Magnesium alloy has many advantages, such as light weight, high specific strength, but its formability is limited under room temperature, so that it is not used widely as aluminum alloy. Semi-solid forging and casting is a low cost process that can be used in magnesium forming, it can make good products, this process need the billets that have spherical grains while they are heated to semi-solid temperature for forming. In this study, the microstructure evolution influenced by holding temperature, heating rate and holding time were studied, ultra-fine grain AZ80 produced by ECAE (Equal Channel Angular Extrusion) was compare with As Extrude AZ80 in semi-solid state. In this study, we used the high frequency induction heating to provide a fast heating rate. And observe the microstructure evolution in the heating and temperature holding process after quenching. The result showed that holding temperature had great effect on grain size in semi-solid state; smaller grain size and more circular spherical grain shape were benefit for semi-solid forming. ECAE AZ80 was a better choice for semi-solid forming than As Extrude AZ80 as billet material.