Very Large-Scale Integration, most often known by its acronym VLSI, is a technique for fabricating integrated circuits that involve squeezing millions of transistors onto a single chip. This design has helped propel the field of electronics to the forefront of innovation. It is currently being implemented in various electronic products and devices, including cell phones, set-top entertainment boxes, defence aerospace, computer peripherals, satellites, consumer electronics, and other tools.
We provide a training program in VLSI technologies to individuals interested in establishing a career in the VLSI sector. This training program is designed to satisfy the modern expectations of the industry. Candidates received training in various facets of chip design as part of the VLSI course.
The VLSI training program’s entirety has been developed so that candidates have a solid grasp of the principles and obtain a comprehensive understanding of the design specifications. Classroom instruction, practical application, and simulations of real-world situations are all included in the appropriate proportions in the VLSI technologies training that we provide. Candidates go through this training, which consists of classroom instruction and practical classes during the initial training program.
After that, they move on to the next training program, which is focused on industry-driven projects. Following the candidate’s successful completion of the training program, they will become adept in numerous areas of VLSI Logic and Physical design and be prepared for employment in those areas.
In-depth training for engineers on VLSI design techniques, CMOS, VHDL, Verilog, and System Verilog is provided as part of our VLSI Design Course, which also teaches ASIC and FPGA design flows. We have been inspired to provide a c programming online course that is targeted toward satisfying the ever-increasing electronic industry demand due to the unprecedented demand for highly skilled people in the field of VLSI Design.
Objective:
- Give a summary of the underlying principles that underlie the design of VLSI, ASIC, and FPGA.
- Explain how CMOS circuits work and their distinguishing features in the design of electronic devices.
- Share your knowledge and expertise in creating integrated circuits with CAD software.
- Conduct research on the fundamental components of large-scale digital integrated circuits.
- You will be asked to contribute to the design of functional units like adders, multipliers, ROMs, and SRAMs
The Scope of VLSI:
Over the past few years, there has been a discernible rise in the demand for chip-driven devices across various markets, including consumer electronics, medical electronics, communication, aerospace, computer hardware, software, and many more. In response to the extraordinary demand in the industry, an increasing number of chip design businesses have established operations in India to capitalise on the skills of Indian workers. In addition, many of the major information technology businesses in India have also made significant moves toward the design of application-specific integrated circuits (ASICs).
Conclusion:
There is an increased demand for qualified individuals who will augment the VLSI domain’s technical workforce due to the rapid expansion of the design and manufacturing market (both domestically and internationally). The VLSI domain drives this demand.
