Online Course – Certified Professional Internship in Chip-Based VLSI Design for Industrial Applications – Google,L&T EduTech

Master FPGA design for industrial applications. Learn about FPGA architecture, VHDL programming, and IoT integration for industrial applications, opening up career opportunities in digital design.

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קורס אונליין - התמחות מקצועית מוסמכת בעיצוב VLSI המבוסס על שבבים עבור יישומים תעשייתיים - Google

Professional Certificate

Intermediate level

No prior knowledge required

Time to complete the course

7-day free trial

No unnecessary risks

Skills you will acquire in the course

  • Digital Design Fundamentals
  • Boolean algebra and logic gates
  • Combinational circuits
  • Arithmetic logic for binary operations
  • Sequential circuits and state machines
  • Programmable memory and logic
  • VLSI chip design and imaging using Electric VLSI EDA tools
  • CMOS Technology and IC Design Principles
  • VHDL Programming Using Xilinx ISE
  • FPGA Architecture for Industrial Applications Using Vivado
  • Connecting sensors and communication protocols (RS232, SPI and I2C)
  • Implementing IoT solutions
  • Digital systems design
  • Embedded systems
  • IoT solutions

What you will learn in the course

Courses for which the course is suitable

  • VLSI Engineer
  • Software engineer in the field of chips
  • FPGA Engineer
  • Embedded Systems Engineer
  • IoT Engineer
  • Digital Circuit Designer
  • Developer of technological solutions in the industry
  • Chip design expert
  • Software developer in VHDL language
  • Sensor Communication Engineer

Internship – 4-part course series

The Very Large-Scale Integration (VLSI) Design field offers a hands-on, in-depth experience in the study and design of chip technologies. Our course focuses on the principles of integrated circuit design and includes key topics:

  • Digital Design Fundamentals
  • Boolean algebra and logic gates
  • Combinational circuits
  • Arithmetic logic for binary operations
  • Sequential circuits and state machines
  • Programmable memory and logic
  • VLSI chip design and imaging using Electric VLSI EDA tools
  • CMOS Technology and IC Design Principles
  • VHDL Programming Using Xilinx ISE
  • FPGA Architecture for Industrial Applications Using Vivado
  • Connecting sensors and communication protocols (RS232, SPI and I2C)
  • Implementing IoT solutions

All this ensures a holistic understanding and practical skills in VLSI, chip design, VHDL programming, and FPGA-based system design for industrial innovation.

Applied Learning Project

Through comprehensive training, students will develop skills in VLSI chip design, VHDL programming, FPGA architecture, and industrial automation. This knowledge will prepare them for diverse roles in chip design and FPGA-based applications in a variety of industries.

They will gain the skills required to address challenges in designing digital systems, embedded systems, and IoT solutions, enabling them to contribute to technological improvements and innovation in the field.

Details of the courses that make up the specialization

Course: Digital Design Fundamentals for VLSI Chip Design

The course offers a comprehensive learning module that focuses on Boolean algebra and its applications in digital circuit design. It covers basic concepts such as:

  • Boolean variables
  • Logic gates
  • Digital logic circuits

Participants will explore:

  • Boolean expressions
  • Abstraction techniques
  • Consent theories, including Kevin McCluskey’s advanced method

The course also deals with combinational circuits, detailing the design and functions of:

  • authors
  • Subtracting
  • Circular items
  • Multipliers

In addition, participants gain an in-depth understanding of:

  • Sequential circuits, including latch circuits and flip-flop circuits
  • Memory systems
  • Programmable Logic Devices

The course explains the architecture and implementation of:

  • Complex Programmable Logic Devices (CPLD)
  • Field-programmable gate arrays (FPGAs)

At the end of the course you will be able to:

  • Understand the distinctions between analog and digital signals and the revolutionary benefits of digitization
  • Understand different number systems, Boolean algebra and its application in logic gates
  • Master the manipulation of Boolean expressions, canonical forms, and abstraction techniques
  • Deal effectively with SOP and POS expressions
  • Get to know the universality of NAND and NOR gates
  • Master Carneau’s map techniques
  • Understand the principles of combinational circuits
  • Understand the principles of binary connection and design various connector circuits
  • Explore advanced connector designs for arithmetic operations
  • Efficiently design binary subtractors
  • Understand the creation of fractions, identification, and different methods of binary multiplication
  • Master the design and implementation of various multipliers
  • Understand the applications of comparators, encoders, and decoders in digital systems
  • Effectively use splitters and inverting splitters in digital circuit design
  • Understand binary shifting operations
  • Understand the basic principles of sequential circuits
  • Understand the operation of JK flip-flops
  • Acquire skills in designing and analyzing different types of counters in sequential circuits.
  • Understand design principles and techniques for sequential circuits of Malle and Moore
  • Understand basic principles of memory

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