Dedicated digital processors [[electronic resource] ] : methods in hardware/software system design / / F. Mayer-Lindenberg |
Autore | Mayer-Lindenberg F |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, N.J., : J. Wiley, c2004 |
Descrizione fisica | 1 online resource (316 p.) |
Disciplina |
621.39/16
621.3916 |
Soggetto topico |
Microprocessors - Design and construction
Computer software |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-26941-3
9786610269419 0-470-09282-3 0-470-09284-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
DEDICATED DIGITAL PROCESSORS; Contents; Preface; 1 Digital Computer Basics; 1.1 Data Encoding; 1.1.1 Encoding Numbers; 1.1.2 Code Conversions and More Codes; 1.2 Algorithms and Algorithmic Notations; 1.2.1 Functional Composition and the Data Flow; 1.2.2 Composition by Cases and the Control Flow; 1.2.3 Alternative Algorithms; 1.3 Boolean Functions; 1.3.1 Sets of Elementary Boolean Operations; 1.3.2 Gate Complexity and Simplification of Boolean Algorithms; 1.3.3 Combined and Universal Functions; 1.4 Timing, Synchronization and Memory; 1.4.1 Processing Time and Throughput of Composite Circuits
1.4.2 Serial and Parallel Processing1.4.3 Synchronization; 1.5 Aspects of System Design; 1.5.1 Architectures for Digital Systems; 1.5.2 Application Modeling; 1.5.3 Design Metrics; 1.6 Summary; Exercises; 2 Hardware Elements; 2.1 Transistors, Gates and Flip-Flops; 2.1.1 Implementing Gates with Switches; 2.1.2 Registers and Synchronization Signals; 2.1.3 Power Consumption and Related Design Rules; 2.1.4 Pulse Generation and Interfacing; 2.2 Chip Technology; 2.2.1 Memory Bus Interface; 2.2.2 Semiconductor Memory Devices; 2.2.3 Processors and Single-Chip Systems; 2.2.4 Configurable Logic, FPGA 2.3 Chip Level and Circuit Board-Level Design2.3.1 Chip Versus Board-Level Design; 2.3.2 IP-Based Design; 2.3.3 Configurable Boards and Interconnections; 2.3.4 Testing; 2.4 Summary; Exercises; 3 Hardware Design Using VHDL; 3.1 Hardware Design Languages; 3.2 Entities and Signals; 3.3 Functional Behavior of Building Blocks; 3.4 Structural Architecture Definitions; 3.5 Timing Behavior and Simulation; 3.6 Test Benches; 3.7 Synthesis Aspects; 3.8 Summary; Exercises; 4 Operations on Numbers; 4.1 Single Bit Binary Adders and Multipliers; 4.2 Fixed Point Add, Subtract, and Compare 4.3 Add and Subtract for Redundant Codes4.4 Binary Multiplication; 4.5 Sequential Adders, Multipliers and Multiply-Add Structures; 4.6 Distributed Arithmetic; 4.7 Division and Square Root; 4.8 Floating Point Operations and Functions; 4.9 Polynomial Arithmetic; 4.10 Summary; Exercises; 5 Sequential Control Circuits; 5.1 Mealy and Moore Automata; 5.2 Scheduling, Operand Selection and the Storage Automaton; 5.3 Designing the Control Automaton; 5.4 Sequencing with Counter and Shift Register Circuits; 5.5 Implementing the Control Flow; 5.6 Synchronization; 5.7 Summary; Exercises 6 Sequential Processors6.1 Designing for ALU Efficiency; 6.1.1 Multifunction ALU Circuits; 6.1.2 Pipelining; 6.2 The Memory Subsystem; 6.2.1 Pipelined Memory Accesses, Registers, and the Von Neumann Architecture; 6.2.2 Instruction Set Architectures and Memory Requirements; 6.2.3 Caches and Virtual Memory, Soft Caching; 6.3 Simple Programmable Processor Designs; 6.3.1 CPU1 - The Basic Control Function; 6.3.2 CPU2 - An Efficient Processor for FPGA-based Systems; 6.4 Interrupt Processing and Context Switching; 6.5 Interfacing Techniques; 6.5.1 Pipelining Input and Output 6.5.2 Parallel and Serial Interfaces, Counters and Timers |
Record Nr. | UNINA-9910145770203321 |
Mayer-Lindenberg F | ||
Hoboken, N.J., : J. Wiley, c2004 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Dedicated digital processors [[electronic resource] ] : methods in hardware/software system design / / F. Mayer-Lindenberg |
Autore | Mayer-Lindenberg F |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, N.J., : J. Wiley, c2004 |
Descrizione fisica | 1 online resource (316 p.) |
Disciplina |
621.39/16
621.3916 |
Soggetto topico |
Microprocessors - Design and construction
Computer software |
ISBN |
1-280-26941-3
9786610269419 0-470-09282-3 0-470-09284-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
DEDICATED DIGITAL PROCESSORS; Contents; Preface; 1 Digital Computer Basics; 1.1 Data Encoding; 1.1.1 Encoding Numbers; 1.1.2 Code Conversions and More Codes; 1.2 Algorithms and Algorithmic Notations; 1.2.1 Functional Composition and the Data Flow; 1.2.2 Composition by Cases and the Control Flow; 1.2.3 Alternative Algorithms; 1.3 Boolean Functions; 1.3.1 Sets of Elementary Boolean Operations; 1.3.2 Gate Complexity and Simplification of Boolean Algorithms; 1.3.3 Combined and Universal Functions; 1.4 Timing, Synchronization and Memory; 1.4.1 Processing Time and Throughput of Composite Circuits
1.4.2 Serial and Parallel Processing1.4.3 Synchronization; 1.5 Aspects of System Design; 1.5.1 Architectures for Digital Systems; 1.5.2 Application Modeling; 1.5.3 Design Metrics; 1.6 Summary; Exercises; 2 Hardware Elements; 2.1 Transistors, Gates and Flip-Flops; 2.1.1 Implementing Gates with Switches; 2.1.2 Registers and Synchronization Signals; 2.1.3 Power Consumption and Related Design Rules; 2.1.4 Pulse Generation and Interfacing; 2.2 Chip Technology; 2.2.1 Memory Bus Interface; 2.2.2 Semiconductor Memory Devices; 2.2.3 Processors and Single-Chip Systems; 2.2.4 Configurable Logic, FPGA 2.3 Chip Level and Circuit Board-Level Design2.3.1 Chip Versus Board-Level Design; 2.3.2 IP-Based Design; 2.3.3 Configurable Boards and Interconnections; 2.3.4 Testing; 2.4 Summary; Exercises; 3 Hardware Design Using VHDL; 3.1 Hardware Design Languages; 3.2 Entities and Signals; 3.3 Functional Behavior of Building Blocks; 3.4 Structural Architecture Definitions; 3.5 Timing Behavior and Simulation; 3.6 Test Benches; 3.7 Synthesis Aspects; 3.8 Summary; Exercises; 4 Operations on Numbers; 4.1 Single Bit Binary Adders and Multipliers; 4.2 Fixed Point Add, Subtract, and Compare 4.3 Add and Subtract for Redundant Codes4.4 Binary Multiplication; 4.5 Sequential Adders, Multipliers and Multiply-Add Structures; 4.6 Distributed Arithmetic; 4.7 Division and Square Root; 4.8 Floating Point Operations and Functions; 4.9 Polynomial Arithmetic; 4.10 Summary; Exercises; 5 Sequential Control Circuits; 5.1 Mealy and Moore Automata; 5.2 Scheduling, Operand Selection and the Storage Automaton; 5.3 Designing the Control Automaton; 5.4 Sequencing with Counter and Shift Register Circuits; 5.5 Implementing the Control Flow; 5.6 Synchronization; 5.7 Summary; Exercises 6 Sequential Processors6.1 Designing for ALU Efficiency; 6.1.1 Multifunction ALU Circuits; 6.1.2 Pipelining; 6.2 The Memory Subsystem; 6.2.1 Pipelined Memory Accesses, Registers, and the Von Neumann Architecture; 6.2.2 Instruction Set Architectures and Memory Requirements; 6.2.3 Caches and Virtual Memory, Soft Caching; 6.3 Simple Programmable Processor Designs; 6.3.1 CPU1 - The Basic Control Function; 6.3.2 CPU2 - An Efficient Processor for FPGA-based Systems; 6.4 Interrupt Processing and Context Switching; 6.5 Interfacing Techniques; 6.5.1 Pipelining Input and Output 6.5.2 Parallel and Serial Interfaces, Counters and Timers |
Record Nr. | UNINA-9910829873703321 |
Mayer-Lindenberg F | ||
Hoboken, N.J., : J. Wiley, c2004 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Dedicated digital processors : methods in hardware/software system design / / F. Mayer-Lindenberg |
Autore | Mayer-Lindenberg F |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, N.J., : J. Wiley, c2004 |
Descrizione fisica | 1 online resource (316 p.) |
Disciplina | 621.39/16 |
Soggetto topico |
Microprocessors - Design and construction
Computer software |
ISBN |
1-280-26941-3
9786610269419 0-470-09282-3 0-470-09284-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
DEDICATED DIGITAL PROCESSORS; Contents; Preface; 1 Digital Computer Basics; 1.1 Data Encoding; 1.1.1 Encoding Numbers; 1.1.2 Code Conversions and More Codes; 1.2 Algorithms and Algorithmic Notations; 1.2.1 Functional Composition and the Data Flow; 1.2.2 Composition by Cases and the Control Flow; 1.2.3 Alternative Algorithms; 1.3 Boolean Functions; 1.3.1 Sets of Elementary Boolean Operations; 1.3.2 Gate Complexity and Simplification of Boolean Algorithms; 1.3.3 Combined and Universal Functions; 1.4 Timing, Synchronization and Memory; 1.4.1 Processing Time and Throughput of Composite Circuits
1.4.2 Serial and Parallel Processing1.4.3 Synchronization; 1.5 Aspects of System Design; 1.5.1 Architectures for Digital Systems; 1.5.2 Application Modeling; 1.5.3 Design Metrics; 1.6 Summary; Exercises; 2 Hardware Elements; 2.1 Transistors, Gates and Flip-Flops; 2.1.1 Implementing Gates with Switches; 2.1.2 Registers and Synchronization Signals; 2.1.3 Power Consumption and Related Design Rules; 2.1.4 Pulse Generation and Interfacing; 2.2 Chip Technology; 2.2.1 Memory Bus Interface; 2.2.2 Semiconductor Memory Devices; 2.2.3 Processors and Single-Chip Systems; 2.2.4 Configurable Logic, FPGA 2.3 Chip Level and Circuit Board-Level Design2.3.1 Chip Versus Board-Level Design; 2.3.2 IP-Based Design; 2.3.3 Configurable Boards and Interconnections; 2.3.4 Testing; 2.4 Summary; Exercises; 3 Hardware Design Using VHDL; 3.1 Hardware Design Languages; 3.2 Entities and Signals; 3.3 Functional Behavior of Building Blocks; 3.4 Structural Architecture Definitions; 3.5 Timing Behavior and Simulation; 3.6 Test Benches; 3.7 Synthesis Aspects; 3.8 Summary; Exercises; 4 Operations on Numbers; 4.1 Single Bit Binary Adders and Multipliers; 4.2 Fixed Point Add, Subtract, and Compare 4.3 Add and Subtract for Redundant Codes4.4 Binary Multiplication; 4.5 Sequential Adders, Multipliers and Multiply-Add Structures; 4.6 Distributed Arithmetic; 4.7 Division and Square Root; 4.8 Floating Point Operations and Functions; 4.9 Polynomial Arithmetic; 4.10 Summary; Exercises; 5 Sequential Control Circuits; 5.1 Mealy and Moore Automata; 5.2 Scheduling, Operand Selection and the Storage Automaton; 5.3 Designing the Control Automaton; 5.4 Sequencing with Counter and Shift Register Circuits; 5.5 Implementing the Control Flow; 5.6 Synchronization; 5.7 Summary; Exercises 6 Sequential Processors6.1 Designing for ALU Efficiency; 6.1.1 Multifunction ALU Circuits; 6.1.2 Pipelining; 6.2 The Memory Subsystem; 6.2.1 Pipelined Memory Accesses, Registers, and the Von Neumann Architecture; 6.2.2 Instruction Set Architectures and Memory Requirements; 6.2.3 Caches and Virtual Memory, Soft Caching; 6.3 Simple Programmable Processor Designs; 6.3.1 CPU1 - The Basic Control Function; 6.3.2 CPU2 - An Efficient Processor for FPGA-based Systems; 6.4 Interrupt Processing and Context Switching; 6.5 Interfacing Techniques; 6.5.1 Pipelining Input and Output 6.5.2 Parallel and Serial Interfaces, Counters and Timers |
Record Nr. | UNINA-9910876980503321 |
Mayer-Lindenberg F | ||
Hoboken, N.J., : J. Wiley, c2004 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Designing embedded systems with PIC microcontrollers [[electronic resource] ] : principles and applications / / Tim Wilmshurst |
Autore | Wilmshurst Tim |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Amsterdam, : Newnes, 2010 |
Descrizione fisica | 1 online resource (693 p.) |
Disciplina | 004.16 |
Soggetto topico |
Embedded computer systems - Design and construction
Microprocessors - Design and construction |
Soggetto genere / forma | Electronic books. |
ISBN |
1-282-66610-X
9786612666100 0-08-096184-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | section 1. Getting started with embedded systems -- section 2. Minimum systems and the PIC 16F84A -- section 3. Larger systems and the PIC 16F873A -- section 4. Smarter systems and the PIC 18F2420 -- section 5. Where can we go from here? : distributed systems, bigger systems. |
Record Nr. | UNINA-9910456671103321 |
Wilmshurst Tim | ||
Amsterdam, : Newnes, 2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Designing embedded systems with PIC microcontrollers [[electronic resource] ] : principles and applications / / Tim Wilmshurst |
Autore | Wilmshurst Tim |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Amsterdam, : Newnes, 2010 |
Descrizione fisica | 1 online resource (693 p.) |
Disciplina | 004.16 |
Soggetto topico |
Embedded computer systems - Design and construction
Microprocessors - Design and construction |
ISBN |
1-282-66610-X
9786612666100 0-08-096184-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | section 1. Getting started with embedded systems -- section 2. Minimum systems and the PIC 16F84A -- section 3. Larger systems and the PIC 16F873A -- section 4. Smarter systems and the PIC 18F2420 -- section 5. Where can we go from here? : distributed systems, bigger systems. |
Record Nr. | UNINA-9910780943603321 |
Wilmshurst Tim | ||
Amsterdam, : Newnes, 2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Designing embedded systems with PIC microcontrollers : principles and applications / / Tim Wilmshurst |
Autore | Wilmshurst Tim |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Amsterdam, : Newnes, 2010 |
Descrizione fisica | 1 online resource (693 p.) |
Disciplina | 004.16 |
Soggetto topico |
Embedded computer systems - Design and construction
Microprocessors - Design and construction |
ISBN |
1-282-66610-X
9786612666100 0-08-096184-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | section 1. Getting started with embedded systems -- section 2. Minimum systems and the PIC 16F84A -- section 3. Larger systems and the PIC 16F873A -- section 4. Smarter systems and the PIC 18F2420 -- section 5. Where can we go from here? : distributed systems, bigger systems. |
Record Nr. | UNINA-9910823454503321 |
Wilmshurst Tim | ||
Amsterdam, : Newnes, 2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Designing embedded systems with PIC microcontrollers [[electronic resource] ] : principles and applications / / Tim Wilmshurst |
Autore | Wilmshurst Tim |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston ; ; London, : Newnes, 2007 |
Descrizione fisica | 1 online resource (583 p.) |
Disciplina | 004.16 |
Soggetto topico |
Embedded computer systems - Design and construction
Microprocessors - Design and construction |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-74740-4
9786610747405 0-08-046814-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front cover; Title page; Copyright page; Table of contents; Introduction; Acknowledgements; Section 1 Getting Started with Embedded Systems; 1 Tiny computers, hidden control; 1.1 The main idea - embedded systems in today's world; 1.1.1 What is an embedded system?; 1.2 Some example embedded systems; 1.2.1 The domestic refrigerator; 1.2.2 A car door mechanism; 1.2.3 The electronic 'ping-pong'; 1.2.4 The Derbot Autonomous Guided Vehicle; 1.3 Some computer essentials; 1.3.1 Elements of a computer; 1.3.2 Instruction sets - CISC and RISC; 1.3.3 Memory types; 1.3.4 Organising memory
1.4 Microprocessors and microcontrollers 1.4.1 Microprocessors; 1.4.2 Microcontrollers; 1.4.3 Microcontroller families; 1.4.4 Microcontroller packaging and appearance; 1.5 Microchip and the PIC microcontroller; 1.5.1 Background; 1.5.2 PIC microcontrollers today; 1.6 An introduction to PIC microcontrollers using the 12 Series; 1.6.1 The 12F508 architecture; 1.7 What others do - a Freescale microcontroller; Summary; References; Section 2 Minimum Systems and the PIC® 16F84A; 2 Introducing the PIC® 16 Series and the 16F84A; 2.1 The main idea - the PIC 16 Series family; 2.1.1 A family overview 2.1.2 The 16F84A 2.1.3 A caution on upgrades; 2.2 An architecture overview of the 16F84A; 2.2.1 The Status register; 2.3 A review of memory technologies; 2.3.1 Static RAM (SRAM); 2.3.2 EPROM (Erasable Programmable Read-Only Memory); 2.3.3 EEPROM (Electrically Erasable Programmable Read-Only Memory); 2.3.4 Flash; 2.4 The 16F84A memory; 2.4.1 The 16F84A program memory; 2.4.2 The 16F84A data and Special Function Register memory ('RAM'); 2.4.3 The Configuration Word; 2.4.4 EEPROM; 2.5 Some issues of timing; 2.5.1 Clock oscillator and instruction cycle; 2.5.2 Pipelining; 2.6 Power-up and Reset 2.7 What others do - the Atmel AT89C2051 2.8 Taking things further - the 16F84A on-chip reset circuit; Summary; References; 3 Parallel ports, power supply and the clock oscillator; 3.1 The main idea - parallel input/output; 3.2 The technical challenge of parallel input/output; 3.2.1 Building a parallel interface; 3.2.2 Port electrical characteristics; 3.2.3 Some special cases; 3.3 Connecting to the parallel port; 3.3.1 Switches; 3.3.2 Light-emitting diodes; 3.4 The PIC 16F84A parallel ports; 3.4.1 The 16F84A Port B; 3.4.2 The 16F84A Port A; 3.4.3 Port output characteristics 3.5 The clock oscillator 3.5.1 Clock oscillator types; 3.5.2 Practical oscillator considerations; 3.5.3 The 16F84A clock oscillator; 3.6 Power supply; 3.6.1 The need for power, and its sources; 3.6.2 16F84A operating conditions; 3.7 The hardware design of the electronic ping-pong; Summary; References; 4 Starting to program - an introduction to Assembler; 4.1 The main idea - what programs do and how we develop them; 4.1.1 The problem of programming and the Assembler compromise; 4.1.2 The process of writing in Assembler; 4.1.3 The program development process 4.2 The PIC 16 Series instruction set, with a little more on the ALU |
Record Nr. | UNINA-9910457953403321 |
Wilmshurst Tim | ||
Amsterdam ; ; Boston ; ; London, : Newnes, 2007 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Designing embedded systems with PIC microcontrollers [[electronic resource] ] : principles and applications / / Tim Wilmshurst |
Autore | Wilmshurst Tim |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston ; ; London, : Newnes, 2007 |
Descrizione fisica | 1 online resource (583 p.) |
Disciplina | 004.16 |
Soggetto topico |
Embedded computer systems - Design and construction
Microprocessors - Design and construction |
ISBN |
1-280-74740-4
9786610747405 0-08-046814-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front cover; Title page; Copyright page; Table of contents; Introduction; Acknowledgements; Section 1 Getting Started with Embedded Systems; 1 Tiny computers, hidden control; 1.1 The main idea - embedded systems in today's world; 1.1.1 What is an embedded system?; 1.2 Some example embedded systems; 1.2.1 The domestic refrigerator; 1.2.2 A car door mechanism; 1.2.3 The electronic 'ping-pong'; 1.2.4 The Derbot Autonomous Guided Vehicle; 1.3 Some computer essentials; 1.3.1 Elements of a computer; 1.3.2 Instruction sets - CISC and RISC; 1.3.3 Memory types; 1.3.4 Organising memory
1.4 Microprocessors and microcontrollers 1.4.1 Microprocessors; 1.4.2 Microcontrollers; 1.4.3 Microcontroller families; 1.4.4 Microcontroller packaging and appearance; 1.5 Microchip and the PIC microcontroller; 1.5.1 Background; 1.5.2 PIC microcontrollers today; 1.6 An introduction to PIC microcontrollers using the 12 Series; 1.6.1 The 12F508 architecture; 1.7 What others do - a Freescale microcontroller; Summary; References; Section 2 Minimum Systems and the PIC® 16F84A; 2 Introducing the PIC® 16 Series and the 16F84A; 2.1 The main idea - the PIC 16 Series family; 2.1.1 A family overview 2.1.2 The 16F84A 2.1.3 A caution on upgrades; 2.2 An architecture overview of the 16F84A; 2.2.1 The Status register; 2.3 A review of memory technologies; 2.3.1 Static RAM (SRAM); 2.3.2 EPROM (Erasable Programmable Read-Only Memory); 2.3.3 EEPROM (Electrically Erasable Programmable Read-Only Memory); 2.3.4 Flash; 2.4 The 16F84A memory; 2.4.1 The 16F84A program memory; 2.4.2 The 16F84A data and Special Function Register memory ('RAM'); 2.4.3 The Configuration Word; 2.4.4 EEPROM; 2.5 Some issues of timing; 2.5.1 Clock oscillator and instruction cycle; 2.5.2 Pipelining; 2.6 Power-up and Reset 2.7 What others do - the Atmel AT89C2051 2.8 Taking things further - the 16F84A on-chip reset circuit; Summary; References; 3 Parallel ports, power supply and the clock oscillator; 3.1 The main idea - parallel input/output; 3.2 The technical challenge of parallel input/output; 3.2.1 Building a parallel interface; 3.2.2 Port electrical characteristics; 3.2.3 Some special cases; 3.3 Connecting to the parallel port; 3.3.1 Switches; 3.3.2 Light-emitting diodes; 3.4 The PIC 16F84A parallel ports; 3.4.1 The 16F84A Port B; 3.4.2 The 16F84A Port A; 3.4.3 Port output characteristics 3.5 The clock oscillator 3.5.1 Clock oscillator types; 3.5.2 Practical oscillator considerations; 3.5.3 The 16F84A clock oscillator; 3.6 Power supply; 3.6.1 The need for power, and its sources; 3.6.2 16F84A operating conditions; 3.7 The hardware design of the electronic ping-pong; Summary; References; 4 Starting to program - an introduction to Assembler; 4.1 The main idea - what programs do and how we develop them; 4.1.1 The problem of programming and the Assembler compromise; 4.1.2 The process of writing in Assembler; 4.1.3 The program development process 4.2 The PIC 16 Series instruction set, with a little more on the ALU |
Record Nr. | UNINA-9910784459903321 |
Wilmshurst Tim | ||
Amsterdam ; ; Boston ; ; London, : Newnes, 2007 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Designing embedded systems with PIC microcontrollers : principles and applications / / Tim Wilmshurst |
Autore | Wilmshurst Tim |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston ; ; London, : Newnes, 2007 |
Descrizione fisica | 1 online resource (583 p.) |
Disciplina | 004.16 |
Soggetto topico |
Embedded computer systems - Design and construction
Microprocessors - Design and construction |
ISBN |
1-280-74740-4
9786610747405 0-08-046814-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front cover; Title page; Copyright page; Table of contents; Introduction; Acknowledgements; Section 1 Getting Started with Embedded Systems; 1 Tiny computers, hidden control; 1.1 The main idea - embedded systems in today's world; 1.1.1 What is an embedded system?; 1.2 Some example embedded systems; 1.2.1 The domestic refrigerator; 1.2.2 A car door mechanism; 1.2.3 The electronic 'ping-pong'; 1.2.4 The Derbot Autonomous Guided Vehicle; 1.3 Some computer essentials; 1.3.1 Elements of a computer; 1.3.2 Instruction sets - CISC and RISC; 1.3.3 Memory types; 1.3.4 Organising memory
1.4 Microprocessors and microcontrollers 1.4.1 Microprocessors; 1.4.2 Microcontrollers; 1.4.3 Microcontroller families; 1.4.4 Microcontroller packaging and appearance; 1.5 Microchip and the PIC microcontroller; 1.5.1 Background; 1.5.2 PIC microcontrollers today; 1.6 An introduction to PIC microcontrollers using the 12 Series; 1.6.1 The 12F508 architecture; 1.7 What others do - a Freescale microcontroller; Summary; References; Section 2 Minimum Systems and the PIC® 16F84A; 2 Introducing the PIC® 16 Series and the 16F84A; 2.1 The main idea - the PIC 16 Series family; 2.1.1 A family overview 2.1.2 The 16F84A 2.1.3 A caution on upgrades; 2.2 An architecture overview of the 16F84A; 2.2.1 The Status register; 2.3 A review of memory technologies; 2.3.1 Static RAM (SRAM); 2.3.2 EPROM (Erasable Programmable Read-Only Memory); 2.3.3 EEPROM (Electrically Erasable Programmable Read-Only Memory); 2.3.4 Flash; 2.4 The 16F84A memory; 2.4.1 The 16F84A program memory; 2.4.2 The 16F84A data and Special Function Register memory ('RAM'); 2.4.3 The Configuration Word; 2.4.4 EEPROM; 2.5 Some issues of timing; 2.5.1 Clock oscillator and instruction cycle; 2.5.2 Pipelining; 2.6 Power-up and Reset 2.7 What others do - the Atmel AT89C2051 2.8 Taking things further - the 16F84A on-chip reset circuit; Summary; References; 3 Parallel ports, power supply and the clock oscillator; 3.1 The main idea - parallel input/output; 3.2 The technical challenge of parallel input/output; 3.2.1 Building a parallel interface; 3.2.2 Port electrical characteristics; 3.2.3 Some special cases; 3.3 Connecting to the parallel port; 3.3.1 Switches; 3.3.2 Light-emitting diodes; 3.4 The PIC 16F84A parallel ports; 3.4.1 The 16F84A Port B; 3.4.2 The 16F84A Port A; 3.4.3 Port output characteristics 3.5 The clock oscillator 3.5.1 Clock oscillator types; 3.5.2 Practical oscillator considerations; 3.5.3 The 16F84A clock oscillator; 3.6 Power supply; 3.6.1 The need for power, and its sources; 3.6.2 16F84A operating conditions; 3.7 The hardware design of the electronic ping-pong; Summary; References; 4 Starting to program - an introduction to Assembler; 4.1 The main idea - what programs do and how we develop them; 4.1.1 The problem of programming and the Assembler compromise; 4.1.2 The process of writing in Assembler; 4.1.3 The program development process 4.2 The PIC 16 Series instruction set, with a little more on the ALU |
Record Nr. | UNINA-9910811285803321 |
Wilmshurst Tim | ||
Amsterdam ; ; Boston ; ; London, : Newnes, 2007 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Introduction to microprocessor-based systems design / / Giuliano Donzellini, Andrea Mattia Garavagno, and Luca Oneto |
Autore | Donzellini Giuliano |
Pubbl/distr/stampa | Cham, Switzerland : , : Springer International Publishing, , [2021] |
Descrizione fisica | 1 online resource (632 pages) |
Disciplina | 621.3916 |
Soggetto topico |
Microprocessors - Computer simulation
Microprocessors - Design and construction |
ISBN | 3-030-87344-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Intro -- Foreword of Prof. Donatella Sciuto -- Preface of the Authors -- Digital Contents of the Book -- Contents -- 1 Introduction to programmable computing networks -- 1.1 A general introduction to microprocessors -- 1.1.1 A brief history of microprocessors -- 1.1.2 Types of microcomputers -- 1.1.3 Microcomputers and systems -- 1.1.4 The basic structure of a generic computer -- 1.1.5 The common bus connection -- 1.2 Design of a programmable computing network -- 1.2.1 The design specification: a dedicated computing network -- 1.2.2 Counter and ROM memory based sequencer -- 1.2.3 Extending computing possibilities -- 1.2.4 ALU-based computing networks -- 1.2.5 The "instructions -- 1.2.6 "Program", "programming" and other important terms -- 1.3 Sequencing, microinstructions and microprograms -- 1.3.1 A more compact sequencer -- 1.3.2 The microprogrammed sequencer -- 1.3.3 The microprogrammed sequencer and the computing network -- 1.3.4 How it works -- 1.3.5 Executing a sequence of instructions -- 1.3.6 Executing the first instruction during start up -- 1.3.7 The "instruction pipeline -- 1.3.8 Defining microprograms -- 1.3.9 Rewriting the program of the average of four operands -- 1.4 Jumps, loops and decisions -- 1.4.1 Loops and jump instructions -- 1.4.2 Decisions and conditional jump instructions -- 1.4.3 The FLAG register -- 1.4.4 Controlling jump conditions -- 1.4.5 Example: How to use conditional jumps -- 1.5 Input and output ports -- 1.5.1 Input ports -- 1.5.2 Output ports -- 1.5.3 How to use ports -- 1.6 Constants, variables and read/write memory -- 1.6.1 Constants -- 1.6.2 Immediate addressing instructions -- 1.6.3 Variables -- 1.6.4 Read/write memory (RAM) -- 1.6.5 RAM read/write instructions -- 1.6.6 The RAM and the processor -- 1.6.7 Instructions with direct addressing -- 1.6.8 Use of the Mp8E network: examples.
1.6.9 Final considerations on the processor developed here -- 1.7 Exercises -- 1.7.1 Dedicated computing networks -- 1.7.2 Programmable computing networks -- 1.7.3 Microprogramming new instructions -- 1.8 Solutions -- 1.8.1 Dedicated computing networks -- 1.8.2 Programmable computing networks -- 1.8.3 Microprogramming new instructions -- 2 A system based on the DMC8 microprocessor -- 2.1 The DMC8 microprocessor -- 2.1.1 The internal architecture of the DMC8 processor -- 2.1.2 Memory system structure -- 2.1.3 Bus parts and RAM and ROM memory management -- 2.1.4 Input/output ports -- 2.1.5 DMC8 connection lines -- 2.1.6 DMC8 processor programming model -- 2.1.7 The internal elements of DMC8 processor architecture -- 2.1.8 The sequencer and instruction execution -- 2.1.9 An initial example of programming -- 2.1.10 An example of instruction execution -- 2.2 Bus signals and timing -- 2.2.1 The clock, synchronization and initialization of the system -- 2.2.2 The physical behavior of the bus -- 2.2.3 Clock cycles, machine cycles and instruction cycles -- 2.2.4 The fetch cycle -- 2.2.5 Read/write memory access cycles -- 2.2.6 Input/output access cycles -- 2.2.7 Inactive cycles -- 2.3 Input/output and memory subsystems -- 2.3.1 Memory subsystems -- 2.3.2 The Input/Output subsystem -- 2.4 Introduction to Deeds-McE -- 2.4.1 The microcomputer components of the Deeds-DcS -- 2.4.2 Developing a program -- 2.4.3 Configuring the microcomputer component -- 2.5 Exercises -- 2.5.1 Memory systems -- 2.5.2 Parallel input/output ports -- 2.6 Solutions -- 2.6.1 Memory systems -- 2.6.2 Parallel input/output ports -- 3 Programming the DMC8 -- 3.1 Introduction to assembly language programming -- 3.1.1 Programming languages -- 3.1.2 DMC8 assembly language -- 3.1.3 Constants and variables -- 3.1.4 The EQU directive -- 3.1.5 The ORG directive -- 3.1.6 The DB and DW directives. 3.2 Addressing modes -- 3.2.1 IMMEDIATE addressing mode (8-bit data) -- 3.2.2 EXTENDED IMMEDIATE addressing mode (16-bit data) -- 3.2.3 DIRECT addressing mode -- 3.2.4 REGISTER INDIRECT addressing mode -- 3.2.5 INDEXED INDIRECT addressing mode -- 3.2.6 REGISTER addressing mode -- 3.2.7 IMPLIED addressing mode -- 3.2.8 BIT addressing mode -- 3.2.9 MODIFIED addressing mode -- 3.3 Types of instructions -- 3.3.1 Data transfer instructions -- 3.3.2 Arithmetic and logic instructions -- 3.3.3 Rotate and shift instructions -- 3.3.4 Bit manipulation instructions -- 3.3.5 Jump instructions -- 3.3.6 CPU control instructions -- 3.3.7 Input/output instructions -- 3.3.8 Subprogram call and return instructions -- 3.4 Subprograms and the Stack area -- 3.4.1 The Stack and the Stack Pointer -- 3.4.2 Subprograms and call and return instructions -- 3.5 Programming examples -- 3.5.1 Emulation of combinational logic -- 3.5.2 Calculating a polynomial -- 3.5.3 Timers -- 3.5.4 Finite state machines -- 3.6 Exercises -- 3.6.1 Emulation of digital components -- 3.6.2 Arithmetic functions -- 3.6.3 Reusable modules and functions -- 3.7 Solutions -- 3.7.1 Emulation of digital components -- 3.7.2 Arithmetic functions -- 3.7.3 Reusable modules and functions -- 4 Interfacing with external devices -- 4.1 Managing communication with external devices -- 4.1.1 The unidirectional handshake -- 4.1.2 The bidirectional handshake -- 4.1.3 More complex handshake types -- 4.2 Hardware-supported handshake -- 4.2.1 Example of a parallel interface with hardware handshake -- 4.3 Polling -- 4.4 Interrupt techniques -- 4.4.1 Enabling and disabling interrupts -- 4.4.2 Interrupt mechanisms in detail -- 4.4.3 Example of an interface with an interrupt request -- 4.5 Using vectored interrupts -- 4.5.1 Considerations on recognition and priority -- 4.5.2 Extending to a higher number of devices. 4.5.3 Example of handling vectored interrupts -- 4.6 Interrupt timers -- 4.6.1 A specialized timer -- 4.6.2 Example of a timer interrupt: blinking lights -- 4.6.3 Timers and concurrent program execution -- 4.7 Examples of programming and interfacing -- 4.7.1 Pulse generator (at system reset) -- 4.7.2 Finite State Machines -- 4.7.3 Sinusoidal waveform generator -- 4.7.4 Dual sinusoidal waveform generator -- 4.7.5 Object counters -- 4.7.6 Sensor evaluation in parallel -- 4.7.7 Push-button interface for a video game -- 4.7.8 Asynchronous serial communication -- 4.8 Exercises -- 4.8.1 Interrupt techniques -- 4.9 Solutions -- 4.9.1 Interrupt techniques -- 5 Microprocessor systems on FPGA -- 5.1 Introduction to FPGAs -- 5.1.1 Creation of prototypes with FPGA -- 5.1.2 Some examples of FPGA boards -- 5.2 The architecture of FPGA components -- 5.2.1 Logic blocks -- 5.2.2 JTAG programming -- 5.2.3 Devices for programming FPGAs -- 5.3 FPGA development tools -- 5.4 The FPGA boards used in the examples -- 5.4.1 The DE2 board -- 5.4.2 The DE0-CV board -- 5.4.3 The EP2C5 board -- 5.5 Microprocessor system prototypes on FPGA -- 5.5.1 The steps to take -- 5.5.2 A system to implement on FPGA: An example -- 5.5.3 Implementing the network on an FPGA board -- 5.5.4 Settings for the DE2 board -- 5.5.5 Settings for the DE0-CV board -- 5.5.6 Settings for the EP2C5 board -- 5.5.7 Converting the Deeds project into VHDL -- 5.5.8 Programming the FPGA board -- 5.6 Project examples -- 5.6.1 Light dimmer -- 5.6.2 LED gadget -- 5.6.3 Special sound effects -- 5.6.4 Music box -- 5.6.5 Stepper motor control -- 5.6.6 Using a liquid crystal display (LCD) -- 5.6.7 LCD stopwatch -- A Memories and busses -- A.1 ROM memory -- A.1.1 A bit of history -- A.1.2 Operating principle -- A.1.3 Internal architecture -- A.2 RAM memory -- A.2.1 Operating principle -- A.2.2 Internal architecture. A.3 Bidirectional bus connections -- A.3.1 Tri-state buffers -- A.3.2 Tri-state buffers and busses -- A.3.3 Tri-state memories -- B Programmable computing networks: Schematics and tables -- B.1 The Mp8A computing network -- B.1.1 Table of instructions -- B.1.2 The schematic of the Mp8A computing network -- B.2 The Mp8B computing network -- B.2.1 Table of instructions and the correlated microprograms -- B.2.2 The schematic of the Mp8B computing network -- B.3 The Mp8C computing network -- B.3.1 Table of instructions and the correlated microprograms -- B.3.2 The schematic of the Mp8C computing network -- B.4 The Mp8D computing network -- B.4.1 Table of instructions and the correlated microprograms -- B.4.2 The schematic of the Mp8D computing network -- B.5 The Mp8E computing network -- B.5.1 Table of instructions and the correlated microprograms -- B.5.2 The schematic of the Mp8E computing network -- C DMC8 instruction set tables -- C.1 Data transfer instructions (8-bit) -- C.2 Data transfer instructions (16-bit) -- C.3 Arithmetic and logic instructions (8-bit) -- C.4 Arithmetic instructions (16-bit) -- C.5 Rotate and shift instructions -- C.6 Bit manipulation instructions -- C.7 Jump instructions -- C.8 Subprogram call and return instructions -- C.9 Input/output instructions -- C.10 CPU control instructions. |
Record Nr. | UNINA-9910523901703321 |
Donzellini Giuliano | ||
Cham, Switzerland : , : Springer International Publishing, , [2021] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
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