Career opportunities in VLSI Design and Verification
The combined process of creating chips is known as VLSI design, where VLSI stands for Very-Large-Scale-Integration. The need for knowledgeable VLSI engineers in IC design firms has grown over time. This is a result of the significant developments in the smartphone, EV, and AI technologies, all
of which rely on smart ICs.
Today, almost all of the electrical devices we use have chips with millions of transistors. These chips are present in every electronic gadget, including mobile phones, televisions, medical monitoring equipment, and other electronic gadgets. This highlights the value of VLSI design and verification as a developing profession. For qualified ASIC engineers, FPGA designers, and analogue designers, there are several career vacancies with each of these fields demanding a unique set of expertise.
By 2024, the VLSI and embedded industries will employ 750,000 people, with around 685,000 working in embedded systems and 80,000 in VLSI design, according to NASSCOM.
The icing on the cake would be earning a professional degree in VLSI design and verification. You would not pass up the opportunity to shine in the field if you had a stronger theoretical and practical understanding.
Opportunities for Employment in the VLSI Industry
● SoC Verification Engineer
SoC verification engineers or RTL verification engineers, collaborate closely with RTL design
engineers to verify and report design bugs. An SoC Verification Engineer’s efforts are essential to
the product’s success.
● RTL Design Engineer
An RTL design engineer’s job includes utilizing Verilog to develop and implement designs. RTL
designer engineers need to be knowledgeable about digital design principles, able to read and
understand design specifications and translate them into Verilog code utilizing RTL design and
coding guidelines, as well as having strong debugging skills.
● Application Engineers
It is the duty of application engineers to assist consumers in using a product they have
purchased. By demonstrating how to use and use the product in question to satisfy the needs of
the consumer, AEs typically play a large role prior to the sale of a product.
● CAD Engineer
Parts of the design flow are automated by CAD engineers. A CAD engineer needs to be well
versed in the entire design process, from specification to tape out and to be a master at using
EDA tools, scripting, and quality assurance.
● Corporate Applications Engineer (CAE)
The production team, clients, and customers all receive technical support from the CAEs.
Because CAE is an expert on microchip products, CAE can assist clients in choosing and utilizing
the right devices for their needs.
● Field Application Engineer (FAE)
FAEs serve as a link between the R&D department and the clients. They need to have
exceptional debugging abilities, interpersonal skills, and presence of mind when engaging with
consumers who are demanding in every way.
Benefits of a professional Diploma
With the help of a professional diploma in the field, students can gain hands-on experience in this key
area of electronics, paving the way for a career with top chip manufacturers and their participation in
ground-breaking developments in the sector.
It allows for Front end Design exposure and ensures upskilling in ASIC Design Flow, Digital Electronics or
Logic Design, PERL Scripting, Linux, Verilog HDL, System-Verilog HDVL, Basic Static Timing Analysis,
UVM methods, coupled with practical experience in each subject. Additionally, students get prepared for a
dream chance by receiving real-world exposure to working on numerous protocol-based and
Get the Ibis Advantage
Ibis Academy’s postgraduate diploma program in Advanced VLSI Design and Verification includes both
theoretical and substantial practical work to impart real-world learning and ensure that students receive
the necessary training necessary to enter the profession. Ibis offers every student excellent support in
pursuing their professional path and finding the role that best suits them. Every aspect of this journey is
continuously supported by our placement cell.