Free
Complete Digital Electronics: From Fundamentals to GATE Level
This Digital Electronics course is carefully designed to build strong …
What you'll learn
Understand and perform number system conversions, codes, and computer arithmetic used in digital systems
Apply Boolean algebra laws, De Morgan’s theorems, SOP & POS forms for logic simplification
Minimize logic functions using Karnaugh Maps (2 to 5 variables) with don’t-care conditions
Design and analyze combinational circuits such as adders, subtractors, multiplexers, decoders, and encoders
Explain and implement sequential circuits, including flip-flops, counters, and timing concepts
Solve GATE and university-level numerical problems confidently using shortcut techniques
Understand ADC, DAC, and signal conversion performance parameters for real-world applications
Gain working knowledge of Programmable Logic Devices (PLA, PAL, FPGA) and modern digital system design
Free
Complete DBMS: Basics To Advanced
This comprehensive DBMS course is designed to help you build …
What you'll learn
Developed a thorough understanding of data, information, databases, and core DBMS concepts.
Gained knowledge of various database types, including relational, NoSQL, distributed, and cloud-based systems.
Mastered DBMS architecture, levels of data abstraction, schema types, and principles of data independence.
Acquired expertise in designing tables and applying keys and constraints, including primary, foreign, candidate, and super keys.
Learned to create detailed ER diagrams encompassing entities, attributes, relationships, specialization, generalization, and aggregation.
Achieved proficiency in normalization techniques from 1NF to BCNF for efficient database design.
Enhanced SQL skills, including CRUD operations, complex queries, joins, table creation, and enforcing constraints.
Understood advanced DBMS concepts such as transactions, concurrency control, indexing, query optimization, backup, recovery, and database security.
