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IC Design

Skills Trainings

Circuit Technology

Enhance Your IC Design Skills: Training Options

for Every Level

At ChipXPRT, we offer a variety of digital IC design training programs to suit your learning needs. Our training formats ​include:


  • Week-Long Challenges on specific topics (available in person or online)
  • Day-Long Workshops (in person or online)
  • Four-Week Training Courses (in person or online)
  • Three-Month Training Courses (in person or online)
  • Seven-Month Training Courses (in person)
  • 10-12 Month Comprehensive Training Programs
  • Online Pre-recorded Courses (self-paced, not instructor-led)


Whether you're looking for short, intensive learning experiences or extended training programs, we provide flexible ​options to help you grow in your IC design career.

Computer Chip Circuit
Circuit Technology

Become Digital IC Design Proficient in Only 10 Months

Join Instructor-Led Group Trainings

Choose Individual Modules or the Full Course!

Module 1: Scripting for Digital Design (Shell, Perl, TCL) 4 Weeks

Master the essential scripting languages used in the semiconductor industry! In this 4-week ​course, you'll learn how to automate design tasks, streamline workflows, and enhance ​productivity using Shell, Perl, and TCL. Whether you’re optimizing simulations or managing data, ​these scripting skills are crucial for every modern chip designer.

Circuit Technology

Module 2: Combinational Circuit Design with SystemVerilog 4 Weeks

Dive into the heart of digital design with this hands-on 4-week course focused on combinational ​circuits! Explore the theory behind Boolean logic, gates, and K-maps, and then implement them in ​SystemVerilog. By the end, you’ll have built and simulated powerful logic circuits ready for real-​world applications.

Circuit Technology

Module 3: Sequential Circuit Design with SystemVerilog 4 Weeks

Unlock the secrets of timing and storage with this in-depth 4-week course on sequential logic ​design. Learn how to design flip-flops, latches, and complex counters in SystemVerilog, and take ​your digital circuit knowledge to the next level by building circuits that are fundamental to ​modern computing systems.

Circuit Technology

Module 4: CMOS Digital Design: From Transistors to Logic 4 Weeks

Get hands-on with CMOS technology and learn how digital circuits are built at the transistor level. ​This 4-week course covers the theory and practical implementation of digital logic in CMOS, ​teaching you how to design circuits from the ground up and providing critical insight into the ​fabrication process.

Module 5: Computer Architecture with RISC-V 4 Weeks

Explore the future of computing with RISC-V! In this 4-week course, you’ll discover how processors ​are designed from the inside out, using the RISC-V instruction set as your guide. By the end, you’ll ​have a deep understanding of how modern processors work and be able to design your own ​RISC-V-based architecture.

Circuit Technology

Module 6: SystemVerilog Implementation of RISC-V 4 Weeks

Bring theory to life by designing your very own RISC-V processor! This 4-week hands-on course ​teaches you how to implement a RISC-V processor in SystemVerilog, from writing the RTL to ​simulating and verifying the design. Perfect for those looking to build practical skills in processor ​design.

Circuit Technology

Module 7: Physical Design of RTL: From Code to Chip 4 Weeks

Turn your RTL designs into real chips in this intensive 4-week course on physical design! Learn the ​complete flow from synthesis to place-and-route, and understand how to optimize for timing, ​power, and area using industry-standard tools. By the end, you’ll be ready to take any design ​from RTL to a GDSII layout.

Module 8: Designing a Test Chip for a RISC-V SoC 12 Weeks

Apply everything you’ve learned by designing your own test chip! In this comprehensive 12-week ​course, you’ll go through the entire process of designing, simulating, and verifying a RISC-V-​based System-on-Chip (SoC). Experience the full chip design flow, from initial concept to final ​tape-out, and gain the skills to take on real-world chip design challenges.