We present GW calculations of molecules, ordered and disordered solids and
interfaces, which employ an efficient contour deformation technique for
frequency integration, and do not require the explicit evaluation of virtual
electronic states, nor the inversion of dielectric matrices. We also present a
parallel implementation of the algorithm which takes advantage of separable
expressions of both the single particle Green's function and the screened
Coulomb interaction. The method can be used starting from density functional
theory calculations performed with semi-local or hybrid functionals. We applied
the newly developed technique to GW calculations of systems of unprecedented
size, including water/semiconductor interfaces with thousands of electrons
