Learning objectives
The course will provide the basis for the study of digital systems. The
main techniques of synthesis of digital systems will be presented and the
architecture of most important programmable devices will be introduced.
In addition, the major issues of system configurations and the most
important application fields will be discussed.
Through laboratory experiences the student will be able to apply some of
the concepts illustrated in the classroom lessons acquiring practical skills.
Prerequisites
Elettronica I (recommended)
Course unit content
Introduction to microelectronic Technologies
Semiconductor memories: architecture and functional blocks, read-only
memories, non-volatile memory, read-write memories
Implementation Strategies for Digital ICs
CPLD and FPGA Architecture
Microcontroller Architecture
DSP Architecture
Laboratory exercises on microprocessor development boards
Full programme
Introduction: (2h)
The manufacturing process: manufacturing CMOS Integrated Circuits (4h)
Implementation Strategies for Digital ICs (16h)
• Custom Circuit Design
• Cell-Based Design Methodology
• Macrocells, magacells and Intellectual Property
• Array Based Implementation Approaches
• Complex Programmable Logic Device: CPLD
• Field Programmable Gate Array: le FPGA
• The FPGA programmable interconnect points, evaluation of parasitics
and of the RC delay
• Advanced FPGA
Microcontroller Architecture (12h)
• memory classification and organization
• memory architectures and building blocks
• ROM, EPROM, EEPROM, FLASH memories
• Microcontroller architecture
• the I/O ports, Counters and Timers, Serial Ports
DSP Architecture (4h)
PLC Architecture (2h)
Laboratory exercises (10h)
• simple exercise on a microprocessor board.
Bibliography
- J.M. Rabaey, A. Chandrakasan, B. Nikolic, "Digital Integrated Circuits, a
Design Perspective", Prentice Hall, second edition
- Paolo Spirito, “Elettronica digitale”, McGraw-Hill
Teaching methods
Classroom lessons, laboratory experiences
Practical experiences will be organized in the electronic lab.
Assessment methods and criteria
Oral discussion.
The student gets at least two questions on topics covered during the
course. The exam is passed if a sufficient evaluation is achieved on both
questions.
During the exam the student has to demonstrate to have mastered the
basic principles of the architecture of digital systems, understanding
strengths and weaknesses .
Other information
Slides related to the course can be find: https://elly2023.dia.unipr.it/
On the same site notes of the professor on issues not covered in the
slides are available
2030 agenda goals for sustainable development
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