About the Book
Explore modern computer architecture from transistors and instruction sets to cloud-scale systems, LLM platforms, and secure computing, with major updates and new chapters reflecting today's cloud and AI-driven computing landscape
Key Features
Understand modern processor and system architectures, spanning digital logic through x86/x64, ARM, and RISC-V
Explore new and expanded topics, including GPUs, LLM platforms, cloud-scale systems, and cybersecurity
Apply architectural principles to real-world systems, including confidential computing, blockchain, and autonomous platforms
Book DescriptionComputer architecture now extends far beyond CPUs, forming the foundation of cloud platforms, AI systems, cybersecurity solutions, and emerging computing technologies. Modern Computer Architecture and Organization, Third Edition, provides a clear, end-to-end understanding of how today’s computer systems are built and why architectural decisions matter more than ever.
You’ll begin with the fundamentals of digital logic, processor elements, memory systems, and the hardware–software interface, building a strong grounding that remains essential for every architect and systems engineer. Next, the book explores modern processor and memory architectures, performance-enhancing techniques, virtualization, and mainstream instruction sets, including x86, ARM, and an in-depth treatment of RISC-V.
New and significantly expanded chapters extend this foundation into modern computing domains, including AI and large language model (LLM) computing platforms, GPUs, cloud-scale systems, confidential and security-focused architectures, blockchain and Bitcoin mining systems, self-driving vehicle architectures, and future directions such as quantum computing. This edition reflects today’s AI-driven, cloud-centric, security-aware computing landscape while remaining true to the classical principles that continue to underpin modern computer systems.What you will learn
Understand digital logic, processor fundamentals, and memory systems
Explore modern CPU, memory, and I/O architectures
Compare x86, ARM, and innovative RISC-V designs
Benefit from performance techniques like caching, pipelining, and parallelism
Understand virtualization and cloud-scale computing systems
Learn how AI and LLM computing platforms are architected
Examine confidential computing and security-focused architectures
Understand blockchain systems and bitcoin mining computer architectures
Explore quantum computing and future computing technologies
Who this book is forThis book is designed for software developers, computer engineering and computer science students, system designers, and technical professionals seeking a clear understanding of modern computer architecture. It also suits general readers eager to understand how modern computing devices work. Readers working with PCs, mobile devices, cloud platforms, embedded systems, and AI workloads will gain practical insight to guide better design and performance decisions.
Table of Contents:
Table of Contents- Introducing Computer Architecture
- Digital Logic
- Processor Elements
- Computer System Components
- Hardware-Software Interface
- Specialized Computing Domains
- Processor and Memory Architectures
- Performance-Enhancing Techniques
- Specialized Processor Extensions
- Graphics Processing Units
- Modern Processor Architectures and Instruction Sets
- The RISC-V Architecture and Instruction Set
- Processor Virtualization
- Domain-Specific Computer Architectures
- Large Language Model Computing Architectures
- Cybersecurity and Confidential Computing Architectures
- Blockchain and Bitcoin Mining Architectures
- Self-Driving Vehicle Architectures
- Quantum Computing and Other Future Directions for Computer Architectures
About the Author :
Jim Ledin is the CEO of Ledin Engineering, Inc. Jim is an expert in embedded software and hardware design and testing. He is also an expert in system cybersecurity assessment and penetration testing. He has a B.S. degree in aerospace engineering from Iowa State University and an M.S. degree in electrical and computer engineering from the Georgia Institute of Technology. Jim is a registered professional electrical engineer in California, a Certified Information System Security Professional (CISSP), a Certified Ethical Hacker (CEH), and a Certified Penetration Tester (CPT).
