Introduction to digital design, combinational digital design and realization using: decoders, encoders, buffer, multiplexers, comparators, adders, and ALU, sequential design and realization using: latches, flip-flops, counters, and shift registers, memories, CPLD, and FPGA. Synchronous analysis and design using algorithmic state machines ASM, Digital design practice, CAD using FPGA and CPLD.
Bachelor Degree in Computer Engineering
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content serial | Description |
---|---|
1 | Week Number 1 : Introduction to digital design. |
2 | Week Number 2 : Quine-McCluskey Simplification Algorithm. |
3 | Week Number 3 : Algorithmic state machine (ASM) chart. |
4 | Week Number 4 : Timing Analysis of Digital Designs. |
5 | Week Number 5 : Physical Layout of PLA, PLD, CPLD, GAL, and FPGA. |
6 | Week Number 6 : Combinational logic design practices: VHDL. |
7 | Week Number 7 : 7th Week Exam + Sequential logic design practices. |
8 | Week Number 8 : Sequential logic design practices. |
9 | Week Number 9 : Interfacing with FPGA/CPLD boards. |
10 | Week Number 10 : Interfacing with FPGA/CPLD boards. |
11 | Week Number 11 : Hierarchical and Modular Design. |
12 | Week Number 12 : 12th Week Exam + Hierarchical and Modular Design. |
13 | Week Number : Project Ideas. |
14 | Week Number 14 : Project Discussions. |
15 | Week Number 15 : Revision. |
16 | Week Number 16 : Final Exam. |
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