High Power Induction Motors (IM) have unwavering applications in industries due to heterogeneity working principles , now it is proliferated into electric vehicles utterly as the replacement of the IC engines. The interaction between induced currents and RMF(rotating magnetic field) imposes forces on the rotor bars then without latency rotor starts to spin. The most crucial performance parameter for a normal wheel relay is on the starting torque. IM abundantly plethora torque compares to combustion engines which precision to electric vehicle design. For prognostics permanent magnets are using to soar the starting torque, due to low reluctance the flux from magnetic field lines leads to the development of mechanical forces indispensable. SynRM (synchronous Reluctance motor) hindered the back EMF glitches and PM motors are good at low speed. This paper proposed an integration of the SynRM and PM motor internal structure to pivotal the starting torque by PM into the slotted cuts of SynRM , it unleashes to reduce the magnet effects on stator winding and also helps in the reduced to induced back EMF. By using the ADVISOR simulation tool in MATLAB envision results of 96% efficiency by IPMSynRM compare to conventional Induction motors.