What this role is and why it existsYou are a passionate and experienced software developer eager to make a tangible impact in the semiconductor industry. You thrive in collaborative environments, have a strong analytical mindset, and are driven by the desire to solve complex technical challenges.## What you'll be doingDesigning and developing advanced software solutions for semiconductor analysis and simulation. Conducting in-depth research and analysis in areas such as user experience, solver optimization, and software architecture. Collaborating with cross-functional teams to maintain best practices through technical reviews and peer mentoring. Performing rigorous bug verification, release testing, and providing beta support for assigned products. Investigating and resolving complex issues identified by QA or product support, devising innovative solutions. Anticipating technological trends and future needs, actively proposing and implementing new features and enhancements. Optimizing code to enhance tool runtime and memory efficiency, enabling robust performance for large-scale simulations.## What you needB.E./BTech. degree in Electronics Engineering, Computer Science, or related fields such as VLSI. Minimum 2 years of experience in software development, ideally in large-scale commercial environments. Proficiency in C++ or Python, with a strong foundation in data structures, algorithms, and debugging techniques. Solid understanding of the Linux operating system and distributed processing systems. Ability to quickly learn new technologies, grasp complex systems, and collaborate effectively with diverse teams.## Why this mattersAccelerating the development of high-performance, reliable semiconductor design tools that power next-generation devices. Ensuring sign-off accuracy and performance for complex ICs, directly influencing the success of major industry players. Enabling energy-efficient, high-speed smart products through simulation tools that solve crucial power and reliability challenges. Driving innovation in emerging 3D IC, FinFET, and stacked-die architectures by addressing critical design closure issues. Contributing to the evolution of industry standards in electromigration, thermal effects, and electrostatic discharge analysis. Supporting the continuous improvement of Synopsys products by researching and integrating cutting-edge technologies.
