Artificial Intelligence Engineer Program Details

Want to develop your career in artificial intelligence? Joining the Artificial Intelligence Master’s Program by GoLogica will be the best option. Master’s in AI consists of several industry-relevant courses. It includes machine learning, ChatGPT, data science with Python, NLP, and deep learning. This course will help you learn the latest technologies and tools associated with AI.

With this course, you will become an expert in ML and AI professional. This course will give you exposure to the latest trends in AI. It includes prompt engineering, generative AI, ChatGPT, and many more. In this, you will get exposure to a wide range of hands-on projects and tools. Also, will get seamless access to integrated labs.

With our artificial intelligence Master’s program, take your ML and AI career to new heights. This course will help you expand your knowledge in computer vision, explainable AI, generative AI, and many more.

Key Highlights

Career guidance or assistance.
Mentor support.
Knowledgeable and top industry experts take the classes.
Provides relevant study materials.
Exposure to hands-on projects.
Flexible class schedule.

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Artificial Intelligence Engineer Syllabus

Python

Python was mainly developed for emphasis on code readability, and its syntax allows programmer to express concepts in fewer lines of code.Python is considered a scripting, language like Ruby or Perl and is often used for creating Web applications and dynamic Web content.

WEEK 5-6 20 Hours LIVE CLASS

History
Features
Setting up path
working with Python
Variable and Data Types
Operator

If
If- else
Nested if-else
For
While
Nested loops
Break
Continue
Pass

Accessing Strings
Basic Operations
String slices
Function and Methods

Accessing tuples
Operations
Working
Functions and Methods
Accessing list
Operations
Working with lists
Function and Methods

Defining a function
Calling a function
Types of functions
Function Arguments
Anonymous functions
Global and local variables
Importing module
Math module
Random module
Packages
Composition

Printing on screen
Reading data from keyboard
Opening and closing file
Reading and writing files
Functions
Exception
Exception handling
except clause
Try? Finally clause
User Defined Exceptions

Class and object
Attributes
Inheritance
Overloading
Overriding
Data hiding
Match function
Search function
Matching VS Searching
Modifiers
Patterns

Introduction
Architecture
CGI environment variable
GET and POST methods
Cookies
File upload
Connections
Executing queries
Transactions
Handling error

Socket
Socket Module
Methods
Client and server
Internet modules

Centers
Thread
Starting a thread
Threading module
Synchronizing threads
Multithreaded Priority Queue
Tkinter programming
Tkinter widgets

Deep Learning with TensorFlow

Deep learning is part of a broader family of machine learning methods based on learning data representations, as opposed to task-specific algorithms. Learning can be supervised, semi-supervised or unsupervised. Some representations are loosely based on interpretation of information processing and communication.

WEEK 14-16 50 Hours LIVE CLASS

HelloWorld with TensorFlow
Linear Regression
Nonlinear Regression
Logistic Regression
Activation Functions

CNN History
Understanding CNNs
CNN Application

Intro to RNN Model
Long Short-Term memory (LSTM)
Recursive Neural Tensor Network Theory
Recurrent Neural Network Model

Applications of Unsupervised Learning
Restricted Boltzmann Machine
Collaborative Filtering with RBM

Introduction to Autoencoders and Applications
Autoencoders
Deep Belief Network

Artificial Intelligence (AI)

GoLogica is offering an instructor led extensive course on Artificial Intelligence(AI) course. Artificial Intelligence is also called as Machine intelligence. This domain is constantly evolving and many applications are slowly moving towards this platform .

WEEK 10-11 40 Hours LIVE CLASS

1. Introduction to AI

• What is AI? History and Milestones
• Applications of AI in Real-World Problems
• Ethics and Bias in AI Systems

2. Mathematical Foundations

• Linear Algebra for AI (Vectors, Matrices, Eigenvalues)
• Probability and Statistics (Bayesian Inference, Distributions)
• Calculus (Differentiation, Gradients in Optimization)

3. Programming for AI

• Python for AI Development
• Libraries and Tools (NumPy, Pandas, Matplotlib)

4. Supervised Learning

• Linear and Logistic Regression
• Decision Trees and Random Forests
• Model Evaluation Metrics (Accuracy, Precision, Recall, F1 Score)

5. Unsupervised Learning

• Clustering Techniques (K-Means, DBSCAN)
• Dimensionality Reduction (PCA, t-SNE)

6. Hands-on Project 1

• Develop a predictive model using real-world datasets (e.g., sales forecasting, spam detection).

7. Introduction to Neural Networks

• Perceptrons and Multilayer Perceptrons (MLPs)
• Backpropagation and Gradient Descent

8. Deep Learning Architectures

• Convolutional Neural Networks (CNNs)
• Recurrent Neural Networks (RNNs)
• Transformers and Attention Mechanisms

9. Deep Learning Tools

• TensorFlow Basics
• PyTorch Basics

10. Hands-on Project 2

• Implement image classification or natural language processing (NLP) using a neural network.

11. Natural Language Processing (NLP)

• Tokenization, Embeddings (Word2Vec, GloVe)
• Sequence Models for Text (LSTMs, BERT)

12. Computer Vision

• Image Augmentation
• Object Detection and Segmentation

13. Reinforcement Learning

• Fundamentals of RL
• Q-Learning and Deep Q-Networks

14. Generative AI

• Generative Adversarial Networks (GANs)
• Diffusion Models

15. Hands-on Project 3

• Build an end-to-end AI solution using advanced techniques.

16. Model Optimization

• Hyperparameter Tuning
• Transfer Learning

17. AI Deployment

• Model Serving and APIs (Flask, FastAPI)
• Scaling AI with Cloud Services (AWS, Azure, GCP)

18. Ethics and Regulation in AI

• Explainable AI (XAI)
• Privacy and Data Security in AI Systems

19. Special Topics

• Edge AI and IoT
• Quantum Computing for AI

20. Capstone Project

• Design, build, and deploy a comprehensive AI system addressing a real-world problem.

21. AI Career Pathways

• Roles: Data Scientist, AI Engineer, Researcher
• Building a Strong Portfolio and Networking

22. Portfolio Development

• Structuring AI Projects for Resumes
• Publishing Work (GitHub, Research Papers)

23. Mock Interviews and Assessments

• Technical Interview Preparation
• Behavioral Interview Training

• Comprehensive understanding of AI concepts and applications.
• Practical experience through multiple hands-on projects and a capstone project.
• Readiness for AI-related roles in industry or research.

Machine Learning

GoLogica training on Machine Learning will provide all the necessary training to become a certified Data Scientist with Proficiency in Python. Learn different algorithms like supervised, unsupervised, and reinforcement algorithms. Get hands-on experience in statistical techniques, ML modules, ML algorithms, focus on deep learning, basics of regression algorithms, SVM and Improving Performance, etc.

WEEK 7-8 30 Hours LIVE CLASS

Data Science with Python

GoLogica provides Data Science with Python Training This course has been designed with a focus on quality and simplicity making it ideal for Beginners or for those looking for a refresher on Data Science with Python. It gives an engaging learning experience covering everything you need to know about Data Science.

WEEK 7-8 30 Hours LIVE CLASS

Overview
Life Cycle of Data Science
MapReduce Framework
Importance of Data Science
Tools in Data Science
Need of Python in Data Science

Introduction
Terminologies of statistics
Measures of Centers & Spread
Types of distributions

Overview
Data Types and Variables
Operators
if Statements and lops
Functions in R

Introduction
ML Fundamentals
Learning Technologies
Decision Tree
Random forest classifiers
Deep Learning
Time Series Analysis

Applied Data Science with Python

GoLogica provides online lessons to help you get better and advance in your work. Join our Python data science course to learn Python skills, work with data, and get better at stats and machine learning. Make cool pictures too Learn from teachers who know a lot, work on real projects, and grow in the world of data science. Come with us now for a practical learning session.

WEEK 7-8 30 Hours LIVE CLASS

Applied Data Science with Python Training

Python Data Science-Centric Libraries
NumPy
NumPy Arrays
Select NumPy Operations
SciPy
pandas
Creating a pandas DataFrame
Fetching and Sorting Data
Scikit-learn
Matplotlib
Seaborn
Python Dev Tools and REPLs
IPython
Jupyter
Jupyter Operation Modes
Jupyter Common Commands
Anaconda

What is Data Science?
Data Science, Machine Learning, AI?
The Data-Related Roles
The Data Science Ecosystem
Tools of the Trade
Who is a Data Scientist?
Data Scientists at Work
Examples of Data Science Projects
An Example of a Data Product
Applied Data Science at Google
Data Science Gotchas

Typical Data Processing Pipeline
Data Discovery Phase
Data Harvesting Phase
Data Priming Phase
Exploratory Data Analysis
Model Planning Phase
Model Building Phase
Communicating the Results
Production Roll-out
Data Logistics and Data Governance
Data Processing Workflow Engines
Apache Airflow
Data Lineage and Provenance
Apache NiFi

Descriptive Statistics
Non-uniformity of a Probability Distribution
Using NumPy for Calculating Descriptive Statistics Measures
Finding Min and Max in NumPy
Using pandas for Calculating Descriptive Statistics Measures
Correlation
Regression and Correlation
Covariance
Getting Pairwise Correlation and Covariance Measures
Finding Min and Max in pandas DataFrame

Repairing and Normalizing Data
Dealing with the Missing Data
Sample Data Set
Getting Info on Null Data
Dropping a Column
Interpolating Missing Data in pandas
Replacing the Missing Values with the Mean Value
Scaling (Normalizing) the Data
Data Preprocessing with scikit-learn
Scaling with the scale() Function
The MinMaxScaler Object

Data Visualization
Data Visualization in Python
Matplotlib
Getting Started with matplotlib
The matplotlib.pyplot.plot() Function
The matplotlib.pyplot.bar() Function
The matplotlib.pyplot.pie () Function
Subplots
Using the matplotlib.gridspec.GridSpec Object
The matplotlib.pyplot.subplot() Function
Figures
Saving Figures to a File
Seaborn
Getting Started with seaborn
Histograms and KDE
Plotting Bivariate Distributions
Scatter plots in seaborn
Pair plots in seaborn
Heatmaps
ggplot

Types of Machine Learning
Terminology: Features and Observations
Representing Observations
Terminology: Labels
Terminology: Continuous and Categorical Features
Continuous Features
Categorical Features
Common Distance Metrics
The Euclidean Distance
What is a Model
Supervised vs Unsupervised Machine Learning
Supervised Machine Learning Algorithms
Unsupervised Machine Learning Algorithms
Choosing the Right Algorithm
The scikit-learn Package
scikit-learn Estimators, Models, and Predictors
Model Evaluation
The Error Rate
Confusion Matrix
The Binary Classification Confusion Matrix
Multi-class Classification Confusion Matrix Example
ROC Curve
Example of an ROC Curve
The AUC Metric
Feature Engineering
Scaling of the Features
Feature Blending (Creating Synthetic Features)
The 'One-Hot' Encoding Scheme
Example of 'One-Hot' Encoding Scheme
Bias-Variance (UnderfittingvsOverfitting) Trade-off
The Modeling Error Factors
One Way to Visualize Bias and Variance
UnderfittingvsOverfitting Visualization
Balancing Off the Bias-Variance Ratio
Regularization in scikit-learn
Regularization, Take Two
Dimensionality Reduction
PCA and isomap
The Advantages of Dimensionality Reduction
The LIBSVM format
Life-cycles of Machine Learning Development
Data Splitting into Training and Test Datasets
ML Model Tuning Visually
Data Splitting in scikit-learn
Cross-Validation Technique
Hands-on Exercise
Classification (Supervised ML) Examples
Classifying with k-Nearest Neighbors
k-Nearest Neighbors Algorithm
Hands-on Exercise
Regression Analysis
Regression vs Correlation
Regression vs Classification
Simple Linear Regression Model
Linear Regression Illustration
Least-Squares Method (LSM)
Gradient Descent Optimization
Multiple Regression Analysis
Evaluating Regression Model Accuracy
The R2 Model Score
The MSE Model Score
Logistic Regression (Logit)
Interpreting Logistic Regression Results
Decision Trees and Terminology
Properties of Decision Trees
Decision Tree Classification in the Context of Information Theory
The Simplified Decision Tree Algorithm
Using Decision Trees
Random Forests
Hands-On Exercise
Support Vector Machines (SVMs)
Naive Bayes Classifier (SL)
Naive Bayesian Probabilistic Model in a Nutshell
Bayes Formula
Classification of Documents with Naive Bayes
Unsupervised Learning Type: Clustering
Clustering Examples
k-Means Clustering (UL)
k-Means Clustering in a Nutshell
k-Means Characteristics
Global vs Local Minimum Explained
Hands-On Exercise
XGBoost
Gradient Boosting
Hands-On Exercise
A Better Algorithm or More Data?

What is Python?
Additional Documentation
Which version of Python am I running?
Python Dev Tools and REPLs
IPython
Jupyter
Jupyter Operation Modes
Jupyter Common Commands
Anaconda
Python Variables and Basic Syntax
Variable Scopes
PEP8
The Python Programs
Getting Help
Variable Types
Assigning Multiple Values to Multiple Variables
Null (None)
Strings
Finding Index of a Substring
String Splitting
Triple-Delimited String Literals
Raw String Literals
String Formatting and Interpolation
Boolean and Boolean Operators
Numbers
Looking Up the Runtime Type of a Variable
Divisions
Assignment-with-Operation
Comments:
Relational Operators
The if-elif-else Triad
An if-elif-else Example
Conditional Expressions (a.k.a. Ternary Operator)
The While-Break-Continue Triad
The for Loop
try-except-finally
Lists
Main List Methods
Dictionaries
Working with Dictionaries
Sets
Common Set Operations
Set Operations Examples
Finding Unique Elements in a List
Enumerate
Tuples
Unpacking Tuples
Functions
Dealing with Arbitrary Number of Parameters
Keyword Function Parameters
The range Object
Random Numbers
Python Modules
Importing Modules
Installing Modules
Listing Methods in a Module
Creating Your Own Modules
Creating a Runnable Application
List Comprehension
Zipping Lists
Working with Files
Reading and Writing Files
Reading Command-Line Parameters
Accessing Environment Variables
What is Functional Programming (FP)?
Terminology: Higher-Order Functions
Lambda Functions in Python
Example: Lambdas in the Sorted Function
Other Examples of Using Lambdas
Regular Expressions
Using Regular Expressions Examples
Python Data Science-Centric Libraries

To become a master in Artificial Intelligence Engineer?

Skills Covered

Tools Covered

Career Support

Personalized Industry Session

This will help you to better understand the Artificial Intelligence industry.

High-Performance Coaching

you will be able to grow your career by broadening your proficiency in Artificial Intelligence Engineer.

Career Mentorship Sessions

With this, the students will be able to decide their careers in the right way.

Interview Preparation

We Help with face-to-face interaction through mock interviews & Exams

Artificial Intelligence Engineer Masters Program career support

Program Fee

Program Fee: 67000 /-

60300 /-

Discount: 6700

Paypal

Debit/Credit

UPI

Artificial Intelligence Engineer Certification

GoLogica Artificial Intelligence Engineer Certification holds accreditation from major global companies worldwide. Upon completion of both theoretical and practical sessions, we offer certification to both freshers and corporate trainees. Our certification on Artificial Intelligence Engineer is recognized globally through GoLogica, significantly enhances the value of your resume, opening doors to prominent job positions within leading MNCs. Attainment of this certification is contingent upon the successful completion of our training program and practical projects.

Artificial Intelligence Engineer certificate

Job Outlook

Career Opportunities & Annual Growth

The U.S. Bureau of Labor Statistics forecasts a 42% increase in employment for Artificial Intelligence Engineer analysts from 2020 to 2027, significantly outpacing the average for all occupations. Additionally, Artificial Intelligence Engineer Ventures predicts 2.4 million unfilled Artificial Intelligence jobs worldwide by 2030.

Salary Trend

According to the BLS, Artificial Intelligence Engineer professionals are well-compensated. The median annual wage for Artificial Intelligence Engineer Specialist was $90,000 to $150,000 PA. It’s depending on factors such as experience, location, and specific job responsibilities.

Job Titles

Are you preparing for a interview? If yes, our expert tutors will help you with this.

AI Engineer
Machine Learning Engineer
Data Scientist
Research Scientist
AI Architect
Business Intelligence Developer
Robotics Engineer
AI Product Manager
AI Consultant

Artificial Intelligence Engineer Faq’s

• Learn the concept, phases, implementations, impacts, and many more.
• Basic programming techniques and features. It includes data types, basic operators, tuples, data types, etc.
• How to develop Python programs and make use of the Jupyter Notebook for analyzing basic data.
• How to use the SciPy and NumPy packages for high-level technical and mathematical.
• Artificial neural networks, high-level NLP interfaces, and training deep RNN networks.

• Data Analysts.
• Undergraduates and Fresher’s.
• Individuals who want to begin their career as an AI engineer.
• Software Engineers.
• Business Intelligence Professionals.

It is a training program, which helps the students to learn about artificial intelligence in detail. Also, will help you learn how to develop work-ready AI skills.

Joining NLP courses is not necessary. However, these courses can benefit you in your career as an AI engineer. NLP or natural language processing is a vital subfield of AI, which understands and processes human language. With this course, you will gain specialized knowledge and techniques for developing advanced AI models to understand and generate human knowledge.

• Deep dive into the purposes, phases, concepts, domains, implementations, breadth, and impacts of artificial intelligence.
• Attain proficiency in basic programming features & technical aspects. It includes tuples, functions, arrays, functions, data types, lists, and basic operators.
• Experience in data exploration, hypothesis formulation, data wrangling, data visualization, and testing techniques in Data Science.
• Knowledge of core functions, principles, execution pipeline, and operations of TensorFlow.
And many more.

It helps you become an expert in artificial intelligence. With this program, you will acquire knowledge and practical skills for understanding and implementing several AI technologies, concepts, and algorithms. The Master’s program includes machine learning, computer vision, natural language processing, deep learning, and many more.

Having knowledge of Python programming and a basic understanding of statistics is essential for students joining this Master’s program. This will help us understand the basic concepts of AI and ML.

This course will help you learn the principles of statistics for Python programming, feature engineering, machine learning, and data visualization. With this, you will learn how to make use of Python libraries such as Scikit-learn, TensorFlow, and Matplotlib. This course will also teach you machine learning techniques such as unsupervised and supervised learning. Also, will help you learn advanced concepts like layers of data, TensorFlow, artificial neural networks, and feature extraction.

No! Coding knowledge is not necessary to do this Master’s program.

The salary range for AI engineers varies. It depends on various factors such as industry, location, experience, and many more.

It varies depending on the knowledge & experience of an individual in the field. The program is designed for freshers and individuals with a basic knowledge of this field. Thus, it would be good if you have knowledge or background in programming, computer science, and mathematics for better learning experience.

Yes! A graduate degree is needed. It would be good if you have a background in mathematics, computer science, etc. Also, having basic technical skills is enough to join this course.

• Online AI engineer Master’s program offers convenience and flexibility as compared to offline ones.
• Online courses simplify networking via virtual discussions & online communities. However, offline programs offer wide access to digital resources.
• Online programs are done through virtual classrooms and digital platforms. However, offline programs consist of attending workshops, and physical classes at a specific place.

Having basic statistical knowledge and Python programming concepts is good. This will help the students to understand the AI and machine learning concepts.

You can finish the certification course in 4 to 6 months.

Design, develop, and implement AI systems & algorithms. An AI engineer has to develop machine learning models, optimize algorithms, and evaluate data for certain tasks. They collaborate with software engineers and data scientists to develop intelligent systems to learn, acclimate, and make decisions.

It provides a comprehensive curriculum to provide students with an in-depth understanding of AI theories, applications, concepts, and algorithms. Once you complete this Master’s program, you will get a detailed understanding of AI. You can make use of this knowledge for developing real-world games, projects, logic restraint satisfaction concerns, prediction models, and many more. Also, will help you learn about the vital aspects of data science.

This course will help you attain a competitive edge over your peers and develop job-ready skills. The classes are taken by top-notch industry experts with rich domain experience. With this course, you will get to know about several AI concepts like computer vision, neural networks, machine learning, deep learning, natural language processing, etc.

• Data Scientist.
• Statistical Programming Specialist.
• Artificial Intelligence Engineer.
• Machine Learning Engineer.
• Analytics Lead/Manager.
• Artificial Intelligence Consultant.
• Research Engineer.

Artificial Intelligence Engineer Masters Program

19th Jan 2025

6 Months

Online Bootcamp

Why Join this Program?

GoLogica Acadamic

Industry Experience

Latest AI Trends

Hands-on Experience

Learners Achievement

Maximum Salary Hike

150%

Average Salary Hike

75%

Haring Partners

2000+

Our Alumini

Artificial Intelligence Engineer Program Details

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Artificial Intelligence Engineer Syllabus

Python

WEEK 5-6 20 Hours LIVE CLASS

Course Content

Introduction and basic Syntax

Conditional & Control Statements and Looping

String Manipulation

Dictionaries

Functions and Modules

Input-Output and Exception Handling

OOPs concepts and Regular expressions

CGI and Database

Networking

Multithreading and GUI Programming

Deep Learning with TensorFlow

WEEK 14-16 50 Hours LIVE CLASS

Course Content

Introduction to TensorFlow

Convolutional Neural Networks (CNN)

Recurrent Neural Networks (RNN)

Unsupervised Learning

Autoencoders

Artificial Intelligence (AI)

WEEK 10-11 40 Hours LIVE CLASS

Course Content

Module 1: Foundations of Artificial Intelligence

1. Introduction to AI

2. Mathematical Foundations

3. Programming for AI

Module 2: Machine Learning Fundamentals

4. Supervised Learning

5. Unsupervised Learning

6. Hands-on Project 1

Module 3: Deep Learning and Neural Networks

7. Introduction to Neural Networks

8. Deep Learning Architectures

9. Deep Learning Tools

10. Hands-on Project 2

Module 4: Advanced AI Techniques

11. Natural Language Processing (NLP)

12. Computer Vision

13. Reinforcement Learning

14. Generative AI

15. Hands-on Project 3

Module 5: AI Deployment and Special Topics

16. Model Optimization

17. AI Deployment

18. Ethics and Regulation in AI

19. Special Topics

20. Capstone Project

Module 6: Career Development

21. AI Career Pathways

22. Portfolio Development

23. Mock Interviews and Assessments

Program Outcomes

Machine Learning

WEEK 7-8 30 Hours LIVE CLASS

Course Content

Introductory Topics

Linear Regression and Feature Selection

Linear Classification

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