Informações sobre o curso
4.9
1,222 classificações
380 avaliações
100% online

100% online

Comece imediatamente e aprenda em seu próprio cronograma.
Prazos flexíveis

Prazos flexíveis

Redefinir os prazos de acordo com sua programação.
Horas para completar

Aprox. 18 horas para completar

Sugerido: 5 hours/week...
Idiomas disponíveis

Inglês

Legendas: Inglês, Hebraico

Habilidades que você terá

Logic GateComputer ArchitectureAssembly LanguagesHardware Description Language (HDL)
100% online

100% online

Comece imediatamente e aprenda em seu próprio cronograma.
Prazos flexíveis

Prazos flexíveis

Redefinir os prazos de acordo com sua programação.
Horas para completar

Aprox. 18 horas para completar

Sugerido: 5 hours/week...
Idiomas disponíveis

Inglês

Legendas: Inglês, Hebraico

Programa - O que você aprenderá com este curso

Semana
1
Horas para completar
1 hora para concluir

Introduction

Course introduction and overview, the roles of abstraction and implementation in systems design, the road ahead....
Reading
5 vídeos (total de (Total 27 mín.) min), 1 leitura, 1 teste
Video5 videos
Unit 0.1: The Road Ahead10min
Unit 0.2: From Nand to Hack7min
Unit 0.3: From Hack to Tetris3min
Unit 0.4: Project 0 Overview3min
Reading1 leituras
Module 0: Introduction Roadmap10min
Horas para completar
7 horas para concluir

Boolean Functions and Gate Logic

We will start with a brief introduction of Boolean algebra, and learn how Boolean functions can be physically implemented using logic gates. We will then learn how to specify gates and chips using a Hardware Description Language (HDL), and how to simulate the behaviour of the resulting chip specifications using a hardware simulator. This background will set the stage for Project 1, in which you will build, simulate, and test 15 elementary logic gates. The chipset that you will build this module will be later used to construct the computer's Arithmetic Logic Unit (ALU) and memory system. This will be done in modules 2 and 3, respectively....
Reading
8 vídeos (total de (Total 128 mín.) min), 1 leitura, 1 teste
Video8 videos
Unit 1.2: Boolean Functions Synthesis9min
Unit 1.3: Logic Gates10min
Unit 1.4: Hardware Description Language18min
Unit 1.5: Hardware Simulation33min
Unit 1.6: Multi-Bit Buses8min
Unit 1.7: Project 1 Overview24min
Unit 1.8: Perspectives 9min
Reading1 leituras
Module 1: Boolean Functions and Gate Logic Roadmap10min
Horas para completar
1 hora para concluir

General Course Information

General Course Information...
Reading
1 vídeo (total de (Total 2 mín.) min), 3 leituras
Video1 vídeos
Reading3 leituras
Course Overview10min
Textbook10min
FAQ10min
Semana
2
Horas para completar
6 horas para concluir

Boolean Arithmetic and the ALU

Using the chipset that we've built in the previous module, we will now proceed to build a family of adders -- chips designed to add numbers. We will then take a big step forward and build an Arithmetic Logic Unit. The ALU, which is designed to perform a whole set of arithmetic and logical operations, is the computer's calculating brain. Later in the course we will use this ALU as the centerpiece chip from which we will build the computer's Central Processing Unit, or CPU. Since all these chips operate on binary numbers (0's and 1's), we will start this module with a general overview of binary arithmetic, and only then delve into building the ALU....
Reading
6 vídeos (total de (Total 66 mín.) min), 1 leitura, 1 teste
Video6 videos
Unit 2.2: Binary Addition12min
Unit 2.3: Negative Numbers11min
Unit 2.4: Arithmetic Logic Unit16min
Unit 2.5: Project 2 Overview7min
Unit 2.6: Perspectives10min
Reading1 leituras
Module 2: Boolean Arithmetic and the ALU Roadmap10min
Semana
3
Horas para completar
7 horas para concluir

Memory

Having built the computer's ALU, this module we turn to building the computer's main memory unit, also known as Random Access Memory, or RAM. This will be done gradually, going bottom-up from elementary flip-flop gates to one-bit registers to n-bit registers to a family of RAM chips. Unlike the computer's processing chips, which are based on combinational logic, the computer's memory logic requires a clock-based sequential logic. We will start with an overview of this theoretical background, and then move on to build our memory chipset....
Reading
6 vídeos (total de (Total 84 mín.) min), 1 leitura, 1 teste
Video6 videos
Unit 3.2: Flip Flops15min
Unit 3.3: Memory Units25min
Unit 3.4: Counters10min
Unit 3.5: Project 3 Overview10min
Unit 3.6: Perspectives11min
Reading1 leituras
Module 3: Memory Roadmap10min
Semana
4
Horas para completar
8 horas para concluir

Machine Language

A critically important aspect of building a new computer system is designing the low-level machine language, or instruction set, with which the computer can be instructed to do various things. As it turns out, this can be done before the computer itself is actually built. For example, we can write a Java program that emulates the yet-to-be-built computer, and then use it to emulate the execution of programs written in the new machine language. Such experiments can give us a good appreciation of the bare bone "look and feel" of the new computer, and lead to decisions that may well change and improve both the hardware and the language designs. Taking a similar approach, in this module we assume that the Hack computer and machine language have been built, and write some low-level programs using the Hack machine language. We will then use a supplied CPU Emulator (a computer program) to test and execute our programs. This experience will give you a taste of low-level programming, as well as a solid hands-on overview of the Hack computer platform....
Reading
10 vídeos (total de (Total 187 mín.) min), 1 leitura, 1 teste
Video10 videos
Unit 4.2: Machine Languages: Elements 16min
Unit 4.3: The Hack Computer and Machine Language15min
Unit 4.4: Hack Language Specification10min
Unit 4.5: Input / Output26min
Unit 4.6: Hack Programming, Part 124min
Unit 4.7: Hack Programming, Part 221min
Unit 4.8: Hack Programming, Part 3 32min
Unit 4.9: Project 4 Overview 19min
Unit 4.10: Perspectives 7min
Reading1 leituras
Module 4: Machine Language Roadmap10min

Instrutores

Avatar

Shimon Schocken

Professor
Computer Science
Avatar

Noam Nisan

Professor
Computer Science and Engineering

Sobre Hebrew University of Jerusalem

Ranked among the top academic and research institutions worldwide, the Hebrew University of Jerusalem is Israel's leading university and premier research institution. Serving 23,000 students from 70 countries, the Hebrew University produces a third of Israel’s civilian research and is ranked 12th worldwide in biotechnology patent filings and commercial development. The Hebrew University was founded in 1918 by visionaries including Albert Einstein, Sigmund Freud, Martin Buber and Chaim Weizmann. It is located on three campuses in Jerusalem and a fourth in Rehovot. Visit the website at http://new.huji.ac.il/en. Join our online learners community at https://www.facebook.com/groups/hujimooc/. ...

Perguntas Frequentes – FAQ

  • Ao se inscrever para um Certificado, você terá acesso a todos os vídeos, testes e tarefas de programação (se aplicável). Tarefas avaliadas pelos colegas apenas podem ser enviadas e avaliadas após o início da sessão. Caso escolha explorar o curso sem adquiri-lo, talvez você não consiga acessar certas tarefas.

  • Quando você adquire o Certificado, ganha acesso a todo o material do curso, incluindo avaliações com nota atribuída. Após concluir o curso, seu Certificado eletrônico será adicionado à sua página de Participações e você poderá imprimi-lo ou adicioná-lo ao seu perfil no LinkedIn. Se quiser apenas ler e assistir o conteúdo do curso, você poderá frequentá-lo como ouvinte sem custo.

Mais dúvidas? Visite o Central de Ajuda ao Aprendiz.