We have generated multi-wavelength sub-nanosecond optical pulses having pulse energy of nearly 10 nJ based on an advanced semiconductor laser technology. Smooth and single peak optical pulses are generated by the gain switching of a 1064-nm semiconductor-laser optical amplifier, and are converted to second-harmonic optical pulses after the amplification by Yb-doped optical fiber amplifiers. The second-harmonic pulses then are coupled into a single-mode fiber to induce 6 consecutive red-shifted peaks via stimulated Raman scattering. This wavelength-selectable sub-ns light source opens the possibility of multi-color stimulated emission depletion (STED) microscopy.