## CSE370 Syllabus

### Catalog Data

**CSE 370 Introduction to Digital Design (4)** Introductory course in
digital logic and its specification and simulation. Boolean algebra,
combinatorial circuits including arithmetic circuits and regular structures,
sequential circuits including finite-state-machines, use of programmable
logic devices. Simulation and high-level specification techniques are
emphasized. Offered: AWSp.

The department has an official syllabus
description for CSE 370 to help ensure consistency from offering to
offering. Please check it out for another view of the material that will
be covered.

### Course Goals

- Understanding of digital logic at the gate and switch level including
both combinational and sequential logic elements.
- Understanding of the clocking methodologies necessary to manage the
flow of information and preservation of circuit state.
- An appreciation for the specification methods used in designing
digital logic and the basics of the compilation process that
transforms these specifications into logic networks.
- Facility with a complete set of tools for digital logic design
with programmable logic devices as the implementation technology.
- To begin to appreciate the difference between hardware and software
implementations of a function and the advantages and disadvantages
of each.

### Course Syllabus

- Introduction to modern digital logic design
- Combinational logic
- Switch logic and basic gates
- Boolean algebra
- Two-level logic
- Regular logic structures
- Multi-level networks and transformations
- Programmable logic devices
- Time response
- Case studies

- Sequential logic
- Networks with feedback
- Basic latches and flip-flops
- Timing methodologies
- Registers and counters
- Programmable logic devices
- Case studies

- Finite state machine design
- Concepts of FSMs
- Basic design approach
- Specification methods
- State minimization
- State encoding
- FSM partitioning
- Implementation of FSMs
- Programmable logic devices
- Case studies

- Elements of computers
- Arithmetic circuits
- Arithmetic and logic units
- Register and bus structures
- Controllers/Sequencers
- Microprogramming

- Computer-aided design tools for logic design
- Schematic entry
- State diagram entry
- Hardware description language entry
- Compilation to logic networks
- Simulation
- Mapping to programmable logic devices

- Practical topics
- Non-gate logic
- Asynchronous inputs and metastability
- Memories: RAM and ROM
- Implementation technologies

Comments to: cse370-webmaster@cs.washington.edu (Last Update:
03/26/99
)