AbstractWe review the properties of supernovae (SNe) as a function of the progenitor's mass M. (1) M_up - 10 M_⊙ stars are super-AGB stars and resultant electron capture SNe may be Faint supernovae like Type IIn SN 2008S. (2) 10 - 12 M_⊙ stars undergo Fe-core collapse to form neutron stars (NSs) and Faint supernovae. (3) 12 M_⊙ - M_BN stars undergo Fe-core collapse to form NSs and normal core-collapse supernovae. (4) M_BN - 90 M_⊙ stars undergo Fe-core collapse to form Black Holes. Resultant supernovae are bifurcate into Hypernovae and Faint supernovae. The observed properties of SN 2008ha can be explained with this type of Faint supernovae. (5) 90 - 140 M_⊙ stars produce Luminous SNe, like SNe 2007bi and 2006gy. (6) 140 - 300 M_⊙ stars become pair-instability supernovae which could be Luminous supernovae (SNe 2007bi and 2006gy). (7) Very massive stars with M ≳ 300 M_⊙ undergo core-collapse to form intermediate mass black holes. Some SNe could be more Luminous supernovae (like SN 2006gy).