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Lecture
Synchronous Digital Circuits: Principles and Design
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Related lectures (28)
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Field Programmable Gate Arrays (FPGAs)
Covers the basic principles and architecture of Field Programmable Gate Arrays (FPGAs) and their implementation options for digital circuits.
Tri-State Inverter: Master-Slave Flip-Flop Applications
Covers the tri-state inverter and its role in master-slave flip-flops in digital circuits.
Semicustom RTL Design: Design Flow and Standard Cells
Explores the RTL design flow, chip-level integration, standard cells, and static timing analysis in VLSI design.
Basic Synchronous Digital Circuits and RTL Design
Covers pulse generation, edge detection, common design mistakes, and clock/reset signals in logic circuits.
Logic Synthesis: Designing Efficient Digital Circuits
Discusses logic synthesis techniques for designing efficient digital circuits using minterms, maxterms, and new gates like XOR and XNOR.
Finite State Machines: Design and Analysis Techniques
Provides an overview of finite state machines, covering their design, analysis, and practical applications in digital systems.
Digital Logic Circuits: Memory Fundamentals
Discusses digital logic circuits, focusing on memory systems and their implementation in Verilog.
Arbiter FSM & FPGA Implementation
Covers the design of an Arbiter FSM in VHDL for digital system design, emphasizing access timing management.
Testability Analysis: SCOAP Measures
Introduces SCOAP measures for testability analysis in VLSI systems, covering controllability, observability, and test vector length prediction.
VHDL for Synthesis
Covers basic VHDL constructs for RTL design, including arithmetic, multiplexers, registers, and instantiation.
