Embedded Computing: A VLIW Approach to Architecture, Compilers and Tools (Hardcover)
暫譯: 嵌入式計算:VLIW架構、編譯器與工具的方法 (精裝版)
Joseph A. Fisher, Paolo Faraboschi, Cliff Young
- 出版商: Morgan Kaufmann
- 出版日期: 2004-12-01
- 售價: $3,920
- 貴賓價: 9.5 折 $3,724
- 語言: 英文
- 頁數: 712
- 裝訂: Hardcover
- ISBN: 1558607668
- ISBN-13: 9781558607668
-
相關分類:
嵌入式系統、Compiler
海外代購書籍(需單獨結帳)
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商品描述
Description:
The fact that there are more embedded computers than general-purpose computers and that we are impacted by hundreds of them every day is no longer news. What is news is that their increasing performance requirements, complexity and capabilities demand a new approach to their design.
Fisher, Faraboschi, and Young describe a new age of embedded computing design, in which the processor is central, making the approach radically distinct from contemporary practices of embedded systems design. They demonstrate why it is essential to take a computing-centric and system-design approach to the traditional elements of nonprogrammable components, peripherals, interconnects and buses. These elements must be unified in a system design with high-performance processor architectures, microarchitectures and compilers, and with the compilation tools, debuggers and simulators needed for application development.
In this landmark text, the authors apply their expertise in highly interdisciplinary hardware/software development and VLIW processors to illustrate this change in embedded computing. VLIW architectures have long been a popular choice in embedded systems design, and while VLIW is a running theme throughout the book, embedded computing is the core topic. Embedded Computing examines both in a book filled with fact and opinion based on the authors many years of R&D experience.
Table of Contents:
Preface
Chapter 1: An Introduction to Embedded Processing
1.1 What is Embedded Computing?
1.2 Distinguishing Between Embedded and General Purpose Computing
1.3 Characterizing Embedded Computing
1.4 Embedded market structure
1.5 Further Reading
1.6 Exercises
Chapter 2: An Overview of VLIW and ILP
2.1 Semantics and parallelism
2.2 Design philosophies
2.3 Role of the compiler
2.4 VLIW in the embedded and DSP domains
2.5 Historical Perspective and Further Reading
2.6 Exercises
Chapter 3: An Overview of ISA Design
3.1 Overview: What to Hide
3.2 Basic VLIW design principles
3.3 Designing a VLIW ISA for Embedded Systems
3.4 Instruction-Set Encoding
3.5 VLIW Encoding
3.6 Encoding and Instruction-Set Extensions
3.7 Further Reading
3.8 Exercises
Chapter 4: Architectural Structures in ISA design
4.1 The Datapath
4.2 Registers and Clusters
4.3 Memory Architecture
4.4 Branch Architecture
4.5 Speculation and Predication
4.6 System Operations
4.7 Further Reading
4.8 Exercises
Chapter 5: Microarchitecture Design
5.1 Register File Design
5.2 Pipeline Design
5.3 VLIW Fetch, Sequencing and Decoding
5.4 The Datapath
5.5 Memory Architecture
5.6 Control Unit
5.7 Control Registers
5.8 Power Considerations
5.9 Further Reading
5.10 Exercises
Chapter 6: System Design and Simulation
6.1 System-on-Chip (SoC)
6.2 Processor Cores and System-On-Chip
6.3 Overview of Simulation
6.4 Simulating a VLIW architecture
6.5 System simulation
6.6 Validation and verification
6.7 Further Reading
6.8 Exercises
Chapter 7: Embedded Compiling and Toolchains
7.1 What is important in an ILP Compiler?
7.2 Embedded cross-development toolchains
7.3 Structure of an ILP compiler
7.4 Code Layout
7.5 Embedded-specific trade-offs for compilers
7.6 DSP-Specific Compiler Optimizations
7.7 Further Reading
7.8 Exercises
Chapter 8: Compiling for VLIWs and ILP
8.1 Profiling
8.2 Scheduling
8.3 Register allocation
8.4 Speculation and Predication
8.5 Instruction selection
8.6 Further Reading
8.7 Exercises
Chapter 9: The Run-time System
9.1 Exceptions, interrupts, and traps
9.2 Application Binary Interface considerations
9.3 Code Compression
9.4 Embedded Operating Systems
9.5 Multiprocessing and Multithreading
9.6 Further Reading
9.7 Exercises
Chapter 10: Application Design and Customization
10.1 Programming Language choices
10.2 Performance, Benchmarking and Tuning
10.3 Scalability and Customizability
10.4 Further Reading
10.5 Exercises
Chapter 11: Application Areas
11.1 Digital Printing and Imaging
11.2 Telecom applications
11.3 Other application areas
11.4 Further Reading
11.5 Exercises
Appendix A: The VEX System
Appendix B: Glossary
Appendix C: Bibliography
商品描述(中文翻譯)
**描述:**
嵌入式電腦的數量超過一般用途電腦,且我們每天都受到數百台嵌入式電腦的影響,這已不再是新聞。真正的新聞在於,它們日益增長的性能需求、複雜性和能力要求一種新的設計方法。
Fisher、Faraboschi 和 Young 描述了一個嵌入式計算設計的新時代,其中處理器是核心,這使得這種方法與當前的嵌入式系統設計實踐截然不同。他們展示了為什麼採取以計算為中心的系統設計方法對於傳統的非可編程元件、外圍設備、互連和匯流排等元素至關重要。這些元素必須在高性能處理器架構、微架構和編譯器的系統設計中統一,並配備應用開發所需的編譯工具、除錯器和模擬器。
在這本具有里程碑意義的著作中,作者運用他們在高度跨學科的硬體/軟體開發和 VLIW 處理器方面的專業知識,來說明嵌入式計算的變革。VLIW 架構長期以來一直是嵌入式系統設計中的熱門選擇,雖然 VLIW 是本書的主題之一,但嵌入式計算才是核心主題。《嵌入式計算》探討了這兩者,並根據作者多年來的研發經驗,提供了充滿事實和觀點的內容。
**目錄:**
前言
第 1 章:嵌入式處理簡介
1.1 什麼是嵌入式計算?
1.2 嵌入式計算與一般用途計算的區別
1.3 嵌入式計算的特徵
1.4 嵌入式市場結構
1.5 進一步閱讀
1.6 練習
第 2 章:VLIW 和 ILP 概述
2.1 語義和並行性
2.2 設計哲學
2.3 編譯器的角色
2.4 嵌入式和 DSP 領域中的 VLIW
2.5 歷史視角和進一步閱讀
2.6 練習
第 3 章:ISA 設計概述
3.1 概述:隱藏什麼
3.2 基本 VLIW 設計原則
3.3 為嵌入式系統設計 VLIW ISA
3.4 指令集編碼
3.5 VLIW 編碼
3.6 編碼和指令集擴展
3.7 進一步閱讀
3.8 練習
第 4 章:ISA 設計中的架構結構
4.1 數據通路
4.2 寄存器和集群
4.3 記憶體架構
4.4 分支架構
4.5 推測和預測
4.6 系統操作
4.7 進一步閱讀
4.8 練習
第 5 章:微架構設計
5.1 寄存器檔案設計
5.2 管線設計
5.3 VLIW 擷取、排序和解碼
5.4 數據通路
5.5 記憶體架構
5.6 控制單元
5.7 控制寄存器
5.8 功率考量
5.9 進一步閱讀
5.10 練習
第 6 章:系統設計與模擬
6.1 系統單晶片 (SoC)
6.2 處理器核心和系統單晶片
6.3 模擬概述
6.4 模擬 VLIW 架構
6.5 系統模擬
6.6 驗證和確認
6.7 進一步閱讀
6.8 練習
第 7 章:嵌入式編譯和工具鏈
7.1 ILP 編譯器中重要的因素是什麼?
7.2 嵌入式交叉開發工具鏈
7.3 ILP 編譯器的結構
7.4 代碼佈局
7.5 編譯器的嵌入式特定權衡
7.6 DSP 特定的編譯器優化
7.7 進一步閱讀
7.8 練習
第 8 章:為 VLIW 和 ILP 編譯
8.1 性能分析
8.2 調度
8.3 寄存器分配
8.4 推測和預測
8.5 指令選擇
8.6 進一步閱讀
8.7 練習
第 9 章:運行時系統
9.1 異常、中斷和陷阱
9.2 應用二進位介面考量
9.3 代碼壓縮
9.4 嵌入式作業系統
9.5 多處理和多執行緒
9.6 進一步閱讀
9.7 練習
第 10 章:應用設計與自訂
10.1 程式語言選擇
10.2 性能、基準測試和調整
10.3 可擴展性和可自訂性
10.4 進一步閱讀
10.5 練習
第 11 章:應用領域
11.1 數位印刷和影像
11.2 電信應用
11.3 其他應用領域
11.4 進一步閱讀
11.5 練習
附錄 A:VEX 系統
附錄 B:術語表
附錄 C:參考文獻
