ssela malt factory has different subsection needed for processing of barley. The machine towerrnis one which has high frightening feature to climb up or to come down over floor stories. Due tornthis higher officials of the factory couldnâ€™t see top floor machines and problems. Workers of thernfactory has a problem to transport motors and materials in case of problem occurrence forrnreplacement. So, designing a lift for this room/subsection can hinder these mentioned problems. rn Most previous known elevators/lifts are designed using conventional PLC technology. PLCrnprovides flexibility, lower cost and security compared to other control techniques. But theserntechnology has series-cycling implementation on rungs and takes long duration to address therncommand signal. However, the FPGA programing technique can executes programs in parallel,rnhence, give fast response for the command signal given to it as input. rnIn this thesis, lift control is designed and simulated using embedded Xilinx FPGA into MatlabrnSimulink platform. VHDL code could be generated from Simulink controller block of lift model.rnThe Simulink model simulation result demonstrates that the lift is operating within designrnspecification. It is designed that the lift has a linear speed of 1.25m/s, and acceleration of 0.8m/s^2rn(-0.8 m/s^2 deceleration). rnFive floor level efficient lift logic control system is designed and simulated using XILINX ISE 8.1irnstateCAD. By changing the state diagram, VHDL code is generated and used to implement controlrnsystem on FPGA Spartan-3E. State Bench simulator is used to simulate results of proposed controlrnsystem. The logic based controller for door opening, closing and level indication all arernfunctioning according to design.