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- Introduction
- Boolean arithmetic
- Boolean algebraic identities
- Boolean algebraic properties
- Boolean rules for simplification
- Introduction
- Venn diagrams and sets
- Boolean Relationships on Venn Diagrams .
- Making a Venn diagram look like a Karnaugh map
- Karnaugh maps, truth tables, and Boolean expressio...
- Logic simplification with Karnaugh maps
- Larger 4-variable Karnaugh maps
- Minterm vs maxterm solution
- (sum) and (product) notation
- Don't care cells in the Karnaugh map .
- Larger 5 & 6-variable Karnaugh maps
- Introduction
- A Full-Adder
- Decoder
- Encoder
- Demultiplexers
- Multiplexers
- Using multiple combinational circuits .
- Digital logic with feedback
- The S-R latch
- The gated S-R latch
- The D latch
- Edge-triggered latches: Flip-Flops
- The J-K flip-flop
- Asynchronous flip-flop inputs
- Monostable multivibrators
- Binary count sequence
- Asynchronous counters
- Synchronous counters
- Practical considerations of ADC circuits
- Introduction
- Serial-in/serial-out shift register
- Serial-in, parallel-out shift register
- Parallel-in, parallel-out, universal shift registe...
- Ring counters
- references
- Introduction
- Networks and busses
- Data flow
- Electrical signal types
- Optical data communication
- Network topology
- Network protocols
- Practical considerations
- Why digital?
- Digital memory terms and concepts
- Modern nonmechanical memory.
- Historical, nonmechanical memory technologies.
- Read-only memory
- Memory with moving parts: "Drives".
PRINCIPLES OF DIGITAL COMPUTING
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