FPGAs: World Class Designs
- 1st Edition - February 18, 2009
- Latest edition
- Editor: Clive Maxfield
- Language: English
All the design and development inspiration and direction a harware engineer needs in one blockbuster book! Clive "Max" Maxfield renowned author, columnist, and editor of PL… Read more
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Description
Description
All the design and development inspiration and direction a harware engineer needs in one blockbuster book! Clive "Max" Maxfield renowned author, columnist, and editor of PL DesignLine has selected the very best FPGA design material from the Newnes portfolio and has compiled it into this volume. The result is a book covering the gamut of FPGA design from design fundamentals to optimized layout techniques with a strong pragmatic emphasis. In addition to specific design techniques and practices, this book also discusses various approaches to solving FPGA design problems and how to successfully apply theory to actual design tasks. The material has been selected for its timelessness as well as for its relevance to contemporary FPGA design issues.
Contents
Chapter 1 Alternative FPGA Architectures
Chapter 2 Design Techniques, Rules, and Guidelines
Chapter 3 A VHDL Primer: The Essentials
Chapter 4 Modeling Memories
Chapter 5 Introduction to Synchronous State Machine Design and Analysis
Chapter 6 Embedded Processors
Chapter 7 Digital Signal Processing
Chapter 8 Basics of Embedded Audio Processing
Chapter 9 Basics of Embedded Video and Image Processing
Chapter 10 Programming Streaming FPGA Applications Using Block Diagrams In Simulink
Chapter 11 Ladder and functional block programming
Chapter 12 Timers
Contents
Chapter 1 Alternative FPGA Architectures
Chapter 2 Design Techniques, Rules, and Guidelines
Chapter 3 A VHDL Primer: The Essentials
Chapter 4 Modeling Memories
Chapter 5 Introduction to Synchronous State Machine Design and Analysis
Chapter 6 Embedded Processors
Chapter 7 Digital Signal Processing
Chapter 8 Basics of Embedded Audio Processing
Chapter 9 Basics of Embedded Video and Image Processing
Chapter 10 Programming Streaming FPGA Applications Using Block Diagrams In Simulink
Chapter 11 Ladder and functional block programming
Chapter 12 Timers
Key features
Key features
- Hand-picked content selected by Clive "Max" Maxfield, character, luminary, columnist, and author
- Proven best design practices for FPGA development, verification, and low-power
- Case histories and design examples get you off and running on your current project
Readership
Readership
Electronics Designers and Programmers; Application Engineers; Hardware Engineers; Software Engineers
Table of contents
Table of contents
Chapter 1 Alternative FPGA Architectures
1.1 A word of warning
1.2 A little background information
1.3 Antifuse versus SRAM versus …
1.4 Fine-, medium-, and coarse-grained architectures
1.5 MUX- versus LUT-based logic blocks
1.6 CLBs versus LABs versus slices
1.7 Fast carry chains
1.8 Embedded RAMs
1.9 Embedded multipliers, adders, MACs, etc.
1.10 Embedded processor cores (hard and soft)
1.11 Clock trees and clock managers
1.12 General-purpose I/O
1.13 Gigabit transceivers
1.14 Hard IP, soft IP, and firm IP
1.15 System gates versus real gates
1.16 FPGA years
Chapter 2 Design Techniques, Rules, and Guidelines
2.1 Hardware Description Languages
2.2 Top-Down Design
2.3 Synchronous Design
2.4 Floating Nodes
2.5 Bus Contention
2.6 One-Hot State Encoding
2.7 Design For Test (DFT)
2.8 Testing Redundant Logic
2.9 Initializing State Machines
2.10 Observable Nodes
2.11 Scan Techniques
2.12 Built-In Self-Test (BIST)
2.13 Signature Analysis
2.14 Summary
Chapter 3 A VHDL Primer: The Essentials
3.1 Introduction
3.2 Entity: model interface
3.3 Architecture: model behavior
3.4 Process: basic functional unit in VHDL
3.5 Basic variable types and operators
3.6 Decisions and loops
3.7 Hierarchical design
3.8 Debugging models
3.9 Basic data types
3.10 Summary
Chapter 4 Modeling Memories
4.1 Memory Arrays
4.2 Modeling Memory Functionality
4.3 VITAL_Memory Path Delays
4.4 VITAL_Memory Timing Constraints
4.5 Preloading Memories
4.6 Modeling Other Memory Types
4.7 Summary
Chapter 5 Introduction to Synchronous State Machine Design and Analysis
5.1 Introduction
5.2 Models For Sequential Machines
5.3 The Fully Documented State Diagram
5.4 The Basic Memory Cells
5.5 Introduction To Flip-Flops
5.6 Procdure For FSM (Flip-Flop) Design And The Mapping Algorithm
5.7 The D Flip-Flops: General
5.8 Flip-Flop Conversion: The T, JK Flip-Flops And Miscellaneous Flip-Flops
5.9 Latches And Flip-Flops With Serious Timing Problems: A Warning
5.10 Asynchronous Preset And Clear Overrides
5.11 Setup And Hold-Time Requirements Of Flip-Flops
5.12 Design Of Simple Synchronous State Machines With Edge-Triggered Flip-Flops: Map Conversion
5.13 Analysis Of Simple State Machines
5.14 VHDL Description Of Simple State Machines
5.15 Further Reading
Chapter 6 Embedded Processors
6.1 Introduction
6.2 A simple embedded processor
6.3 Soft core processors on an FPGA
6.4 Summary
Chapter 7 Digital Signal Processing
7.1 Overview
7.2 Basic DSP System
7.3 Essential DSP terms
7.4 DSP architectures
7.5 parallel execution in DSP Components
7.6 parallel execution in FPGA
7.7 When to Use FPGAs for DSP
7.8 FPGA DSP Design Considerations
7.9 FIR Filter Concept Example
7.10 Summary
Chapter 8 Basics of Embedded Audio Processing
8.1 Introduction
8.2 Audio Sources and Sinks
8.3 Interconnections
8.4 Dynamic Range and Precision
8.5 Audio Processing Methods
8.6 What’s Next?
Chapter 9 Basics of Embedded Video and Image Processing
9.1 Introduction
9.2 Broadcast TV—NTSC and PAL
9.3 Color Spaces
9.4 Digital Video
9.5 A Systems View of Video
9.6 Embedded Video processing Considerations
9.7 Compression/Decompression
9.8 What’s Next?
Chapter 10 Programming Streaming FPGA Applications Using Block Diagrams In Simulink
10.1 Designing High-Performance Datapaths Using Stream-Based Operators
10.2 An Image-Processing Design Driver
10.3 Specifying Control In Simulink
10.4 Component Reuse: Libraries Of Simple And Complex Subsystems
10.5 Summary
10.6 References
Chapter 11 Ladder and functional block programming
11.1 Ladder diagrams
11.2 Logic functions
11.3 Latching
11.4 Multiple outputs
11.5 Entering programs
11.6 Function blocks
11.7 Program examples
11.8 Problems
Chapter 12 Timers
12.1 Types of timers
12.2 Programming timers
12.3 Off-delay timers
12.4 Pulse timers
12.5 Programming examples
12.6 Problems
1.1 A word of warning
1.2 A little background information
1.3 Antifuse versus SRAM versus …
1.4 Fine-, medium-, and coarse-grained architectures
1.5 MUX- versus LUT-based logic blocks
1.6 CLBs versus LABs versus slices
1.7 Fast carry chains
1.8 Embedded RAMs
1.9 Embedded multipliers, adders, MACs, etc.
1.10 Embedded processor cores (hard and soft)
1.11 Clock trees and clock managers
1.12 General-purpose I/O
1.13 Gigabit transceivers
1.14 Hard IP, soft IP, and firm IP
1.15 System gates versus real gates
1.16 FPGA years
Chapter 2 Design Techniques, Rules, and Guidelines
2.1 Hardware Description Languages
2.2 Top-Down Design
2.3 Synchronous Design
2.4 Floating Nodes
2.5 Bus Contention
2.6 One-Hot State Encoding
2.7 Design For Test (DFT)
2.8 Testing Redundant Logic
2.9 Initializing State Machines
2.10 Observable Nodes
2.11 Scan Techniques
2.12 Built-In Self-Test (BIST)
2.13 Signature Analysis
2.14 Summary
Chapter 3 A VHDL Primer: The Essentials
3.1 Introduction
3.2 Entity: model interface
3.3 Architecture: model behavior
3.4 Process: basic functional unit in VHDL
3.5 Basic variable types and operators
3.6 Decisions and loops
3.7 Hierarchical design
3.8 Debugging models
3.9 Basic data types
3.10 Summary
Chapter 4 Modeling Memories
4.1 Memory Arrays
4.2 Modeling Memory Functionality
4.3 VITAL_Memory Path Delays
4.4 VITAL_Memory Timing Constraints
4.5 Preloading Memories
4.6 Modeling Other Memory Types
4.7 Summary
Chapter 5 Introduction to Synchronous State Machine Design and Analysis
5.1 Introduction
5.2 Models For Sequential Machines
5.3 The Fully Documented State Diagram
5.4 The Basic Memory Cells
5.5 Introduction To Flip-Flops
5.6 Procdure For FSM (Flip-Flop) Design And The Mapping Algorithm
5.7 The D Flip-Flops: General
5.8 Flip-Flop Conversion: The T, JK Flip-Flops And Miscellaneous Flip-Flops
5.9 Latches And Flip-Flops With Serious Timing Problems: A Warning
5.10 Asynchronous Preset And Clear Overrides
5.11 Setup And Hold-Time Requirements Of Flip-Flops
5.12 Design Of Simple Synchronous State Machines With Edge-Triggered Flip-Flops: Map Conversion
5.13 Analysis Of Simple State Machines
5.14 VHDL Description Of Simple State Machines
5.15 Further Reading
Chapter 6 Embedded Processors
6.1 Introduction
6.2 A simple embedded processor
6.3 Soft core processors on an FPGA
6.4 Summary
Chapter 7 Digital Signal Processing
7.1 Overview
7.2 Basic DSP System
7.3 Essential DSP terms
7.4 DSP architectures
7.5 parallel execution in DSP Components
7.6 parallel execution in FPGA
7.7 When to Use FPGAs for DSP
7.8 FPGA DSP Design Considerations
7.9 FIR Filter Concept Example
7.10 Summary
Chapter 8 Basics of Embedded Audio Processing
8.1 Introduction
8.2 Audio Sources and Sinks
8.3 Interconnections
8.4 Dynamic Range and Precision
8.5 Audio Processing Methods
8.6 What’s Next?
Chapter 9 Basics of Embedded Video and Image Processing
9.1 Introduction
9.2 Broadcast TV—NTSC and PAL
9.3 Color Spaces
9.4 Digital Video
9.5 A Systems View of Video
9.6 Embedded Video processing Considerations
9.7 Compression/Decompression
9.8 What’s Next?
Chapter 10 Programming Streaming FPGA Applications Using Block Diagrams In Simulink
10.1 Designing High-Performance Datapaths Using Stream-Based Operators
10.2 An Image-Processing Design Driver
10.3 Specifying Control In Simulink
10.4 Component Reuse: Libraries Of Simple And Complex Subsystems
10.5 Summary
10.6 References
Chapter 11 Ladder and functional block programming
11.1 Ladder diagrams
11.2 Logic functions
11.3 Latching
11.4 Multiple outputs
11.5 Entering programs
11.6 Function blocks
11.7 Program examples
11.8 Problems
Chapter 12 Timers
12.1 Types of timers
12.2 Programming timers
12.3 Off-delay timers
12.4 Pulse timers
12.5 Programming examples
12.6 Problems
Product details
Product details
- Edition: 1
- Latest edition
- Published: February 18, 2009
- Language: English
About the editor
About the editor
CM
Clive Maxfield
Clive "Max" Maxfield received a BS in Control Engineering from Sheffield Polytechnic, England in 1980. He began his career as a mainframe CPU designer for International Computers Limited (ICL) in Manchester, England. Max now finds himself a member of the technical staff (MTS) at Intergraph Electronics, Huntsville, Alabama. Max is the author of dozens of articles and papers appearing in magazines and at technical conferences around the world. Max's main area of interest are currently focused in the analog, digital, and mixed-signal simulation of integrated circuits and multichip modules.
Affiliations and expertise
Engineer, TechBytes, and Editor of PLDesignline.com
EDA industry consultant, EDN columnist, and Embedded Systems Guru