COMPUTER ARCHITECTURE M - Z
Academic Year 2020/2021 - 3° YearCredit Value: 9
Scientific field: ING-INF/05 - Information processing systems
Taught classes: 49 hours
Exercise: 30 hours
Term / Semester: 1°
ENGLISH VERSION
Learning Objectives
The course presents the fundamental concepts of computing systems.
In the first part the course introduces the techniques and methodologies for the design of digital systems.
In the second part, the course presents the components of a computer and their organization, some instruction set architectures of the processors, some techniques for an efficient implementation of the processors and the memory subsystem.
Furthermore, in order to better understand the functioning of the processor, the course introduces the student to the assembly programming of an educational processor.
Knowledge and understanding
The student will know:
- the basic techniques for the design of combinational and sequential digital circuits.
- technologies for the design of digital systems at different levels of abstraction.
- the elementary modules of a computer
- the main instruction set architectures.
- the basic architectures of RISC processors
- the assembly of an educational RISC processor
Applying knowledge and understanding
The student will be able to:
-design simple combinational and synchronous sequential circuits
-develop models of simple digital systems using the VHDL description language
- evaluate the performance of a computer and the impact of architectural choices on performance
-write programs in the assembly language of an educational processor
Making judgements
The student will be able to assess the impact of architectural choices on the performance of a computer.
Learning skills
The student will be able to independently learn:
- additional basic features of processor architectures
- the assembly of other processors
Course Structure
The course will be organized in lectures, exercises, practical experiences and presentation of use cases.
If the teaching is given in a mixed or remote mode, the necessary changes with respect to what was previously stated may be introduced, in order to respect the program planned and reported in the syllabus.
Detailed Course Content
Part I Digital Design
1.1 Combinational circuits design
Switching Algebra. Minimum Boolean expressions. Minimization using Karnaugh maps and Quine-McCluckey method.
1.2 Synchronous sequential circuits Design
Introduction to sequential machines. The memory elements. Synthesis of synchronous sequential circuits. Minimization of finite state machines.
1.3 Design of a digital system
Design flow of a digital system. Datapath and control unit. Hardware description Languages. VHDL. Entity and architecture. Concurrent and sequential models. Process. Data types. Procedure and funtions. Simulations.
Part II Computer architecture
2.1 Computer abstractions and technology
The types of computers and their characteristics. The components of a computer. Computer Organization. Computer performance evaluation. Amdhal’s law.
2.2 The computer language: the Assembly
Instruction Set Architecture. Translation and starting a program: assembler, linker, and loader. MIPS64 Instruction Set Architecture. An educational Instruction Set Simulator for MIPS 64 processor: EDUMIPS. Assembly of EduMIPS64 processor. Arithmetic/logical instructions. Memory access. System calls. Array. String. Procedure calls
2.3 Computer Organization
Sequential organization of a processor. Datapath of a sequential processor. Control unit of a sequential processor.
Organization of pipelined processor. Pipeline Hazard. Performance evaluation of a pipelined processor. Techniques for detecting and resolving pipeline hazards. Code scheduling for hazard minimization.
2.4 The Memory subsystem.
Static and dynamic RAM memories. Asynchronous and synchronous memories. Memory organization.
Cache memories. Block placement policies, block identification, block replacement and write policy. Memory Performance. Techniques for improving cache performance.
Textbook Information
[T1] Fummi, Sami, Silvano, “Progettazione digitale”, 2/ed McGraw-Hill
[T2] Patterson, Hennessy, “Struttura e progetto dei calcolatori”, Zanichelli
[T3] Bucci, “Architettura e organizzazione dei calcolatori elettronici: fondamenti”, McGraw-Hill
[T4] On line Course material