Skip to content

Uml For Soc Design (Hb)
Stock Photo: Cover May Be Different

Uml For Soc Design (Hb) Hardcover - 2005

by Martin G

  • New

Description

Springer, 2005. New.
New
NZ$474.53
NZ$24.96 Shipping to USA
Standard delivery: 20 to 30 days
More Shipping Options
Ships from BookVistas (Delhi, India)

Details

  • Title Uml For Soc Design (Hb)
  • Author Martin G
  • Binding Hardcover
  • Edition U. S. EDITION
  • Condition New
  • Pages 272
  • Language ENG
  • Publisher Springer
  • Date 2005
  • Features Bibliography, Illustrated, Table of Contents
  • Bookseller's Inventory # CBS-9780387257440
  • ISBN 9780387257440

About BookVistas Delhi, India

Biblio member since 2011
Seller rating: This seller has earned a 5 of 5 Stars rating from Biblio customers.

Terms of Sale:

30 day return guarantee, with full refund including shipping costs for up to 30 days after delivery if an item arrives misdescribed or damaged.

All books are new.

Additional shipping charges may be required for multi-volume sets.

Browse books from BookVistas

From the publisher

UML for SOC supplies tutorial approach to using the UML modeling language in system-on-chip design. It assembles the key contributors from DAC 2004 UML and SoC workshop, with some additional contributions to the book addede by other experts who did not present at the workshop. The selected chapters detail the latest approaches to executable UML, UML translations for FPGA synthesis and SystemC simulation, as well as UML-specific SoC methodologies. They give insights into the current state of the art, and the most recent advances in applying UML to SoC design. They also provide a representative overview of current UML activities in SoC design and give an excellent introduction to UML's application in hardware and hardware/software codesign.

About the author

Both Dr. Grant Martin and Dr. Wolfgang Mller have authored and edited successful books for Kluwer in the past, and they are internationally recognized as been experts in the Unified Modeling Language (UML) as well as System-on-Chip design