The first largest tonnage 80 MN double-column rapid forging hydraulic press in China was studied. The finite element model was established with the combination of Pro/E 3D modeling software and the ANSYS finite element analysis software. The connection relationship of each part of the hydraulic press was handled through the contact method. The multi-rod whole pretension structure of inclined double-column was analyzed. The stress state of eccentric load upsetting condition was numerical simulated. Through the analysis of calculation results, the stress state and deformation law of hydraulic press is received. It provides a basis for the structural design and optimization of hydraulic press.