Design and Implementation of Coding Algorithms for Network on Chip » książka

zaloguj się | załóż konto

topmenu

Szukaj

Książki na zamówienie

Wyszukiwanie zaawansowane

Pusty koszyk

Bezpłatna dostawa dla zamówień powyżej 20 zł

Kategorie główne

• Nauka

[2946912]

• Literatura piękna

[1852311]

więcej...

Kategorie szczegółowe BISAC

Design and Implementation of Coding Algorithms for Network on Chip

ISBN-13: 9783659314605 / Angielski / Miękka / 2014 / 192 str.

Salem Ayman

Design and Implementation of Coding Algorithms for Network on Chip

ISBN-13: 9783659314605 / Angielski / Miękka / 2014 / 192 str.

Salem Ayman

cena 322,36
(netto: 307,01 VAT: 5%)

Najniższa cena z 30 dni: 322,36

Termin realizacji zamówienia:
ok. 10-14 dni roboczych
Bez gwarancji dostawy przed świętami

Darmowa dostawa!

Bose-Chaudhuri-Hocquenghem (BCH) coding based on chip communication network is proposed to achieve low latency, high throughput and optimal Energy-Performabilty trade-off. The proposed encoding and decoding scheme is applied to SOC architecture as a practical example. The proposed design improves error correction as compared to conventional schemes. The throughput of Butterfly fat tree(BFT)/BCH architecture is increased by 50%. The design decreases the latency of the network on chip by 30%. The total power consumption required to achieve the proposed design is slightly increased by 11%. The proposed design improves Perform-ability range in comparison with conventional schemes while saving energy by 5%. BCH achieves high perform-ability (0.9) at high noise effect ( N =0.135V)-. At short wire lengths (0.05mm), BCH saves energy 5% while increasing perform-ability (0.9) and reliability."

Bose-Chaudhuri-Hocquenghem (BCH) coding based on chip communication network is proposed to achieve low latency , high throughput and optimal Energy-Performabilty trade-off. The proposed encoding and decoding scheme is applied to SOC architecture as a practical example. The proposed design improves error correction as compared to conventional schemes. The throughput of Butterfly fat tree(BFT)/BCH architecture is increased by 50%. The design decreases the latency of the network on chip by 30%. The total power consumption required to achieve the proposed design is slightly increased by 11%. The proposed design improves Perform-ability range in comparison with conventional schemes while saving energy by 5%. BCH achieves high perform-ability (0.9) at high noise effect (σN =0.135V)¬. At short wire lengths (0.05mm), BCH saves energy 5% while increasing perform-ability (0.9) and reliability.

Kategorie:

Technologie

Kategorie BISAC:

Technology & Engineering > Electronics - General

Wydawca:

LAP Lambert Academic Publishing

Język:

Angielski

ISBN-13:

9783659314605

Rok wydania:

2014

Ilość stron:

192

Waga:

0.29 kg

Wymiary:

22.86 x 15.24 x 1.12

Oprawa:

Miękka

Wolumenów:

Ayman Salem received the B.Sc. degree in Information Engineering and Technology and the Master degree in electronics engineering from German University in Cairo in 2010, 2014, respectively. His master thesis is in the area of Network on Chip and error correction coding schemes. His current research is focused on Network on Chip design, error correction coding schemes and low-power design. He is the author of three papers.

Krainaksiazek.pl w programie rzetelna firma

Krainaksiaze.pl - płatności przez paypal

Czytaj nas na:

Zobacz:

1997-2025 DolnySlask.com Agencja Internetowa