{ "item_title" : "Physical Layer Multi-Core Prototyping", "item_author" : [" Maxime Pelcat", "Slaheddine Aridhi", "Jonathan Piat "], "item_description" : "Base stations developed according to the 3GPP Long Term Evolution (LTE) standard require unprecedented processing power. 3GPP LTE enables data rates beyond hundreds of Mbits/s by using advanced technologies, necessitating a highly complex LTE physical layer. The operating power of base stations is a significant cost for operators, and is currently optimized using state-of-the-art hardware solutions, such as heterogeneous distributed systems. The traditional system design method of porting algorithms to heterogeneous distributed systems based on test-and-refine methods is a manual, thus time-expensive, task.Physical Layer Multi-Core Prototyping: A Dataflow-Based Approach provides a clear introduction to the 3GPP LTE physical layer and to dataflow-based prototyping and programming. The difficulties in the process of 3GPP LTE physical layer porting are outlined, with particular focus on automatic partitioning and scheduling, load balancing and computation latencyreduction, specifically in systems based on heterogeneous multi-core Digital Signal Processors. Multi-core prototyping methods based on algorithm dataflow modeling and architecture system-level modeling are assessed with the goal of automating and optimizing algorithm porting.With its analysis of physical layer processing and proposals of parallel programming methods, which include automatic partitioning and scheduling, Physical Layer Multi-Core Prototyping: A Dataflow-Based Approach is a key resource for researchers and students. This study of LTE algorithms which require dynamic or static assignment and dynamic or static scheduling, allows readers to reassess and expand their knowledge of this vital component of LTE base station design.", "item_img_path" : "https://covers1.booksamillion.com/covers/bam/1/44/714/209/1447142098_b.jpg", "price_data" : { "retail_price" : "109.99", "online_price" : "109.99", "our_price" : "109.99", "club_price" : "109.99", "savings_pct" : "0", "savings_amt" : "0.00", "club_savings_pct" : "0", "club_savings_amt" : "0.00", "discount_pct" : "10", "store_price" : "" } }

Physical Layer Multi-Core Prototyping|Maxime Pelcat

Physical Layer Multi-Core Prototyping : A Dataflow-Based Approach for Lte Enodeb

by Maxime Pelcat and Slaheddine Aridhi and Jonathan Piat

Ship to Me

In Stock.

FREE Shipping for Club Members

In-Store Pickup

Other Available Formats

Hardcover

109.99

Paperback

$109.99

New & Used Marketplace

3 copies from $105.32

show all formats

Overview

Base stations developed according to the 3GPP Long Term Evolution (LTE) standard require unprecedented processing power. 3GPP LTE enables data rates beyond hundreds of Mbits/s by using advanced technologies, necessitating a highly complex LTE physical layer. The operating power of base stations is a significant cost for operators, and is currently optimized using state-of-the-art hardware solutions, such as heterogeneous distributed systems. The traditional system design method of porting algorithms to heterogeneous distributed systems based on test-and-refine methods is a manual, thus time-expensive, task.

Physical Layer Multi-Core Prototyping: A Dataflow-Based Approach provides a clear introduction to the 3GPP LTE physical layer and to dataflow-based prototyping and programming. The difficulties in the process of 3GPP LTE physical layer porting are outlined, with particular focus on automatic partitioning and scheduling, load balancing and computation latencyreduction, specifically in systems based on heterogeneous multi-core Digital Signal Processors. Multi-core prototyping methods based on algorithm dataflow modeling and architecture system-level modeling are assessed with the goal of automating and optimizing algorithm porting.

With its analysis of physical layer processing and proposals of parallel programming methods, which include automatic partitioning and scheduling, Physical Layer Multi-Core Prototyping: A Dataflow-Based Approach is a key resource for researchers and students. This study of LTE algorithms which require dynamic or static assignment and dynamic or static scheduling, allows readers to reassess and expand their knowledge of this vital component of LTE base station design.

This item is Non-Returnable

Customers Also Bought

Details

ISBN-13: 9781447142096
ISBN-10: 1447142098
Publisher: Springer
Publish Date: August 2012
Dimensions: 9.21 x 6.14 x 0.56 inches
Shipping Weight: 1.1 pounds
Page Count: 212

Related Categories

Favorites

What We Recommend

Featured

Shop by Category

Fiction

Nonfiction

Shop By Format

More Information

Favorites

Featured

Shop By Author A-G

Shop by Author G-L

Shop By Author L-R

Shop by Author R-Z

Shop By Series A-G

Shop By Series H-M

Shop By Series N-Z

Customers Also Liked

More in Manga

Favorites

Favorite Characters

Kids Fiction

Nonfiction

Shop by Age

Top Authors

Educational Resources

More Categories

Favorites

Popular Authors

Bestselling Series A-K

Bestselling Series L-Z

Favorites

Music

Featured

Page to Screen

Tabletop Role-playing

Fandoms

LEGO

Bestsellers

Games & Puzzles

Favorites

Best Books of 2026

#BookTok

Best Gifts for Kids

Toys & Games

For Teens & Young Adults

Pop Culture & Fandoms

Pen to Paper Shop

Faith-Based Gifts

Bargains in Fiction

Bargains in Nonfiction

Bargains in Young Adult Books

Bargains in Kids Fiction

Bargains in Kids Nonfiction

Bargains in Faith & Inspiration

Bargain Favorites

Physical Layer Multi-Core Prototyping : A Dataflow-Based Approach for Lte Enodeb

Other Available Formats

Overview

Customers Also Bought

Details

You May Also Like...

BAM Customer Reviews