We derive 2D dust attenuation maps at similar to 1 kpc resolution from the UV continuum for 10 galaxies on the z similar to 2 star-forming main sequence (SFMS). Comparison with IR data shows that 9 out of 10 galaxies do not require further obscuration in addition to the UV-based correction, though our sample does not include the most heavily obscured, massive galaxies. The individual rest-frame V-band dust attenuation (A(V)) radial profiles scatter around an average profile that gently decreases from similar to 1.8 mag in the center down to similar to 0.6 mag at similar to 3-4 half-mass radii. We use these maps to correct UV-and H alpha-based star formation rates (SFRs), which agree with each other. At masses less than or similar to 10(11) M circle dot, the dust-corrected specific SFR (sSFR) profiles are on average radially constant at a mass-doubling timescale of similar to 300. Myr, pointing at a synchronous growth of bulge and disk components. At masses greater than or similar to 10(11) M circle dot, the sSFR profiles are typically centrally suppressed by a factor of similar to 10 relative to the galaxy outskirts. With total central obscuration disfavored, this indicates that at least a fraction of massive z similar to 2 SFMS galaxies have started their inside-out star formation quenching that will move them to the quenched sequence. In combination with other observations, galaxies above and below the ridge of the SFMS relation have, respectively, centrally enhanced and centrally suppressed sSFRs relative to their outskirts, supporting a picture where bulges are built owing to gas "compaction" that leads to a high central SFR as galaxies move toward the upper envelope of the SFMS.