Forging is a processing method which uses pressure to mold metals becomes a shape. The forged material has complete grain void density, and so provides excellent dimensional properties as well as other processing parameters comparisons. Forging can give materials their best their energy capacities, and excellent forging flow lines to maximize the toughness with a high strength of impact and fatigue resistance. This study looks at AL6061 aluminum alloy motorcycle brake lever parts; using finite element analysis with metal forming simulation software, DEFORM, to carry out research into the aluminum alloy forging process simulation and die design. The research was conducted by selecting the motorcycle part of an aluminum brake lever, and comparing it with a market modification CNC brake lever, with reference to current conventional aluminum alloy forging die development methods. Traditional forging experience and constant modifications to dies and production methods were used, while at the same time verifying the finite element analysis with DEFORM software for forging feasibility by conducting simulation testing in AL6061 aluminum alloy forging. From forging design analysis through to die design and analysis with the DEFORM forging analysis process, we discovered early that in the aluminum alloy hot forging process there is a possibility of insufficient packing material, and other issues. As well as validating the feasibility of finite element analysis DEFORM software for forging analysis, this study also proposes design parameters modifications.