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Assembly Language Programming = ARM ...

Mahout, Vincent.

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Assembly Language Programming = ARM Cortex-M3 /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Assembly Language Programming/ Vincent Mahout.
其他題名:	ARM Cortex-M3 /
作者:	Mahout, Vincent.
出版者:	London :Wiley, : 2012.,
面頁冊數:	1 online resource (258 p.).
內容註:	Cover; Assembly Language Programming; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. Overview of Cortex-M3 Architecture; 1.1. Assembly language versus the assembler; 1.2. The world of ARM; 1.2.1. Cortex-M3; 1.2.2. The Cortex-M3 core in STM32; Chapter 2. The Core of Cortex-M3; 2.1. Modes, privileges and states; 2.2. Registers; 2.2.1. Registers R0 to R12; 2.2.2. The R13 register, also known as SP; 2.2.3. The R14 register, also known as LR; 2.2.4. The R15 or PC register; 2.2.5. The xPSR register; Chapter 3. The Proper Use of Assembly Directives.
內容註:	3.1. The concept of the directive3.1.1. Typographic conventions and use of symbols; 3.2. Structure of a program; 3.2.1. The AREA sections; 3.3. A section of code; 3.3.1. Labels; 3.3.2. Mnemonic; 3.3.3. Operands; 3.3.4. Comments; 3.3.5. Procedure; 3.4. The data section; 3.4.1. Simple reservation; 3.4.2. Reservation with initialization; 3.4.3. Data initialization: the devil is in the details; 3.5. Is that all?; 3.5.1. Memory management directives; 3.5.2. Project management directives; 3.5.3. Various and varied directives; Chapter 4. Operands of Instructions; 4.1. The constant and renaming.
內容註:	4.2. Operands for common instructions4.2.1. Use of registers; 4.2.2. The immediate operand; 4.3. Memory access operands: addressing modes; 4.3.1. The pointer concept; 4.3.2. Addressing modes; Chapter 5. Instruction Set; 5.1. Reading guide; 5.1.1. List of possible "condition" suffixes; 5.2. Arithmetic instructions; 5.3. Logical and bit manipulation instructions; 5.4. Internal transfer instructions; 5.5. Test instructions; 5.6. Branch instructions; 5.7. Load/store instructions; 5.7.1. Simple transfers; 5.7.2. Multiple transfers; 5.7.3. Access to the system stack.
內容註:	5.8. "System" instructions and othersChapter 6. Algorithmic and Data Structures; 6.1. Flowchart versus algorithm; 6.2. Alternative structures; 6.2.1. Simple (or shortened) alternative; 6.2.2. Complete alternative; 6.2.3. Special case of the alternative; 6.2.4. Multiple choice; 6.3. Iterative structures; 6.3.1. The Repeat ... Until loop; 6.3.2. The While ... Do loop; 6.3.3. The For ... loop; 6.4. Compound conditions; 6.4.1. Alternative with AND; 6.4.2. Iteration with AND; 6.4.3. Alternative with OR; 6.4.4. Iteration with OR; 6.5. Data structure; 6.5.1. Table in one dimension.
內容註:	6.5.2. Tables in multiple dimensions6.5.3. Registration; 6.5.4. Non-dimensional table, character string; 6.5.5. Queue; 6.5.6. Stack; Chapter 7. Internal Modularity; 7.1. Detailing the concept of procedure; 7.1.1. Simple call; 7.1.2. Nested calls; 7.1.3. "Red wire" example; 7.2. Procedure arguments; 7.2.1. Usefulness of arguments; 7.2.2. Arguments by value and by reference; 7.2.3. Passing arguments by general registers; 7.2.4. Passing arguments by a stack; 7.2.5. Passing arguments by the system stack; 7.2.6. On the art of mixing; 7.3. Local data; 7.3.1. Simple reservation of local data.
標題:	Embedded computer systems. -
電子資源:	http://onlinelibrary.wiley.com/book/10.1002/9781118562123
ISBN:	9781118562123 (electronic bk.)

Assembly Language Programming = ARM Cortex-M3 /
Mahout, Vincent.

Assembly Language ProgrammingARM Cortex-M3 /[electronic resource] :Vincent Mahout. - London :Wiley,2012. - 1 online resource (258 p.). - ISTE. - ISTE..

Includes bibliographical references (p. 239) and index.

Cover; Assembly Language Programming; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. Overview of Cortex-M3 Architecture; 1.1. Assembly language versus the assembler; 1.2. The world of ARM; 1.2.1. Cortex-M3; 1.2.2. The Cortex-M3 core in STM32; Chapter 2. The Core of Cortex-M3; 2.1. Modes, privileges and states; 2.2. Registers; 2.2.1. Registers R0 to R12; 2.2.2. The R13 register, also known as SP; 2.2.3. The R14 register, also known as LR; 2.2.4. The R15 or PC register; 2.2.5. The xPSR register; Chapter 3. The Proper Use of Assembly Directives.

ARM designs the cores of microcontrollers which equip most "embedded systems" based on 32-bit processors. Cortex M3 is one of these designs, recently developed by ARM with microcontroller applications in mind. To conceive a particularly optimized piece of software (as is often the case in the world of embedded systems) it is often necessary to know how to program in an assembly language. This book explains the basics of programming in an assembly language, while being based on the architecture of Cortex M3 in detail and developing many examples. It is written for people who have never pr.

ISBN: 9781118562123 (electronic bk.)Subjects--Topical Terms:

582088
Embedded computer systems.

LC Class. No.: TK7895.E42

Dewey Class. No.: 005.13/3

Assembly Language Programming = ARM Cortex-M3 /
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505 0 $a Cover; Assembly Language Programming; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. Overview of Cortex-M3 Architecture; 1.1. Assembly language versus the assembler; 1.2. The world of ARM; 1.2.1. Cortex-M3; 1.2.2. The Cortex-M3 core in STM32; Chapter 2. The Core of Cortex-M3; 2.1. Modes, privileges and states; 2.2. Registers; 2.2.1. Registers R0 to R12; 2.2.2. The R13 register, also known as SP; 2.2.3. The R14 register, also known as LR; 2.2.4. The R15 or PC register; 2.2.5. The xPSR register; Chapter 3. The Proper Use of Assembly Directives.
505 8 $a 3.1. The concept of the directive3.1.1. Typographic conventions and use of symbols; 3.2. Structure of a program; 3.2.1. The AREA sections; 3.3. A section of code; 3.3.1. Labels; 3.3.2. Mnemonic; 3.3.3. Operands; 3.3.4. Comments; 3.3.5. Procedure; 3.4. The data section; 3.4.1. Simple reservation; 3.4.2. Reservation with initialization; 3.4.3. Data initialization: the devil is in the details; 3.5. Is that all?; 3.5.1. Memory management directives; 3.5.2. Project management directives; 3.5.3. Various and varied directives; Chapter 4. Operands of Instructions; 4.1. The constant and renaming.
505 8 $a 4.2. Operands for common instructions4.2.1. Use of registers; 4.2.2. The immediate operand; 4.3. Memory access operands: addressing modes; 4.3.1. The pointer concept; 4.3.2. Addressing modes; Chapter 5. Instruction Set; 5.1. Reading guide; 5.1.1. List of possible "condition" suffixes; 5.2. Arithmetic instructions; 5.3. Logical and bit manipulation instructions; 5.4. Internal transfer instructions; 5.5. Test instructions; 5.6. Branch instructions; 5.7. Load/store instructions; 5.7.1. Simple transfers; 5.7.2. Multiple transfers; 5.7.3. Access to the system stack.
505 8 $a 5.8. "System" instructions and othersChapter 6. Algorithmic and Data Structures; 6.1. Flowchart versus algorithm; 6.2. Alternative structures; 6.2.1. Simple (or shortened) alternative; 6.2.2. Complete alternative; 6.2.3. Special case of the alternative; 6.2.4. Multiple choice; 6.3. Iterative structures; 6.3.1. The Repeat ... Until loop; 6.3.2. The While ... Do loop; 6.3.3. The For ... loop; 6.4. Compound conditions; 6.4.1. Alternative with AND; 6.4.2. Iteration with AND; 6.4.3. Alternative with OR; 6.4.4. Iteration with OR; 6.5. Data structure; 6.5.1. Table in one dimension.
505 8 $a 6.5.2. Tables in multiple dimensions6.5.3. Registration; 6.5.4. Non-dimensional table, character string; 6.5.5. Queue; 6.5.6. Stack; Chapter 7. Internal Modularity; 7.1. Detailing the concept of procedure; 7.1.1. Simple call; 7.1.2. Nested calls; 7.1.3. "Red wire" example; 7.2. Procedure arguments; 7.2.1. Usefulness of arguments; 7.2.2. Arguments by value and by reference; 7.2.3. Passing arguments by general registers; 7.2.4. Passing arguments by a stack; 7.2.5. Passing arguments by the system stack; 7.2.6. On the art of mixing; 7.3. Local data; 7.3.1. Simple reservation of local data.
520 $a ARM designs the cores of microcontrollers which equip most "embedded systems" based on 32-bit processors. Cortex M3 is one of these designs, recently developed by ARM with microcontroller applications in mind. To conceive a particularly optimized piece of software (as is often the case in the world of embedded systems) it is often necessary to know how to program in an assembly language. This book explains the basics of programming in an assembly language, while being based on the architecture of Cortex M3 in detail and developing many examples. It is written for people who have never pr.
588 0 $a Print version record.
650 0 $a Embedded computer systems. $3 582088
650 0 $a Microprocessors. $3 517143
650 0 $a Assembly languages (Electronic computers) $v Handbooks, manuals, etc. $3 1636162
830 0 $a ISTE. $3 2084372
856 4 0 $u http://onlinelibrary.wiley.com/book/10.1002/9781118562123