VLSI Training 
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A. Certified VLSI Engineer (CVE)

B. Advanced Certified VLSI Engineer (ACVE)

C. Diploma in VLSI Engineer (DVE)

D. Advanced Diploma in VLSI Engineer (ADVE)


Verilog, VHDL, FPGA Design, ASIC Design, System Verilog (VMM, OVM, UVM), CMOS Design Basics

ELIGIBILITY :


BE / BTECH (ECE, EEE) ME / MTECH (VLSI DESIGN, EMBDEDDED SYSTEM, APPLIED ELECTRONICS)
B.SC / M.SC (ELECTRONICS)

Second Phase: Brief description on PLC workflow and providing in-depth knowledge on latest technologies of various PLC brands.

VLSI Design Training Programme

A. Certified VLSI Engineer (CVE)


  • VLSI introduction
  • Evolution of integrated circuits
  • Semiconductor Technology
  • Introduction to digital electronics
  • Digital Logic Design
  • HDL Overview
  • Verilog HDL
  • Digital System Design Using Verilog
  • Simulation with Modelsim
  • Synthesis with Xilinx ISE
  • FPGA/ASIC Design Flow
  • Implementation with Xilinx FPGA
  • Projects

B. Advanced Certified VLSI Engineer (ACVE)

  • VLSI introduction
  • Evolution of integrated circuits
  • Semiconductor Technology
  • Introduction to digital electronics
  • Digital Logic Design
  • HDL Overview
  • VHDL HDLL
  • Digital System Design Using Verilog
  • Simulation with Modelsim
  • Synthesis with Xilinx ISE
  • FPGA/ASIC Design Flow
  • Implementation with Xilinx FPGA
  • Projects

C. Diploma in VLSI Engineer (DVE)

  • VLSI introduction
  • Evolution of integrated circuits
  • Semiconductor Technology
  • Introduction to digital electronics
  • Digital Logic Design
  • HDL Overview
  • Verilog and VHDL HDL
  • Digital System Design Using Verilog
  • Simulation with Modelsim
  • Synthesis with Xilinx ISE
  • FPGA/ASIC Design Flow
  • Implementation with Xilinx FPGA
  • Projects

This course is focusing on multi-million-gate VLSI System design methodologies for FPGA's / CPLD's using Xilinx FPGA Design Flow. The course Curriculum offers a comprehensive insight into the design methodology & practices for the design of high-end, high-speed systems for various verticals such as Telecom, DSP, Industrial Control & Instrumentation, and Consumer Electronics which are increasingly in demand in the industry.

Syllabus:

Introduction to VLSI, TTL & CMOS Technology, Fabrication Steps, Simulation Tools, Synthesis Tools.

Digital System Design:

Combinational Circuits, Sequential Circuits, FSM, RAM, ROM, PLA, PAL, PLD, FPGA, CPLD and ASIC

HDL Languages:

Verilog / VHDL

Verilog:

Programming in digital logic design, Behavioral, Data flow, Gate level & Structural Design, Interfacing Devices.

VHDL:

Programming in digital logic design, Behavioral, Data flow, Gate level & Structural Design, Interfacing Devices.

VLSI Tools:

Modelsim simulator, Xilinx ISE Design Tools
VLSI Projects