VLSI DESIGN ENGINEER @ DIVINE TALENT ACQUISITION
Join leading semiconductor companies, chip design firms, and embedded technology organizations in a global recruitment drive for hardware engineering professionals. This role offers a unique opportunity to work at the forefront of VLSI technology, contributing to the development of next-generation chips and integrated circuits that power modern devices. As a key member of the engineering team, you will participate in the full design lifecycle, collaborating with cross-functional teams to deliver high-quality semiconductor solutions.
Candidates will be involved in various stages of the design process, ranging from architectural specification to implementation and verification. Depending on the specific requirements of the project and the regional office, opportunities for remote, hybrid, or on-site work arrangements are available. This position is ideal for professionals seeking to advance their careers in a fast-paced, innovative industry with global reach and significant impact on the future of technology.
Candidates will be involved in various stages of the design process, ranging from architectural specification to implementation and verification. Depending on the specific requirements of the project and the regional office, opportunities for remote, hybrid, or on-site work arrangements are available. This position is ideal for professionals seeking to advance their careers in a fast-paced, innovative industry with global reach and significant impact on the future of technology.
Key Requirements
Bachelor’s or Master’s degree in Electrical Engineering, Electronics, or a related field.
Proven experience in VLSI design and semiconductor engineering processes.
Proficiency in Hardware Description Languages (HDL) such as Verilog or VHDL.
Strong understanding of digital logic design and computer architecture.
Familiarity with industry-standard EDA tools from Synopsys, Cadence, or Mentor Graphics.
Experience with RTL coding, synthesis, and timing analysis (STA).
Knowledge of CMOS technology and physical design principles.
Ability to perform functional verification using UVM or SystemVerilog.
Excellent analytical and problem-solving skills for complex circuit issues.
Strong communication skills and the ability to work in a collaborative, global team environment.