The vibrational properties of three sodosilicate glasses have been investigated in the framework of Density Functional Theory. The Raman spectra are calculated and the results compare well with the experimental observations. The vibrational analysis confirms the presence of Si-O-Si bending as well as breathing modes of small rings at intermediate frequencies. The Qn Raman-feature at high frequency is decomposed into Q2, Q3, and Q4 vibrational species. Interestingly, the results suggests a large overlap between the three contributions as well as spectral shapes that are not necessarily unimodal nor Gaussian, as frequently assumed in the treatment of the experimental data. Raman scattering of ternary alumino-silicate glasses with alkali and alkaline-earth cations (Mg, Ca, Sr, Ba, Na,...) has also been performed. In these glasses, vibrational signatures of cations are clearly evidenced at low frequency in the depolarized (VH) spectra. Raman scattering by cations at low-frequency is confirmed by the computational data in the sodo-silicates. In the alumino-silicate glasses the responses associate to different types of motions. The analysis allows separating the contribution arising from network modifier cations to that originating from charge compensator ones.