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IC Engine Calibration using GT-POWER and GT-SUITE in Bangalore

A comprehensive course on I.C Engine Calibration using GT-SUITE. This course is highly suited for beginners

Book a Class, for FREE


Kirankrishna M

advance technologies

SDM Institute of Technology Institute of technology in Ujire, Karnataka


Amit Bangre Consulting Limited

Swami Vivekananda Institute of Science & Technology


Altener Solutions Private Limited

Government Polytechnic College Kannur Polytechnic college in Kerala

Smita Suryavanshi


KLE Dr. M.S. Sheshgiri College of Engineering and Technology

Jitendra kumar Vishwakarma

Mando Softtech India Pvt. Ltd.

Ambition institute of technology

Meganath Prabu S

Tech Mahindra

C K College of Engineering and Technology


Tata Technologies

SNS College of Technology

AnilKumar Hubballi

Aakruthi3D pvt ltd

KLE Polytechnic Bailhongal


This course is full of best-in-class content by leading faculty and industry experts in the form of videos and projects

Course Overview

  • GT-POWER and GT-SUITE come under the system-simulation domain as it employs sophisticated algorithms to solve fluid flow equations in complex electromechanical systems.
  • Students who aspire to work for Automotive OEMs as calibration engineers targeting internal R&D projects can choose to opt for this course. 
  • This course aims to impart the methodology that goes behind performing such calibrations and analyzing their result.

Course Syllabus in Bangalore

On a daily basis we talk to companies in the likes of Tata Elxsi and Mahindra to fine tune our curriculum.

Week 1-Introduction to GT-POWER and GT-SUITE

  • GT-POWER is the industry's first choice when reliable results are needed for engine thermodynamics and combustion/emissions development. The intelligent integration of modules within it [GEM 3D; Cool 3D; GT - VTD; GT - TAItherm ] coupled with Simulink, Star CD, Converge, Fluent and other codes facilitate easy solutions for complex tasks early in the development phase and provide unparalleled accuracy during the detailed design phase. 
    • Need of a 1D thermodynamic simulation tool
    • Overview of GT-POWER, GT valve train, GT cool, GT drive, etc.
    • Introduction to GUI
    • Templates and libraries
    • Representation of engine parts
    • Implicit vs Explicit approach
    • Navier Stoke equation relevance

Week 2-SI Engine Modelling Techniques

  • Over the past decade, there has been an increase in air pollution all around the globe, as well as a recognition that fossil fuels will not be available forever. This has inspired OEMs to develop electrified powertrains. But, this has also opened the door to investigating new technologies that could significantly improve the ‘old-fashioned’ combustion engine in both efficiency and emissions.
  • In this section, you will get an in-depth look at the functioning of SI Engine operations. 
    • Challenges in SI engine modelling
    • Combustion modelling approach
    • Port injection and gasoline direct injection approach
    • Tumble modelling
    • Gas exchange modelling and analysis

Week 3-Case Study on SI Engine

  • Virtual prototyping is an efficient and effective way to test new ideas.
  • In this module, you will look into some aspects of the SI Engine, including the basics of fuel spray in the combustion chamber, spray and wall film models accounting for premixed and sooting diffusion combustion, detecting knock, and precise heat transfer modeling.
    • Engine specifications for modelling
    • Prediction of performance and emissions

Week 4-CI Engine Modelling Techniques

  • Understanding the mechanics of modelling combustion in a CI engine. These solutions play an integral role in engine simulations to accurately predict performance, fuel consumption, and engine-out emissions. Various models are available to predict combustion and pollutant formation based on in-cylinder conditions, knock, cycle-to-cycle variation (CCV), and other related processes.
    • Challenges in CI Engine Modelling
    • DI Pulse Combustion Modelling Approach
    • Swirl Modelling
    • Turbocharger Modelling

Week 5-Case Study on CI Engine

  • To further our understanding by modelling an ‘On road’ application by calibrating critical CI Engine concepts such as ignition delay time for mixtures of air, fuel, and residual gases using detailed kinetics.
  • This challenge enables the user to understand the correlations for ignition delay (CI) or knock (SI) that consider the effect of pressure, temperature, equivalence ratio, residual gas fraction, fuel composition, etc. 
    • Engine specifications for modelling
    • Performance and emission prediction

Week 6-Turbocharger and Supercharger Modelling

  • Turbocharging allows automakers to reduce engine size and emissions while continuing to deliver the power and performance consumers demand.
  • Students will be taken across the turbine and compressor mechanics to understand the fluid flow and to improve overall engine performance, reduce pollutant formation, optimise NVH and ensure component durability.
    • Fixed geometry TC modelling
    • Wastegate TC modelling
    • Variable geometry turbine modelling
    • Two stage turbocharger modelling
    • Supercharger modelling
    • eTurbo modelling

Week 7-Case Study on FRM Builder

  • GT-POWER engine models and their validated solution methodologies, can be used by the controls system engineer for ECU development, calibration, and testing to generate a fast running, real-time capable engine plant model.
  • With seamless integration to Simulink and the most popular real-time software tools, controls engineers are empowered with the ability to run fully physical, crank angle resolved models, capable of predicting pressure wave dynamics and in-cylinder combustion in a real-time environment.
  • Advanced control strategies, such as combustion control, can now be tested with a detailed physical engine model at significantly faster computation speeds with minimum effort and maximum accuracy, predictiveness, and fidelity.
    • Introduction to FRM builder
    • Modeling of various engines using FRM builder approach
    • Crank-angle resolved, physically conservative formulation for accurate results
    • Built-in DOE and Neural Network trainer for MV model development

Week 8-Aftertreatment Modelling Techniques

  • The starting point for the development and optimisation of exhaust gas aftertreatment systems is 1D simulation.
  • GT’s Quasi-steady state AFT solver offers unmatched modelling depth, simple model setup, and extremely short simulation times-faster than real-time if desired.
  • It solves the very demanding fluid flow, heat transfer, and chemical reactions taking place in the aftertreatment systems of modern IC engines by employing the most advanced set of physics and chemistry models.
    • An introduction to chemical kinetics
    • Modelling of precious metal catalysts
    • Pre-defined test cases and scenarios

Week 9-Case Study on 3-way Cat DOC DPF and SCR System

  • For the detailed 1D and 2D design of exhaust gas after-treatment components, GT-SUITE offers outstanding capabilities for modelling all relevant physics and chemistry. This makes it a crucial element in the design, development and optimization of both diesel and gasoline after-treatment devices.
  • Together with GEM 3D, it forms a unique and dependable 1D/3D solution that can be applied consistently throughout the layout, concept and detailed design stages in both component and system development to provide a seamless development approach with the reuse of models and results among tools, assuring maximum consistency and efficiency. The after-treatment system performance data integrated into in-vehicle models is used to predict drive cycle emissions.
    • Modelling 3-way cat con
    • Modelling DOC
    • Modelling DPF
    • Modelling SCR

Week 10-Optimization Techniques

  • Every GT license includes full access to a built-in optimizer that allows optimization of any combination of model inputs (factors) to maximize, minimize, or target any single or multiple model outputs (responses).
  • Key features include Multiple local and global search algorithms to explore design trade-offs among multiple competing responses and constraints with the multi-objective Pareto optimization tool and the NSGA-III [Genetic search algorithm].
    • Design of experiments
    • Single-factor optimization
    • Multi-objective optimization
    • Case study on gas exchange optimization

Week 11-Discretization Techniques

  • GEM3D is a 3D graphical pre-processor that combines building and importing tools used to create 1D GT-SUITE models from 3D geometries. From primitive components like pipes, flowsplits, etc. it can also be used to import 3D CAD models from other applications, like GT-SPACECLAIM.
    • Introduction to SPACECLAIM
    • Overview of GEM 3D
    • Discretizing intake manifold
    • Discretizing exhaust manifold

Week 12-Hybrid Engine Modelling

  • Build any hybrid configuration with any level of electrification, including but not limited to: 48-volt mild hybrids with an electric boost, strong power-split hybrids (HEV), parallel through-the road (TTR) plug-in hybrids (PHEV), or battery electric vehicles (BEV) using a comprehensive control library, including finite state machines in GT-SUITE, or co-simulate with Simulink to develop and optimise control algorithms.
    • Overview of hybrid system configuration
    • Modeling of P0 and P1 configurations
    • Built-in optimization and DOE tools to evaluate architectures, components, and control strategies.

Our courses have been designed by industry experts to help students achieve their dream careers

Industry Projects in Bangalore

Our projects are designed by experts in the industry to reflect industry standards. By working through our projects, Learners will gain a practical understanding of what they will take on at a larger-scale in the industry. In total, there are 3 Projects that are available in this program.

Thermodynamic Analysis of a Commercial Application Tractor Engine

This project is a case study on a CI engine. The student will calibrate and simulate a tractor engine to study its performance and emission characteristics.

Modelling of an AFT System

This project is a case study on AFT system. Here, the students will model AFT circuit systems for SI and CI Engines and study the engine emission characteristics.

Optimization using GT- Suite’s IDO [Integrated Design Optimizer]

In this project, students will be asked to optimize a compression ignition engine using the GT-Suite's IDO.

Our courses have been designed by industry experts to help students achieve their dream careers

Ratings & Reviews by Learners

Skill-Lync has received honest feedback from our learners around the globe.

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Learn New Concepts with IC Engine Calibration using GT-POWER and GT-SUITE Course in Bangalore

This course by Skill-Lync will introduce you to IC engine calibration. It will also help you gain expertise in GT-POWER and GT-SUITE to solve real-world industry issues.

IC Engine Calibration using GT-POWER and GT-SUITE Course in Bangalore

Altering an automotive’s engine parameters requires precise engine calibration. It can lead to better safety, higher productivity, longer vehicle life, and reduced fuel costs. Since the process enables such benefits, opting for Skill-Lync's IC engine calibration course can help you develop your skills. 

As one of the best GT-POWER courses in Bangalore, it delves into different concepts such as thermodynamic simulation and the Navier Stoke equation. Additionally, you will learn about GT cool, GT valve train, and GT drive. You will also be taught about SI and CI engine modelling approaches, challenges, analyses, and case studies. 

This GT-SUITE online course has been curated by industry experts with 11 years of experience in engine and emission control. They guide you through three industry-grade projects revolving around AFT system modelling and optimisation using GT-SUITE IDO.

FAQs about the IC Engine Calibration using GT-POWER and GT-SUITE Course in Bangalore

What is the GT-SUITE course, and why should you opt for it in Bangalore?

This GT-POWER course will help you develop your skills in GT-SUITE, a tool used for IC engine calibration. Further, the course will teach you about the challenges in IC engine modelling, tumble modelling, gas exchange modelling and analysis, swirl modelling, etc. 

Who should apply for this IC Engine Calibration using GT-POWER and GT-SUITE course in Bangalore?

Students from engineering backgrounds in the domain of mechanical, electronics (Electronic Control Unit), automotive, and chemical engineering (after treatment) are eligible for this course. 

What is the benefit of completing this IC Engine Calibration using GT-POWER and GT-SUITE course in Bangalore?

Pursuing a GT-SUITE course at Skill-Lync would offer many benefits to you.

  • Industry-oriented curriculum.
  • Hands-on experience in solving industry projects.
  • Email and forum support from the technical support team to clear your doubts.
  • A certificate of completion for all participants and a merit certificate for the top 5% of the scorers.

What is the program fee for Skill-Lync's IC Engine Calibration using GT-POWER and GT-SUITE course in Bangalore? 

Skill-Lync offers three fee options for the GT-POWER course in Bangalore: Basic, Pro, and Premium. The basic plan provides you with two months of access at INR 7000 per month for three months, the Pro plan provides you with four months of access at INR 10,000 per month for three months and the Premium plan provides you lifetime access at INR 15,000 per month for three months.

What are the career prospects after completing this IC Engine Calibration using GT-POWER and GT-SUITE course in Bangalore?

You can apply for positions like:

  • Engine Performance Analyst
  • Simulation Engineer
  • GT-SUITE Specialist

What is the average salary you can get after completing Skill-Lync’s IC Engine Calibration using GT-POWER and GT-SUITE course in Bangalore?

According to Ambition Box, an engine calibration engineer can earn an average of INR 3.3 LPA INR per annum in India.

Can you tell me more about Skill-Lync?

Skill-Lync is among India's leading EdTech platforms dedicated to transforming engineering education. We equip young engineers with the latest skill sets and cutting-edge tools in new-age technologies.

The brainchild of two engineers, Skill-Lync, is on a mission to bridge the skill gap between aspiring professionals and the industry's demands through job-oriented courses.

Flexible Pricing

Talk to our career counsellors to get flexible payment options.


INR 40,000

Inclusive of all charges

Become job ready with our comprehensive industry focused curriculum for freshers & early career professionals

  • 5 Years Accessto Skill-Lync’s Learning Management System (LMS)

  • Personalized Pageto showcase Projects & Certifications

  • Live Individual & Group Sessionsto resolve queries, Discuss Progress and Study Plans.

  • Personalized & Hands-OnSupport over Mail, Telephone for Query Resolution & Overall Learner Progress.

  • Job-Oriented Industry Relevant Curriculumavailable at your fingertips curated by Global Industry Experts along with Live Sessions.

Instructors profiles

Our courses are designed by leading academicians and experienced industry professionals.


1 industry expert

Our instructors are industry experts along with a passion to teach.


11 years in the experience range

Instructors with 11 years extensive industry experience.


Areas of expertise

  • Engine & Emission Control

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