The advent of electric vehicles (EVs) has spurred a technological revolution in the automotive industry, with engineers constantly seeking innovative solutions to enhance efficiency, sustainability, and performance. Among these solutions, the integration of Switched Reluctance Motors (SRMs) has emerged as a promising avenue. SRMs offer distinct advantages over traditional motors, leveraging the principle of magnetic reluctance to drive motion. Unlike permanent magnet motors, SRMs utilize the magnetic reluctance of the rotor and stator to generate torque, making them inherently robust and fault-tolerant. This characteristic renders SRMs particularly suitable for automotive applications where reliability and durability are paramount. Additionally, SRMs excel in high-speed operations, providing EVs with superior acceleration capabilities while maintaining energy efficiency. Furthermore, the simplified construction of SRMs facilitates cost-effective manufacturing and maintenance, aligning with the automotive industry's drive towards sustainability and affordability. The versatility of SRMs also enables seamless integration with various EV architectures, offering flexibility in design and optimization. As the automotive sector continues to transition towards electrification, the utilization of SRMs in EVs represents a pivotal advancement, promising enhanced performance, reliability, and sustainability for the future of transportation.