Mastering ASIC Design & Verification
Unlock the Secrets of Digital IC verification & validation
Complete Front End Verification Package
Design Engineers
Package
Professionals Industry Bridgegapper Course
Protocol
Training
Fast track and Interview Reckoner
4+
Years of experience
750+
Trained Engineers
Our Mission
Empowering Excellence in ASIC Design & Verification
To prepare individuals for success in ASIC Design & Verifi through top-quality education, innovation, and empowerment while fostering a supportive global community of learners.
Our mission is underpinned by a commitment to lifelong learning. We believe that the world of ASIC Design & Verifi is dynamic and ever-evolving. Thus, our aim is to prepare you for success today and provide you with the skills and knowledge to ensure your continued excellence in this field for years to come.
Key points to consider in digital IC verification and validation:
- Functional Verification: Ensures that the IC performs the specified functions correctly under various operating conditions. This involves testing the IC using a wide range of input scenarios to detect functional errors.
- Formal Verification: Involves mathematical proof techniques to verify the correctness of the IC's design. Formal methods are used to prove that the design meets its specification without requiring exhaustive testing
- Emulation: Emulation platforms replicate the behavior of the IC before silicon is available. They allow for extensive testing and debugging of the design.
- Post-Silicon Validation: After the IC is manufactured, it undergoes extensive testing to ensure it meets performance, power, and reliability requirements. This phase may also involve identifying and fixing any design flaws through workarounds or software updates.
- Regression Testing: As the IC design evolves, regression testing ensures that changes or updates do not introduce new bugs or issues.
- Compliance Testing: Ensures that the IC complies with industry standards and regulations, such as electromagnetic compatibility (EMC) and electromagnetic interference (EMI) standards
In summary, digital IC verification and validation are essential steps in ensuring the correctness, reliability, and performance of digital integrated circuits. These processes help detect and rectify design errors and ensure that the IC functions as intended under real-world conditions, ultimately contributing to the production of high-quality electronic components.
Courses
Our popular courses
Complete Front End Verification Package
This Course is designed for Graduates and Fresher trying to make entry to high profile DV Engineer roles which is hottest job in VLSI industry in India and US.
– Digital Design
– Verilog
– System Verilog
– UVM
Rs 1.00,000/-
Design Engineers Package
This Course is Designed for Upcoming Design Engineers where we teach on Modelling RTL using both verilog and System Verilog
– Digital Design
– Verilog
Rs 40,000/-
Professionals Industry Bridgegapper Course With Placement Assistant
This course is targeted for audience specially who want to switch jobs/who are constrained with time just want to learn SV and UVM
– System Verilog
– UVM
– Industry Standard Protocols*
-Placement Assistence
Rs 90,000/-
Fast track and Interview Reckoner
Designed for professionals who want to do fast paced course to crack interview and bridge the gaps on fundamentals
– Interview preparation for SV and UVM
– AMBA Protocol
– High Speed Protocol ( PCIe or CXL basics) or CPU Architecture (AMD based x86 Architecture)
Rs 75,000/-
Protocol Training
– AMBA Protocol Package ( APB, AHB, AXI)
– PCIe
– CXL
– UART, SPI, I2C
(This Course will be on Demand basis on special request)
AMBA + Protocol = Rs 15,000/-
PCle/CXL + Protocol = Rs 20,000/-
AMBA + PCLe = Rs 25,000/-
Benefits
Why Innovways?
Dynamic course structure
State-of-art infrastructure
Industry Mentorship
Continuous Practice tests
1:1 Mentoring
Mock interviews
Technical group discussion
Hands-on Training
Let's join now and get a
special offer
FAQ - Frequently Asked Question
ASIC design verification is the process of ensuring that an Application-Specific Integrated Circuit functions correctly according to its design specifications and requirements. This course teaches the methods and techniques used for verification.
This course is suitable for electronics engineers, computer scientists, and anyone interested in learning about ASIC design verification. It’s particularly valuable for those working in semiconductor or integrated circuit design.
Prerequisites may vary depending on the course. However, a background in digital design, hardware description languages (HDLs) like Verilog or VHDL, and a basic understanding of digital logic are often helpful.
This course typically covers topics such as verification methodologies, testbench development, simulation, formal verification, hardware description languages, and industry-standard tools and practices in ASIC design verification.
The duration of the course can vary depending on the institution and the depth of the material covered. It may range from a few weeks for introductory courses to several months for comprehensive programs.
The course may cover both pre-silicon and post-silicon verification. Pre-silicon verification is done before manufacturing, while post-silicon verification involves testing on actual silicon chips.
Many ASIC design verification courses include hands-on labs or projects where students apply the concepts learned in class to real-world verification scenarios. These projects are valuable for practical learning.
The course may introduce you to various verification tools and software commonly used in the industry, such as simulation tools (e.g., Cadence Incisive, Synopsys VCS), verification languages, and scripting languages.
Some courses may offer a certificate of completion. It’s important to check with the course provider to understand their certification policy.
Completing an ASIC design verification course can open doors to careers in semiconductor companies, electronic design automation (EDA) firms, and industries requiring expertise in integrated circuit verification.
In addition to the course materials, instructors may recommend textbooks, online resources, or research papers to enhance your understanding of ASIC design verification.
Given the rapidly evolving nature of the semiconductor industry, it’s important to ensure that the course content is up-to-date and reflects current verification methodologies and tools.
