Software Developer II

SUMMARY

This engineer will join the Research and Development team that creates state of the art software for semiconductor analysis.

Innovation in semiconductor design and manufacturing enables smaller device architectures with higher performance and energy efficiency for powering the smart product revolution. The physics associated with shrinking geometries, especially in the emerging 3-D IC, FinFET and stacked-die architectures, bring out design challenges related to power and reliability, affecting design closure. With integrated leading edge technologies like cloud computing and big data analysis, ANSYS simulation and modeling tools offer the sign-off accuracy and performance needed to ensure power noise integrity and reliability of even the most complex ICs, taking into account electromigration, thermal effects and electrostatic discharge phenomena.

RESPONSIBILITIES

Build a solid understanding of the code and the team’s software development processes.
Diagnose and fix code problems.
Deliver code that meets requirements on schedule. Ensure that code is efficient, scalable, maintainable, extensible, robust and easy to understand.
Optimize code to improve tool run time and memory capacity.
Create unit, regression and/or system-level tests to thoroughly validate new features or changes.
Communicate clearly and work closely with manager, technical leads and other engineers to refine solutions and to describe changes that may affect others.
Learn and follow best practices in software engineering.
Expand depth and breadth of knowledge in specific electronic design and analysis areas.

MINIMUM QUALIFICATIONS

BS degree in Electrical Engineering, Computer Science or related field, with five years experience or MS in Electrical Engineering, Computer Science or related field
Three years experience in C or C++ with broad and deep understanding of the language
Working knowledge of the Linux operating system
Strong background in data structures, algorithms, and debugging
Solid understanding of electronic design at gate level and/or transistor level
Ability to learn quickly, understand complex systems and to work closely with others
Ability to complete high-quality work on time

PREFERRED QUALIFICATIONS

Prefer PhD in Electrical Engineering, Computer Science or related field

Demonstrated skills in the following areas are a plus:
Successful large-scale commercial software development
Development, debugging and optimization of systems using distributed processing
Experience with the Python programming language
Parasitic extraction for advanced semiconductor nodes
Transistor-level simulation or analysis
Gate level or RTL power analysis and/or optimization
IC physical design
Logic synthesis or equivalence checking
GUI development for physical design or analysis tools

CULTURE AND VALUES

Culture and values are incredibly important to ANSYS. They inform us of who we are, of how we act. Values aren't posters hanging on a wall or about trite or glib slogans. They aren't about rules and regulations. They can't just be handed down the organization. They are shared beliefs – guideposts that we all follow when we're facing a challenge or a decision. Our values tell us how we live our lives; how we approach our jobs. Our values are crucial for fostering a culture of winning for our company:
• Customer focus
• Results and Accountability
• Innovation
• Transparency and Integrity
• Mastery
• Inclusiveness
• Sense of urgency
• Collaboration and Teamwork

ANSYS does not accept unsolicited referrals for vacancies, and any unsolicited referral will become the property of ANSYS. Upon hire, no fee will be owed to the agency, person or entity.