Actually the sparse routines work for dense numpy arrays also, I think they use some
kind of Krylov subspace iteration, therefore they need to compute several matrix-vector
products, which means that if your k << N, the sparse routinescould be (marginally?)
faster.

Check out the docs
http://docs.scipy.org/doc/scipy/reference/tutorial/arpack.html

and the following code (go to take a good coffee with friends until it ends)

```
import numpy as np
from time import clock
from scipy.linalg import eigh as largest_eigh
from scipy.sparse.linalg.eigen.arpack import eigsh as largest_eigsh
np.set_printoptions(suppress=True)
np.random.seed(0)
N=5000
k=10
X = np.random.random((N,N)) - 0.5
X = np.dot(X, X.T) #create a symmetric matrix
# Benchmark the dense routine
start = clock()
evals_large, evecs_large = largest_eigh(X, eigvals=(N-k,N-1))
elapsed = (clock() - start)
print "eigh elapsed time: ", elapsed
# Benchmark the sparse routine
start = clock()
evals_large_sparse, evecs_large_sparse = largest_eigsh(X, k, which='LM')
elapsed = (clock() - start)
print "eigsh elapsed time: ", elapsed
```