- Designing and developing high-performance flip flops, latches, multibit flip flops, voltage level shifters, power optimization cells, clock cells, and other complex circuits.
- Creating and refining environments for post-layout netlist extraction.
- Applying your expertise in CMOS device characteristics, design rules, latch-up, and electromigration to ensure robust designs.
- Optimizing digital circuits for better performance, power, and area (PPA).
- Performing statistical and variation analysis to enhance the reliability of designs.
- Collaborating with cross-functional teams to integrate designs into larger systems.
The Impact You Will Have:
- Contributing to the creation of cutting-edge semiconductor technologies that power a wide range of applications.
- Enhancing the performance and efficiency of standard cell circuits, impacting the overall quality of our products.
- Driving innovation in power optimization and clock cell design, leading to more energy-efficient solutions.
- Improving the reliability and robustness of our designs through meticulous analysis and optimization.
- Collaborating on projects that shape the future of technology and influence industry standards.
- Leveraging your skills to solve complex engineering challenges, contributing to the success of Synopsys.
What You ll Need:
- Experience in Standard Cell Circuit design of high-performance flip flops, latches, multibit flip flops, voltage level shifters, power optimization cells, and clock cells.
- Strong knowledge and hands-on experience in developing environments and extracting post-layout netlists.
- Good understanding of CMOS device characteristics, design rules, latch-up, and electromigration.
- Proficiency in digital circuit design and optimization for better PPA.
- Hands-on experience in statistical/variation analysis
