VLSI Engineer

Hidani Tech is seeking a VLSI Engineer to support the design, development, testing, and optimization of integrated circuits and semiconductor systems. The role involves collaborating with cross-functional teams to enhance performance, power efficiency, reliability, scalability, and cost-effectiveness of electronic products.

Responsibilities:

• Assist in the design, development, and improvement of digital and analog VLSI circuits, ASICs, SoCs, and FPGA-based solutions
• Conduct circuit simulation, verification, and analysis to evaluate timing, power, functionality, signal integrity, and reliability
• Collect, analyze, and interpret design and test data related to chip performance and functionality
• Support evaluation of circuit architecture, logic design, RTL coding, synthesis, and physical design methodologies
• Develop and maintain documentation including design specifications, verification reports, timing analysis reports, and process guidelines
• Identify design defects, performance bottlenecks, or inefficiencies and propose solutions or improvements
• Support senior engineers in chip design, verification, validation, failure analysis, and root cause investigations
• Collaborate with design, verification, layout, testing, manufacturing, and R&D teams to ensure design feasibility and compliance with standards
• Monitor key performance indicators (KPIs) such as speed, power consumption, area utilization, timing closure, and yield
• Assist with testing, validation, debugging, and continuous improvement initiatives
• Support preparation of technical inputs for design reviews, tape-out processes, audits, and engineering decisions

Requirements:

• Master's degree in VLSI Design, Electronics Engineering, Electrical Engineering, Microelectronics, or a related field
• Strong analytical and problem-solving skills with proficiency in digital logic design and circuit analysis
• Basic understanding of semiconductor fundamentals, CMOS design, digital electronics, and signal processing concepts
• Familiarity with EDA tools such as Cadence, Synopsys, Mentor Graphics, ModelSim, or Vivado
• Knowledge of Verilog, VHDL, SystemVerilog, or RTL design methodologies
• Ability to analyze technical data and translate findings into practical hardware solutions
• Strong attention to detail, documentation practices, and quality standards
• Effective communication skills for presenting technical findings to diverse teams
• Eagerness to learn, adapt, and grow in a dynamic, hands-on semiconductor engineering environment
• Exposure to physical design, timing analysis, DFT, place-and-route, or chip verification processes is a plus
• Familiarity with FPGA prototyping, ASIC flow, or low-power design techniques is an advantage