author = { Yiu, Joseph },

title = { The definitive guide to the ARM Cortex-M3 },

edition = { 2nd.ed. } ,

publisher = {Newnes/Elsevier},

isbn = {9781856179645},

isbn = {1856179648},

isbn = {9781856179638},

keywords = { Embedded computer systems , Microprocessors , Eingebettetes System , Mikroprozessor , COMPUTERS ; Hardware ; Personal Computers ; PCs , COMPUTERS ; Hardware ; Personal Computers ; Macintosh , Systèmes enfouis (Informatique) , Electronic books },

year = {2010},

abstract = {Includes bibliographical references and index. - Description based on print version record},

abstract = {Front Cover; Half Title Page; The Definitive Guide to the ARM Cortex-M3; Copyright Page; Table of Contents; Foreword; Foreword; Preface; Acknowledgments; Conventions; Terms and Abbreviations; Chapter 1. Introduction; 1.1 What Is the ARM Cortex-M3 Processor?; 1.2 Background of ARM and ARM Architecture; 1.2.1 A Brief History; 1.2.2 Architecture Versions; 1.2.3 Processor Naming; 1.3 Instruction Set Development; 1.4 The Thumb-2 Technology and Instruction Set Architecture; 1.5 Cortex-M3 Processor Applications; 1.6 Organization of This Book; 1.7 Further Reading; Chapter 2. Overview of the Cortex-M3},

abstract = {2.1 Fundamentals2.2 Registers; 2.2.1 R0-R12: General-Purpose Registers; 2.2.2 R13: Stack Pointers; 2.2.3 R14: The Link Register; 2.2.4 R15: The Program Counter; 2.2.5 Special Registers; 2.3 Operation Modes; 2.4 The Built-In Nested Vectored Interrupt Controller; 2.4.1 Nested Interrupt Support; 2.4.2 Vectored Interrupt Support; 2.4.3 Dynamic Priority Changes Support; 2.4.4 Reduction of Interrupt Latency; 2.4.5 Interrupt Masking; 2.5 The Memory Map; 2.6 The Bus Interface; 2.7 The MPU; 2.8 The Instruction Set; 2.9 Interrupts and Exceptions; 2.9.1 Low Power and High Energy Efficiency},

abstract = {2.10 Debugging Support2.11 Characteristics Summary; 2.11.1 High Performance; 2.11.2 Advanced Interrupt-Handling Features; 2.11.3 Low Power Consumption; 2.11.4 System Features; 2.11.5 Debug Supports; Chapter 3. Cortex-M3 Basics; 3.1 Registers; 3.1.1 General Purpose Registers R0 through R7; 3.1.2 General Purpose Registers R8 through R12; 3.1.3 Stack Pointer R13; 3.1.4 Link Register R14; 3.1.5 Program Counter R15; 3.2 Special Registers; 3.2.1 Program Status Registers; 3.2.2 PRIMASK, FAULTMASK, and BASEPRI Registers; 3.2.3 The Control Register; 3.3 Operation Mode; 3.4 Exceptions and Interrupts},

abstract = {3.5 Vector Tables3.6 Stack Memory Operations; 3.6.1 Basic Operations of the Stack; 3.6.2 Cortex-M3 Stack Implementation; 3.6.3 The Two-Stack Model in the Cortex-M3; 3.7 Reset Sequence; Chapter 4. Instruction Sets; 4.1 Assembly Basics; 4.1.1 Assembler Language: Basic Syntax; 4.1.2 Assembler Language: Use of Suffixes; 4.1.3 Assembler Language: Unified Assembler Language; 4.2 Instruction List; 4.2.1 Unsupported Instructions; 4.3 Instruction Descriptions; 4.3.1 Assembler Language: Moving Data; 4.3.2 LDR and ADR Pseudo-Instructions; 4.3.3 Assembler Language: Processing Data},

abstract = {4.3.4 Assembler Language: Call and Unconditional Branch4.3.5 Assembler Language: Decisions and Conditional Branches; 4.3.6 Assembler Language: Combined Compare and Conditional Branch; 4.3.7 Assembler Language: Instruction Barrier and Memory Barrier Instructions; 4.3.8 Assembly Language: Saturation Operations; 4.4 Several Useful Instructions in the Cortex-M3; 4.4.1 MSR and MRS; 4.4.2 More on the IF-THEN Instruction Block; 4.4.3 SDIV and UDIV; 4.4.4 REV, REVH, and REVSH; 4.4.5 Reverse Bit; 4.4.6 SXTB, SXTH, UXTB, and UXTH; 4.4.7 Bit Field Clear and Bit Field Insert; 4.4.8 UBFX and SBFX},

abstract = {4.4.9 LDRD and STRD},

abstract = {Introduction; Overview of the Cortex-M3; Cortex-M3 Basics; Instruction Sets; Memory Systems; Cortex-M3 Implementation Overview; Exceptions; The NVIC and Interrupt Control; Interrupt Behavior; Cortex-M3 Programming; Exception Programming; Advanced Programming Features and System Behavior; The Memory Protection Unit; Other Cortex-M3 Features; Debug Architecture; Debugging Components; Getting Started with Cortex-M3 Processor; Porting Applications from the ARM7 to the Cortex-M3; Starting Cortex-M3 Development Using the GNU Tool Chain; Getting Started with the KEIL RealView Microcontroller Development Kit; Programming the Cortex-M3 Microcontrollers in NI LabVIEW.},

address = { Burlington, MA },

url = { http://slubdd.de/katalog?TN_libero_mab2 }