FPGA Prototyping by SystemVerilog Examples

Regular price €102.99

field programmable gate array

A01=Pong P. Chu
Age Group_Uncategorized
Age Group_Uncategorized
algorithmic state machine
ASM
Author_Pong P. Chu
automatic-update
Category1=Non-Fiction
Category=UYF
combinational circuits
control path
COP=United States
data path
DDFS
Delivery_Delivery within 10-20 working days
digital design
digital systems
direct digital frequency synthesis
embedded systems
eq_computing
eq_isMigrated=2
eq_non-fiction
finite state machine
FPGA
FSM
hardware description language
HDL
I2C
Language_English
MicroBlaze
on-screen display
OSD
PA=Available
Price_€50 to €100
PS2
PS=Active
PWM
register transfer level
RTL
sequential circuits
simulation
SoC
softlaunch
software-hardware co-design
SPI
sprite
synthesis
system on chip
SystemVerilog
Verilog
video controller
XADC 

Xilinx

Product details

  • ISBN 9781119282662
  • Weight: 1520g
  • Dimensions: 183 x 257mm
  • Publication Date: 29 Jun 2018
  • Publisher: John Wiley & Sons Inc
  • Publication City/Country: US
  • Product Form: Hardback
  • Language: English
Delivery/Collection within 10-20 working days

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A hands-on introduction to FPGA prototyping and SoC design

This is the successor edition of the popular FPGA Prototyping by Verilog Examples text. It follows the same “learning-by-doing” approach to teach the fundamentals and practices of HDL synthesis and FPGA prototyping. The new edition uses a coherent series of examples to demonstrate the process to develop sophisticated digital circuits and IP (intellectual property) cores, integrate them into an SoC (system on a chip) framework, realize the system on an FPGA prototyping board, and verify the hardware and software operation. The examples start with simple gate-level circuits, progress gradually through the RT (register transfer) level modules, and lead to a functional embedded system with custom I/O peripherals and hardware accelerators. Although it is an introductory text, the examples are developed in a rigorous manner, and the derivations follow the strict design guidelines and coding practices used for large, complex digital systems.

The book is completely updated and uses the SystemVerilog language, which “absorbs” the Verilog language. It presents the hardware design in the SoC context and introduces the hardware-software co-design concept. Instead of treating examples as isolated entities, the book integrates them into a single coherent SoC platform that allows readers to explore both hardware and software “programmability” and develop complex and interesting embedded system projects. The new edition:

  • Adds four general-purpose IP cores, which are multi-channel PWM (pulse width modulation) controller, I2C controller, SPI controller, and XADC (Xilinx analog-to-digital converter) controller.
  • Introduces a music synthesizer constructed with a DDFS (direct digital frequency synthesis) module and an ADSR (attack-decay-sustain-release) envelope generator.
  • Expands the original video controller into a complete stream based video subsystem that incorporates a video synchronization circuit, a test-pattern generator, an OSD (on-screen display) controller, a sprite generator, and a frame buffer.
  • Provides a detailed discussion on blocking and nonblocking statements and coding styles.
  • Describes basic concepts of software-hardware co-design with Xilinx MicroBlaze MCS soft-core processor.
  • Provides an overview of bus interconnect and interface circuit.
  • Presents basic embedded system software development.
  • Suggests additional modules and peripherals for interesting and challenging projects.

FPGA Prototyping by SystemVerilog Examples makes a natural companion text for introductory and advanced digital design courses and embedded system courses. It also serves as an ideal self-teaching guide for practicing engineers who wish to learn more about this emerging area of interest.

PONG P. CHU, PhD is an Associate Professor in the Department of Electrical Engineering and Computer Science at Cleveland State University, Cleveland, Ohio. He has taught undergraduate and graduate digital systems and computer architecture courses for more than two decades, and has received multiple instructional grants from the National Science Foundation.