Best University in Ahmedabad, Gujarat, India – Indrashil University
Source: https://www.indrashiluniversity.edu.in/vlsi
Archived: 2026-04-23 17:41
Best University in Ahmedabad, Gujarat, India – Indrashil University
B.TECH in Electronics Engineering (VLSI Design and Technology)
ABOUT THE COURSE
The School of Engineering and Department of Electronics Engineering ( VLSI Design and Technology) is setting up a high growth path inviting inputs from industry experts and eminent academicians to make the courses contemporary. It has experienced and dedicated faculty, with a strong commitment to engineering education and who work with zeal and enthusiasm providing a vibrant and optimum learning environment for the students in order to help them excel in today’s competitive environment. The department is committed for strong Industrial linkage and Internship oriented curriculum and syllabus for the program. The program is in line with India Semiconductor Mission and aims to train and create expertise among students in the domain of Semiconductor and VLSI Design.
The department consists of highly qualified faculty having experience in research and industry. The school continuously invites Industry Experts to deliver lecture and conduct workshops for the benefit of the students. Their expertise covers various domains of Electronics, Embedded Systems, VLSI Design ,Computer Architecture, Data Sciences, Computer Networks, Cyber Security, Image Processing, Artificial Intelligence and Machine Learning.
The academic and research focus areas in Electronics Engineering (VLSI Design and Technology):
Semiconductor Electronics
CAD Tools for VLSI Design
Digital System Design Using HDL and Field Programmable Gate Arrays (FPGA)
Testing and Verification
Flexible Electronics
ASIC Digital Design Flow
Analog Design
Physical Component Design: Std Cells/ Memory /IO
Semiconductor Memory and Computer Architecture
RF Electronics Design
APPLY FOR ADMISSION NOW
Program Structure
Objective of the B.Tech in Electronics Engineering (VLSI Design and Technology)
6 to 12 months of Internship.
Elective courses within and across discipline
NPTEL and MOOC Courses
Flexible academic structure
.
Experiential learning through workshops, seminar and symposium
Special hands on training programs and workshops related to the program
Degree with specialization
Degree with interdisciplinary minor
Soft Skills training for enhancing placement opportunities
Student involvement in societal, sports and cultural activities
Encouragement for research and development, start ups though SSIP Cell and Atal Incubation Centre
Student centric education and learning environment
MoU with various industries for add on certifications
Career
There is large scope for job opportunities at different levels in various national and multinational companies. The company those may hire them are System Level Solutions, e Infochip, Qualcomm, NXP Semiconductors, Intel, Micron, Bharat Electronics, Samsung, Dell, Apex Semiconductors, Synopsis, Marvell, Microchip, IBM, Texas Instruments, ST Microelectronics, NVIDIA, Advanced Micro Devices, Semiconductor Complex Laboratory ISRO and DRDO.
The roles can be of Semiconductor Chip Designer, ASIC Designer, and CAD Engineer for VLSI, Testing and Verification Engineer, Embedded System Engineer, FPGA Designer, Application Engineer, System Designer, Research and Development Engineer, Quality Control Engineer and RF Electronics Designer. The students can also opt for higher studies in the further specialization areas leading to Master’s and Doctoral degree. The students can build their career in these areas across the country as well as abroad. With Government initiative on Indian Semiconductor Mission (ISM), the country is likely to become Semiconductor Hub.
After completing a B.Tech in Electronics (VLSI Design and Technology), you can explore various job positions in the market:
VLSI Design Engineer
ASIC Design Engineer
Physical Design Engineer
Verification Engineer
FPGA Design Engineer
Analog/Mixed-Signal IC Designer
Embedded Systems Engineer
System-on-Chip (SoC) Engineer
CAD Engineer (Computer-Aided Design)
Product Engineer
Research and Development Engineer
Project Manager
INTAKE
For the academic year 2024-25, the department offers undergraduate level program and doctoral level program.
B.Tech in Electronics Engineering ( VLSI Design and Technology): 30 seats
Download the curriculum & Syllabus B.Tech in Electronics Engineering ( VLSI Design and Technology)
Download
Faculties
We have highly qualified PhD faculties from IIT and IISc.
Dr. Vishvjit Thakar
Dean & Professor, School of Engineering
Dr.Kirit V. Vadhel
Assistant Professor
Laboratories
The Department has well designed infrastructure with modern laboratories & Library facilities. It has Computational Laboratory, Digital Design Laboratory.
And Future Laboratory as CAD Tools for VLSI, Chip Design and Fabrication Laboratory, Analog Design Laboratory and Flexible Electronics Laboratory.
Dr. Vishvjit Thakar
Name:
Dr. Vishvjit Thakar
Designation:
Dean & Professor, School of Engineering
Department:
Computer Science and Engineering
Areas of Specialization:
Digital Logic Design, Computer Organization, Image
Processing, Robotics and Control
Email:
vishvjit.thakar@indrashiluniversity.edu.in
PROFILE
Dr Vishvjit Thakar has completed BE ( Electronics) with specialization in operating system from BVM
Engineering College, Sardar Patel University in 1991. He completed ME ( Electrical) with specialization in
Automatic Control and Robotics from The M S University of Baroda in 1996. He completed his Ph.D from IIT
Bombay in 2007. He has authored and co authored research papers in National and International journals. He
has published 3 books.
He has supervised 11 Ph.D students and co supervised 2 Ph.D students. He established collaborations with
Foreign
PUBLICATIONS
Dr.Vishvjit Thakar research area is interdisciplinary in nature. He carried out research in sliding
mode control. He carried out research in the area of Image Registration and AI and Machine Learning.
Selected Publications
"Dictionary learning-based image super-resolution for multimedia devices." Multimedia Tools and
Applications 82.11 (2023): 17243-17262.
"CHI-SQUARE STATISTICS BASED STATE ESTIMATION OF STOCHASTIC HYBRID SYSTEM WITH MISSING MEASUREMENTS.
Reliability: Theory & Applications, 16(SI 1 (60)), 287-294.
Event-Triggered Particle Filter for State Estimation of Non-linear Stochastics Hybrid System with
Missing Measurements. In 2020 International Conference on Inventive Computation Technologies (ICICT) (pp.
1075-1079). IEEE.
Single image super-resolution through sparse representation via coupled dictionary learning.
International Journal of Electronics and Telecommunications, 66.
Image registration of satellite images with varying illumination level using HOG descriptor based SURF.
Procedia computer science, 93, 382-388.
Google Scholar Link:
https://scholar.google.com/citations?user=--nuoR8AAAAJ&hl=en
Scopus Link:
https://www.scopus.com/authid/detail.uri?authorId=8418004000
TEACHING
Digital Logic Design
Digital Computer Organization
Microprocessors and Interfacing
Embedded Systems and IoT.
Dr.Kirit V. Vadhel
Name:
Dr.Kirit V. Vadhel
Designation:
Assistant Professor
Department:
Humanity and Sciences (Physics)
Areas of Specialization:
Physics
Email:
kirit.vadhel@indrashiluniversity.edu.in
PROFILE
Dr.Kirit V. Vadhel is currently working as an Assistant Professor in the Physics at
Department of Humanity and science, Indrashil University. He has an experience of more
than 2 years in the field of teaching and research. He received his graduate (2015) and postgraduate (2017) degree in subject of Physics from Saurashtra University, Rajkot. He
completed his doctoral studies in the field of Non-Linear Optical materials under the
guidance of Prof. (Dr). H.O.Jethva from Department of Physics, Saurashtra University
University, Rajkot in 2022. He has published several Scopus-indexed research papers in
international journals and over 15 research article presented in national and international
conferences. He is carrying out research in highly efficient Non-linear optical Materials and
developments of its applications by using organic and inorganic substances. He is also trying
to develop various practical applications of NLO materials and Nano Particles. He has
experience of operate the FTIR, TGA-DTA and hardness Tester instruments.
RESEARCH
Dr. Kirit has research interest in designing and development of Non-linear optical Crystals
and enhance the various properties of these materials by using different experimental
techniques. Nonlinear optics (NLO) is a new frontier area of science and technology that has
to play a major role in the emerging technology of photonics. Area of research is XRD,
EDAX, UV-Visible spectroscopy, TGA-DTA, Second harmonic generation, Z-scan,
Photoluminescence, Dielectric study, impedance and modulus spectroscopy, synthesis of
Nanoparticles and its analysis.
PUBLICATIONS
Selected Publications
K.V. Vadhel, J.H.Joshi, A.P. Kochuparampil, S.Kalainathan, M.J.Joshi, H.O. Jethva,
“The Influence of L-Ornithine Monohydrochloride on Growth and Various Properties
of Ammonium Dihydrogen Phosphate Crystals”, Optical Materials, 134 (2022)
113136. (Scopus, I.F.-3.9)
J. H. Joshi, K. V. Vadhel, G. M. Joshi, S. Kalainathan, M. J. Joshi, H. O. Jethva and
K. D. Parikh, “Growth and characterization of pure and picric acid doped ADP single
crystals”, Chinese Journal of Physics, ISSN: 0577-9073, Vol. 64, January 2020, pp.
138-162. (Scopus, I.F.-5)
J. H. Joshi, K. V. Vadhel, G. M. Joshi, M. J. Joshi, H. O. Jethva and K. D. Parikh,
“The complex impedance, dielectric relaxation, complex modulus and
photoluminescence studies of pure and L-Methionine doped ammonium dihydrogen
phosphate”, Chinese Journal of Physics, ISSN: 0577-9073, Vol. 65, March 2020, pp.
268-291. (Scopus, I.F.-5)
K. V. Vadhel, V. J. Pandya, M. J. Joshi and H. O. Jethva, “Growth and
characterization of pure and l-ornithine monohydrochloride doped ADP crystals”,
International Journal of Scientific Research in Physics and Applied Sciences, e-ISSN:
2348-3423, ISSN: 2348-3423, Vol. 10, Issue 3, pp. 19-25, June (2022)
H. Bhuva, K. V. Vadhel, M. J. Joshi and H. O. Jethva, “Studies of Structural, Optical
and Electrical Properties of Pure and l-ornithine Monohydrohloride Doped KDP
Crystals”, International Journal of Scientific Research in Physics and Applied
Sciences, e-ISSN: 2348-3423, ISSN: 2348-3423, Vol. 10, Issue 3, pp. 1-14, June
(2022)
Google Scholar Link:
https://scholar.google.com/citations?user=O1WWL2AAAAAJ&hl=en
ORCID Link:
https://orcid.org/0000-0001-6413-6466
TEACHING
Electrodynamics
Classical mechanics
Quantum mechanics
Atomic and Molecular spectroscopy
Solid state physics
Thermodynamic physics
Basics of crystallography
Statistical physics
Optics and Morden physics
Nanotechnology
Engineering physics
Laboratory (Experiments of B.Sc and B.Tech)
Inquire Now
Apply Now
Inquire Now
Inquire Now
B.TECH in Electronics Engineering (VLSI Design and Technology)
ABOUT THE COURSE
The School of Engineering and Department of Electronics Engineering ( VLSI Design and Technology) is setting up a high growth path inviting inputs from industry experts and eminent academicians to make the courses contemporary. It has experienced and dedicated faculty, with a strong commitment to engineering education and who work with zeal and enthusiasm providing a vibrant and optimum learning environment for the students in order to help them excel in today’s competitive environment. The department is committed for strong Industrial linkage and Internship oriented curriculum and syllabus for the program. The program is in line with India Semiconductor Mission and aims to train and create expertise among students in the domain of Semiconductor and VLSI Design.
The department consists of highly qualified faculty having experience in research and industry. The school continuously invites Industry Experts to deliver lecture and conduct workshops for the benefit of the students. Their expertise covers various domains of Electronics, Embedded Systems, VLSI Design ,Computer Architecture, Data Sciences, Computer Networks, Cyber Security, Image Processing, Artificial Intelligence and Machine Learning.
The academic and research focus areas in Electronics Engineering (VLSI Design and Technology):
Semiconductor Electronics
CAD Tools for VLSI Design
Digital System Design Using HDL and Field Programmable Gate Arrays (FPGA)
Testing and Verification
Flexible Electronics
ASIC Digital Design Flow
Analog Design
Physical Component Design: Std Cells/ Memory /IO
Semiconductor Memory and Computer Architecture
RF Electronics Design
APPLY FOR ADMISSION NOW
Program Structure
Objective of the B.Tech in Electronics Engineering (VLSI Design and Technology)
6 to 12 months of Internship.
Elective courses within and across discipline
NPTEL and MOOC Courses
Flexible academic structure
.
Experiential learning through workshops, seminar and symposium
Special hands on training programs and workshops related to the program
Degree with specialization
Degree with interdisciplinary minor
Soft Skills training for enhancing placement opportunities
Student involvement in societal, sports and cultural activities
Encouragement for research and development, start ups though SSIP Cell and Atal Incubation Centre
Student centric education and learning environment
MoU with various industries for add on certifications
Career
There is large scope for job opportunities at different levels in various national and multinational companies. The company those may hire them are System Level Solutions, e Infochip, Qualcomm, NXP Semiconductors, Intel, Micron, Bharat Electronics, Samsung, Dell, Apex Semiconductors, Synopsis, Marvell, Microchip, IBM, Texas Instruments, ST Microelectronics, NVIDIA, Advanced Micro Devices, Semiconductor Complex Laboratory ISRO and DRDO.
The roles can be of Semiconductor Chip Designer, ASIC Designer, and CAD Engineer for VLSI, Testing and Verification Engineer, Embedded System Engineer, FPGA Designer, Application Engineer, System Designer, Research and Development Engineer, Quality Control Engineer and RF Electronics Designer. The students can also opt for higher studies in the further specialization areas leading to Master’s and Doctoral degree. The students can build their career in these areas across the country as well as abroad. With Government initiative on Indian Semiconductor Mission (ISM), the country is likely to become Semiconductor Hub.
After completing a B.Tech in Electronics (VLSI Design and Technology), you can explore various job positions in the market:
VLSI Design Engineer
ASIC Design Engineer
Physical Design Engineer
Verification Engineer
FPGA Design Engineer
Analog/Mixed-Signal IC Designer
Embedded Systems Engineer
System-on-Chip (SoC) Engineer
CAD Engineer (Computer-Aided Design)
Product Engineer
Research and Development Engineer
Project Manager
INTAKE
For the academic year 2024-25, the department offers undergraduate level program and doctoral level program.
B.Tech in Electronics Engineering ( VLSI Design and Technology): 30 seats
Download the curriculum & Syllabus B.Tech in Electronics Engineering ( VLSI Design and Technology)
Download
Faculties
We have highly qualified PhD faculties from IIT and IISc.
Dr. Vishvjit Thakar
Dean & Professor, School of Engineering
Dr.Kirit V. Vadhel
Assistant Professor
Laboratories
The Department has well designed infrastructure with modern laboratories & Library facilities. It has Computational Laboratory, Digital Design Laboratory.
And Future Laboratory as CAD Tools for VLSI, Chip Design and Fabrication Laboratory, Analog Design Laboratory and Flexible Electronics Laboratory.
Dr. Vishvjit Thakar
Name:
Dr. Vishvjit Thakar
Designation:
Dean & Professor, School of Engineering
Department:
Computer Science and Engineering
Areas of Specialization:
Digital Logic Design, Computer Organization, Image
Processing, Robotics and Control
Email:
vishvjit.thakar@indrashiluniversity.edu.in
PROFILE
Dr Vishvjit Thakar has completed BE ( Electronics) with specialization in operating system from BVM
Engineering College, Sardar Patel University in 1991. He completed ME ( Electrical) with specialization in
Automatic Control and Robotics from The M S University of Baroda in 1996. He completed his Ph.D from IIT
Bombay in 2007. He has authored and co authored research papers in National and International journals. He
has published 3 books.
He has supervised 11 Ph.D students and co supervised 2 Ph.D students. He established collaborations with
Foreign
PUBLICATIONS
Dr.Vishvjit Thakar research area is interdisciplinary in nature. He carried out research in sliding
mode control. He carried out research in the area of Image Registration and AI and Machine Learning.
Selected Publications
"Dictionary learning-based image super-resolution for multimedia devices." Multimedia Tools and
Applications 82.11 (2023): 17243-17262.
"CHI-SQUARE STATISTICS BASED STATE ESTIMATION OF STOCHASTIC HYBRID SYSTEM WITH MISSING MEASUREMENTS.
Reliability: Theory & Applications, 16(SI 1 (60)), 287-294.
Event-Triggered Particle Filter for State Estimation of Non-linear Stochastics Hybrid System with
Missing Measurements. In 2020 International Conference on Inventive Computation Technologies (ICICT) (pp.
1075-1079). IEEE.
Single image super-resolution through sparse representation via coupled dictionary learning.
International Journal of Electronics and Telecommunications, 66.
Image registration of satellite images with varying illumination level using HOG descriptor based SURF.
Procedia computer science, 93, 382-388.
Google Scholar Link:
https://scholar.google.com/citations?user=--nuoR8AAAAJ&hl=en
Scopus Link:
https://www.scopus.com/authid/detail.uri?authorId=8418004000
TEACHING
Digital Logic Design
Digital Computer Organization
Microprocessors and Interfacing
Embedded Systems and IoT.
Dr.Kirit V. Vadhel
Name:
Dr.Kirit V. Vadhel
Designation:
Assistant Professor
Department:
Humanity and Sciences (Physics)
Areas of Specialization:
Physics
Email:
kirit.vadhel@indrashiluniversity.edu.in
PROFILE
Dr.Kirit V. Vadhel is currently working as an Assistant Professor in the Physics at
Department of Humanity and science, Indrashil University. He has an experience of more
than 2 years in the field of teaching and research. He received his graduate (2015) and postgraduate (2017) degree in subject of Physics from Saurashtra University, Rajkot. He
completed his doctoral studies in the field of Non-Linear Optical materials under the
guidance of Prof. (Dr). H.O.Jethva from Department of Physics, Saurashtra University
University, Rajkot in 2022. He has published several Scopus-indexed research papers in
international journals and over 15 research article presented in national and international
conferences. He is carrying out research in highly efficient Non-linear optical Materials and
developments of its applications by using organic and inorganic substances. He is also trying
to develop various practical applications of NLO materials and Nano Particles. He has
experience of operate the FTIR, TGA-DTA and hardness Tester instruments.
RESEARCH
Dr. Kirit has research interest in designing and development of Non-linear optical Crystals
and enhance the various properties of these materials by using different experimental
techniques. Nonlinear optics (NLO) is a new frontier area of science and technology that has
to play a major role in the emerging technology of photonics. Area of research is XRD,
EDAX, UV-Visible spectroscopy, TGA-DTA, Second harmonic generation, Z-scan,
Photoluminescence, Dielectric study, impedance and modulus spectroscopy, synthesis of
Nanoparticles and its analysis.
PUBLICATIONS
Selected Publications
K.V. Vadhel, J.H.Joshi, A.P. Kochuparampil, S.Kalainathan, M.J.Joshi, H.O. Jethva,
“The Influence of L-Ornithine Monohydrochloride on Growth and Various Properties
of Ammonium Dihydrogen Phosphate Crystals”, Optical Materials, 134 (2022)
113136. (Scopus, I.F.-3.9)
J. H. Joshi, K. V. Vadhel, G. M. Joshi, S. Kalainathan, M. J. Joshi, H. O. Jethva and
K. D. Parikh, “Growth and characterization of pure and picric acid doped ADP single
crystals”, Chinese Journal of Physics, ISSN: 0577-9073, Vol. 64, January 2020, pp.
138-162. (Scopus, I.F.-5)
J. H. Joshi, K. V. Vadhel, G. M. Joshi, M. J. Joshi, H. O. Jethva and K. D. Parikh,
“The complex impedance, dielectric relaxation, complex modulus and
photoluminescence studies of pure and L-Methionine doped ammonium dihydrogen
phosphate”, Chinese Journal of Physics, ISSN: 0577-9073, Vol. 65, March 2020, pp.
268-291. (Scopus, I.F.-5)
K. V. Vadhel, V. J. Pandya, M. J. Joshi and H. O. Jethva, “Growth and
characterization of pure and l-ornithine monohydrochloride doped ADP crystals”,
International Journal of Scientific Research in Physics and Applied Sciences, e-ISSN:
2348-3423, ISSN: 2348-3423, Vol. 10, Issue 3, pp. 19-25, June (2022)
H. Bhuva, K. V. Vadhel, M. J. Joshi and H. O. Jethva, “Studies of Structural, Optical
and Electrical Properties of Pure and l-ornithine Monohydrohloride Doped KDP
Crystals”, International Journal of Scientific Research in Physics and Applied
Sciences, e-ISSN: 2348-3423, ISSN: 2348-3423, Vol. 10, Issue 3, pp. 1-14, June
(2022)
Google Scholar Link:
https://scholar.google.com/citations?user=O1WWL2AAAAAJ&hl=en
ORCID Link:
https://orcid.org/0000-0001-6413-6466
TEACHING
Electrodynamics
Classical mechanics
Quantum mechanics
Atomic and Molecular spectroscopy
Solid state physics
Thermodynamic physics
Basics of crystallography
Statistical physics
Optics and Morden physics
Nanotechnology
Engineering physics
Laboratory (Experiments of B.Sc and B.Tech)
Inquire Now
Apply Now
Inquire Now
Inquire Now