I think the question is better addressed to the BLAS/LAPACK libraries you use rather than to SciPy/NumPy.
Some BLAS/LAPACK libraries, such as MKL, use multiple cores natively where other implementations might not.
scipy.linalg.solve as an example, here's its source code (with some error handling code omitted for clarity):
def solve(a, b, sym_pos=0, lower=0, overwrite_a=0, overwrite_b=0,
debug = 0):
posv, = get_lapack_funcs(('posv',),(a1,b1))
c,x,info = posv(a1,b1,
lower = lower,
gesv, = get_lapack_funcs(('gesv',),(a1,b1))
lu,piv,x,info = gesv(a1,b1,
raise LinAlgError, "singular matrix"
'illegal value in %-th argument of internal gesv|posv'%(-info)
As you can see, it's just a thin wrapper around two families of LAPACK functions (exemplified by
There is no parallelism going on at the SciPy level, yet you observe the function using multiple cores on your system. The only possible explanation is that your LAPACK library is capable of using multiple cores, without NumPy/SciPy doing anything to make this happen.