Powder bed fusion (PBF) is a metal additive manufacturing technology that has been rapidly applied in aerospace, molding, and medical devices manufacturing industries to produce end-use parts. However, the PBF process involves a highly localized laser heating, resulting in a large thermal gradient that induces residual thermal stress and deformation in the finished build. The excessive thermal stress in the part leads to final part fails to fit in size, or more severely, causes termination of the manufacturing process due to recoater crash issues, wasting a lot of time and cost for those failed builds. ITRI develops a virtual printing technology to predict the outcome of PBF process that spans for days to weeks in just a few hours, assisting manufacturers to visualize the possible build risks and prevent failures. ITRI AMSIM is developed based on the virtual printing technology for PBF process; it provides users to visualize the predicted outcome of the process and optimize the design for first-time-right printing. It further reduces waste of time and cost in actual manufacturing process and improves the return on investment of PBF equipment.