference. the solver depends on the type of equation and the size of your problem. for elliptical pdes you can choose standard linear algebra techniques like lu decomposition, iterative methods like successive over relaxation, or wavefront solvers that minimize memory consumption. some people like solving nonlinear steadystate problems as if they were dynamics problems. the idea is to create "fake" mass and damping matricies and use explicit time integration to converge to steady state. lots of choices. standard linear algebra is a good starting point. language? java? 


Oops, that's kind of a brad question. Solving differential equations usually starts with analyzing equation itself. Some equations are notoriously difficult to solve efficiently, e.g. indifinite boundary problems. So if you have something else than an elliptic problem, you'll might better prepare for hard times ahead. Next important and crutial part is transfering the contiouus problem into a discrete mesh. Typically the accuracy of your results will vary with different ways to generate this mesh. You'll need some sound experience here. So I'd say there is nothing like the fast slover for FEM equations. Anyway, while Wikipedia gives a short overview of the topic, you might perhaps also have a look a the german Wikipedia page. It lists wellknown FEM implementations. 


OpenFoam and Elmer are two open source solvers. Not sure about Elmer, but I think OpenFoam might uses the control volume approach. 


solid mechanics, fluid mechanics, electromagnetics, heat transfer  all will have very different solution techniques. and coupled physics problems are another matter. i'm assuming that your problem is physicsbased. maybe you're a finance quant who wants to solve black sholes. 


I used OpenFOAM for fluid dynamics research. You can do parallel processing with it with MPI. And if you have a Cray T3E it will be fast! It's open source :D http://www.opencfd.co.uk/openfoam/features.html#features 


Code Aster is an open source FE code. code aster The pre and postprocessing is usually done with Salome  both originate from EDF. 

