Description: Digital Systems Design is a software with hardware description languages for designing complex integrated circuits using modern tools.
Curriculum
- 1 Section
- 40 Lessons
- 10 Weeks
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- Digital Systems Design - I40
- 2.1Introduction – I
- 2.2Introduction – II
- 2.3Digital Logic – I
- 2.4Digital Logic – II
- 2.5Digital Logic – III
- 2.6Boolean Algebra – I
- 2.7Boolean Algebra – II
- 2.8Boolean Function Minimization – I
- 2.9Boolean Function Minimization – II
- 2.10Boolean Function Minimization – III
- 2.11Hazzard Covers by K – Map
- 2.12Combinational Circuit Design
- 2.13Design of ADDER Circuits
- 2.14Design of Subtractor Circuits
- 2.15Design of Common Digital Elements
- 2.16Design of Complex Combinational Circuits
- 2.17Design of Combinational Circuits
- 2.18Combinational Logic Problem Design
- 2.19Combinational Logic Design
- 2.20Logic Design with PLA
- 2.21Synchronous Sequential Circuit Design
- 2.22Design of Sequential Modules
- 2.23Design of Registers & Counter
- 2.24Finite State Machine Design
- 2.25Finite State Machine Design & Optimization
- 2.26Programmable Logic Devices – I
- 2.27Programmable Logic Devices – II
- 2.28Programmable Logic Devices – III
- 2.29Design of Arithmetic Circuits – I
- 2.30Design of Arithmetic Circuits – II
- 2.31Design of Memory Circuits
- 2.32Algorithmic State Machines Chart
- 2.33Design of Computer Instruction Set & the CPU – I
- 2.34Design of Computer Instruction Set & the CPU – II
- 2.35Design of Computer Instruction Set & the CPU – III
- 2.36Design of Computer Instruction Set & the CPU – IV
- 2.37Design of Computer Instruction Set & the CPU – V
- 2.38Design of Computer Instruction Set & the CPU – VI
- 2.39Design of a Micro Programmed CPU
- 2.40Digital System Design Current State of the Art
