A no-nonsense, practical guide to current and future processor and computer architectures that enables you to design computer systems and develop better software applications across a variety of domains

Key Features

• Understand digital circuitry through the study of transistors, logic gates, and sequential logic
• Learn the architecture of x86, x64, ARM, and RISC-V processors, iPhones, and high-performance gaming PCs
• Study the design principles underlying the domains of cybersecurity, bitcoin, and self-driving cars

Book Description

Are you a software developer, systems designer, or computer architecture student looking for a methodical introduction to digital device architectures, but are overwhelmed by the complexity of modern systems? This step-by-step guide will teach you how modern computer systems work with the help of practical examples and exercises. You'll gain insights into the internal behavior of processors down to the circuit level and will understand how the hardware executes code developed in high-level languages.

This book will teach you the fundamentals of computer systems including transistors, logic gates, sequential logic, and instruction pipelines. You will learn details of modern processor architectures and instruction sets including x86, x64, ARM, and RISC-V. You will see how to implement a RISC-V processor in a low-cost FPGA board and write a quantum computing program and run it on an actual quantum computer.

This edition has been updated to cover the architecture and design principles underlying the important domains of cybersecurity, blockchain and bitcoin mining, and self-driving vehicles.

By the end of this book, you will have a thorough understanding of modern processors and computer architecture and the future directions these technologies are likely to take.

What you will learn

• Understand the fundamentals of transistor technology and digital circuits
• Explore the concepts underlying pipelining and superscalar processing
• Implement a complete RISC-V processor in a low-cost FPGA
• Understand the technology used to implement virtual machines
• Learn about security-critical computing applications like financial transaction processing
• Get up to speed with blockchain and the hardware architectures used in bitcoin mining
• Explore the capabilities of self-navigating vehicle computing architectures
• Write a quantum computing program and run it on a real quantum computer

Who this book is for

This book is for software developers, computer engineering students, system designers, reverse engineers, and anyone looking to understand the architecture and design principles underlying modern computer systems: ranging from tiny, embedded devices to warehouse-size cloud server farms. A general understanding of computer processors is helpful but not required.

Table of Contents

1. Introducing Computer Architecture
2. Digital Logic
3. Processor Elements
4. Computer System Components
5. Hardware-Software Interface
6. Specialized Computing Domains
7. Processor and Memory Architectures
8. Performance-Enhancing Techniques
9. Specialized Processor Extensions
10. Modern Processor Architectures and Instruction Sets
11. The RISC-V Architecture and Instruction Set
12. Processor Virtualization
13. Domain-Specific Computer Architectures<

Explore the complete process of developing systems based on field-programmable gate arrays (FPGAs), including the design of electronic circuits and the construction and debugging of prototype embedded devices

Key Features

• Learn the basics of embedded systems and real-time operating systems
• Understand how FPGAs implement processing algorithms in hardware
• Design, construct, and debug custom digital systems from scratch using KiCad

Book Description

Modern digital devices used in homes, cars, and wearables contain highly sophisticated computing capabilities composed of embedded systems that generate, receive, and process digital data streams at rates up to multiple gigabits per second. This book will show you how to use Field Programmable Gate Arrays (FPGAs) and high-speed digital circuit design to create your own cutting-edge digital systems.

Architecting High-Performance Embedded Systems takes you through the fundamental concepts of embedded systems, including real-time operation and the Internet of Things (IoT), and the architecture and capabilities of the latest generation of FPGAs. Using powerful free tools for FPGA design and electronic circuit design, you'll learn how to design, build, test, and debug high-performance FPGA-based IoT devices. The book will also help you get up to speed with embedded system design, circuit design, hardware construction, firmware development, and debugging to produce a high-performance embedded device – a network-based digital oscilloscope. You'll explore techniques such as designing four-layer printed circuit boards with high-speed differential signal pairs and assembling the board using surface-mount components.

By the end of the book, you'll have a solid understanding of the concepts underlying embedded systems and FPGAs and will be able to design and construct your own sophisticated digital devices.

What you will learn

• Understand the fundamentals of real-time embedded systems and sensors
• Discover the capabilities of FPGAs and how to use FPGA development tools
• Learn the principles of digital circuit design and PCB layout with KiCad
• Construct high-speed circuit board prototypes at low cost
• Design and develop high-performance algorithms for FPGAs
• Develop robust, reliable, and efficient firmware in C
• Thoroughly test and debug embedded device hardware and firmware

Who this book is for

This book is for software developers, IoT engineers, and anyone who wants to understand the process of developing high-performance embedded systems. You'll also find this book useful if you want to learn about the fundamentals of FPGA development and all aspects of firmware development in C and C++. Familiarity with the C language, digital circuits, and electronic soldering is necessary to get started.

Table of Contents

1. Architecting high-performance embedded systems
2. Sensing the world
3. Operating in real time
4. Developing your first FPGA program
5. Implementing systems with FPGAs
6. Designing circuits with KiCad
7. Building high-performance digital devices
8. Bringing up the board for the first time
9. The firmware development process
10. Testing and debugging the embedded system

A no-nonsense, practical guide to current and future processor and computer architectures, enabling you to design computer systems and develop better software applications across a variety of domains

Key Features

• Understand digital circuitry with the help of transistors, logic gates, and sequential logic
• Examine the architecture and instruction sets of x86, x64, ARM, and RISC-V processors
• Explore the architecture of modern devices such as the iPhone X and high-performance gaming PCs

Book Description

Are you a software developer, systems designer, or computer architecture student looking for a methodical introduction to digital device architectures but overwhelmed by their complexity? This book will help you to learn how modern computer systems work, from the lowest level of transistor switching to the macro view of collaborating multiprocessor servers. You'll gain unique insights into the internal behavior of processors that execute the code developed in high-level languages and enable you to design more efficient and scalable software systems.

The book will teach you the fundamentals of computer systems including transistors, logic gates, sequential logic, and instruction operations. You will learn details of modern processor architectures and instruction sets including x86, x64, ARM, and RISC-V. You will see how to implement a RISC-V processor in a low-cost FPGA board and how to write a quantum computing program and run it on an actual quantum computer. By the end of this book, you will have a thorough understanding of modern processor and computer architectures and the future directions these architectures are likely to take.

What you will learn

• Get to grips with transistor technology and digital circuit principles
• Discover the functional elements of computer processors
• Understand pipelining and superscalar execution
• Work with floating-point data formats
• Understand the purpose and operation of the supervisor mode
• Implement a complete RISC-V processor in a low-cost FPGA
• Explore the techniques used in virtual machine implementation
• Write a quantum computing program and run it on a quantum computer

Who this book is for

This book is for software developers, computer engineering students, system designers, reverse engineers, and anyone looking to understand the architecture and design principles underlying modern computer systems from tiny embedded devices to warehouse-size cloud server farms. A general understanding of computer processors is helpful but not required.

Table of Contents

1. Introducing Computer Architecture
2. Digital Logic
3. Processor Elements
4. Computer System Components
5. Hardware-Software Interface
6. Specialized Computing Domains
7. Processor and Memory Architectures
8. Performance-Enhancing Techniques
9. Specialized Processor Extensions
10. Modern Processor Architectures and Instruction Sets
11. The RISC-V Architecture and Instruction Set
12. Processor Virtualization
13. Domain-Specific Computer Architectures
14. Future Directions in Computer Architectures