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010 a| 2021054258;

020 z| 9781003284789q| (pbk);

020 z| 9781032255750q| (hbk);

020 a| 9781032257419q| (ebook);

035 a| (WaSeSS)ssj0002593055;

040 a| DLCb| engc| DLCd| WaSeSS;

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049 a| EREEa| NEHH;

050 00 a| TK5105.546;

082 00 a| 621.3815/312| 23/eng/20220113;

100 1 a| Song, Wei,d| 1983-?| UNAUTHORIZED;

245 10 a| Asynchronous on-chip networks and fault-tolerant techniquesh| [electronic resource] /c| Wei Song and Guangda Zhang.;

250 a| First edition.;

260 a| Boca Raton, FL :b| CRC Press,c| 2022.;

300 a| 1 online resource;

504 a| Includes bibliographical references.;

506 a| Available only to authorized users.;

520 a| "This book is the first comprehensive study of fault-tolerance and fault-caused deadlock effects in asynchronous on-chip networks, aiming to overcome these drawbacks and ensure greater reliability of applications. As a promising alternative to the widely used synchronous on-chip networks for multicore processors, asynchronous on-chip networks can be vulnerable to faults even if they can deliver the same performance with much lower energy and area compared with their synchronous counterparts. Faults can not only corrupt data transmission but also cause a unique type of deadlock. By adopting a new redundant code along with a dynamic fault detection and recovery scheme, the authors demonstrate that asynchronous on-chip networks can be efficiently hardened to tolerate both transient and permanent faults and overcome fault-caused deadlocks. This book will serve as an essential guide for researchers and students studying interconnection networks, fault tolerant computing, asynchronous system design, circuit design and on-chip networking, as well as for professionals interested in designing fault-tolerant and high-throughput asynchronous circuits"--c| Provided by publisher.;

538 a| Mode of access: World Wide Web;

588 a| Description based on print version record and CIP data provided by publisher.;

650 0 a| Networks on a chip.=| ^A1057183;

650 0 a| Fault-tolerant computing.=| ^A129905;

650 0 a| Multiprocessorsx| Programming.=| ^A146915;

650 0 a| Timing circuits.=| ^A862935;

655 0 a| Electronic books.=| ^A491897;

700 0 a| Zhang, Guangda,d| 1989-?| UNAUTHORIZED;

856 40 z| Full text available from Taylor & Francis eBooksu| https://go.openathens.net/redirector/ecu.edu?url=https%3A%2F%2Fwww.taylorfrancis.com%2Fbooks%2F9781003284789;

949 a| CLICK ON WEB ADDRESSw| ASISh| JOYNER188;

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999 a| CLICK ON WEB ADDRESSw| ASISc| 1i| 6657181-2001l| HSLELECm| HSLr| Ys| Yt| HEBKu| 12/18/2025x| EBOOKz| HERESOURCE;

999 a| CLICK ON WEB ADDRESSw| ASISc| 1i| 6657181-3001l| MNETm| JMUSICr| Ys| Yt| MNESSBKu| 12/18/2025x| EBOOKz| JERESOURCE;

Asynchronous on-chip networks and fault-tolerant techniques / Wei Song and Guangda Zhang.

Author/creator	Song, Wei, 1983-
Other author	Zhang, Guangda, 1989-
Format	Electronic
Edition	First edition.
Publication Info	Boca Raton, FL : CRC Press, 2022.
Description	1 online resource
Supplemental Content	Full text available from Taylor & Francis eBooks
Subjects	Networks on a chip. Fault-tolerant computing. Multiprocessors--Programming. Timing circuits.

Abstract	"This book is the first comprehensive study of fault-tolerance and fault-caused deadlock effects in asynchronous on-chip networks, aiming to overcome these drawbacks and ensure greater reliability of applications. As a promising alternative to the widely used synchronous on-chip networks for multicore processors, asynchronous on-chip networks can be vulnerable to faults even if they can deliver the same performance with much lower energy and area compared with their synchronous counterparts. Faults can not only corrupt data transmission but also cause a unique type of deadlock. By adopting a new redundant code along with a dynamic fault detection and recovery scheme, the authors demonstrate that asynchronous on-chip networks can be efficiently hardened to tolerate both transient and permanent faults and overcome fault-caused deadlocks. This book will serve as an essential guide for researchers and students studying interconnection networks, fault tolerant computing, asynchronous system design, circuit design and on-chip networking, as well as for professionals interested in designing fault-tolerant and high-throughput asynchronous circuits"-- Provided by publisher.
Bibliography note	Includes bibliographical references.
Access restriction	Available only to authorized users.
Technical details	Mode of access: World Wide Web
Source of description	Description based on print version record and CIP data provided by publisher.
Issued in other form	Print version: Song, Wei, 1983- Asynchronous on-chip networks and fault-tolerant techniques First edition. Boca Raton, FL : CRC Press, 2022 9781032255750
Genre/form	Electronic books.
LCCN	2021054258
ISBN	(pbk)
ISBN	(hbk)
ISBN	9781032257419 (ebook)

Asynchronous on-chip networks and fault-tolerant techniques / Wei Song and Guangda Zhang.

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