Architecture Design for Soft Errors

Architecture Design for Soft Errors

Author: Shubu Mukherjee

Publisher: Morgan Kaufmann

Published: 2011-08-29

Total Pages: 361

ISBN-13: 0080558321

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Architecture Design for Soft Errors provides a comprehensive description of the architectural techniques to tackle the soft error problem. It covers the new methodologies for quantitative analysis of soft errors as well as novel, cost-effective architectural techniques to mitigate them. To provide readers with a better grasp of the broader problem definition and solution space, this book also delves into the physics of soft errors and reviews current circuit and software mitigation techniques. There are a number of different ways this book can be read or used in a course: as a complete course on architecture design for soft errors covering the entire book; a short course on architecture design for soft errors; and as a reference book on classical fault-tolerant machines. This book is recommended for practitioners in semi-conductor industry, researchers and developers in computer architecture, advanced graduate seminar courses on soft errors, and (iv) as a reference book for undergraduate courses in computer architecture. - Helps readers build-in fault tolerance to the billions of microchips produced each year, all of which are subject to soft errors - Shows readers how to quantify their soft error reliability - Provides state-of-the-art techniques to protect against soft errors


Soft Errors

Soft Errors

Author: Jean-Luc Autran

Publisher: CRC Press

Published: 2017-12-19

Total Pages: 432

ISBN-13: 146659084X

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Soft errors are a multifaceted issue at the crossroads of applied physics and engineering sciences. Soft errors are by nature multiscale and multiphysics problems that combine not only nuclear and semiconductor physics, material sciences, circuit design, and chip architecture and operation, but also cosmic-ray physics, natural radioactivity issues, particle detection, and related instrumentation. Soft Errors: From Particles to Circuits addresses the problem of soft errors in digital integrated circuits subjected to the terrestrial natural radiation environment—one of the most important primary limits for modern digital electronic reliability. Covering the fundamentals of soft errors as well as engineering considerations and technological aspects, this robust text: Discusses the basics of the natural radiation environment, particle interactions with matter, and soft-error mechanisms Details instrumentation developments in the fields of environment characterization, particle detection, and real-time and accelerated tests Describes the latest computational developments, modeling, and simulation strategies for the soft error-rate estimation in digital circuits Explores trends for future technological nodes and emerging devices Soft Errors: From Particles to Circuits presents the state of the art of this complex subject, providing comprehensive knowledge of the complete chain of the physics of soft errors. The book makes an ideal text for introductory graduate-level courses, offers academic researchers a specialized overview, and serves as a practical guide for semiconductor industry engineers or application engineers.


Soft Errors in Modern Electronic Systems

Soft Errors in Modern Electronic Systems

Author: Michael Nicolaidis

Publisher: Springer Science & Business Media

Published: 2010-09-24

Total Pages: 331

ISBN-13: 1441969934

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This book provides a comprehensive presentation of the most advanced research results and technological developments enabling understanding, qualifying and mitigating the soft errors effect in advanced electronics, including the fundamental physical mechanisms of radiation induced soft errors, the various steps that lead to a system failure, the modelling and simulation of soft error at various levels (including physical, electrical, netlist, event driven, RTL, and system level modelling and simulation), hardware fault injection, accelerated radiation testing and natural environment testing, soft error oriented test structures, process-level, device-level, cell-level, circuit-level, architectural-level, software level and system level soft error mitigation techniques. The book contains a comprehensive presentation of most recent advances on understanding, qualifying and mitigating the soft error effect in advanced electronic systems, presented by academia and industry experts in reliability, fault tolerance, EDA, processor, SoC and system design, and in particular, experts from industries that have faced the soft error impact in terms of product reliability and related business issues and were in the forefront of the countermeasures taken by these companies at multiple levels in order to mitigate the soft error effects at a cost acceptable for commercial products. In a fast moving field, where the impact on ground level electronics is very recent and its severity is steadily increasing at each new process node, impacting one after another various industry sectors (as an example, the Automotive Electronics Council comes to publish qualification requirements on soft errors), research and technology developments and industrial practices have evolve very fast, outdating the most recent books edited at 2004.


Mitigating Process Variability and Soft Errors at Circuit-Level for FinFETs

Mitigating Process Variability and Soft Errors at Circuit-Level for FinFETs

Author: Alexandra Zimpeck

Publisher: Springer Nature

Published: 2021-03-10

Total Pages: 131

ISBN-13: 3030683680

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This book evaluates the influence of process variations (e.g. work-function fluctuations) and radiation-induced soft errors in a set of logic cells using FinFET technology, considering the 7nm technological node as a case study. Moreover, for accurate soft error estimation, the authors adopt a radiation event generator tool (MUSCA SEP3), which deals both with layout features and electrical properties of devices. The authors also explore four circuit-level techniques (e.g. transistor reordering, decoupling cells, Schmitt Trigger, and sleep transistor) as alternatives to attenuate the unwanted effects on FinFET logic cells. This book also evaluates the mitigation tendency when different levels of process variation, transistor sizing, and radiation particle characteristics are applied in the design. An overall comparison of all methods addressed by this work is provided allowing to trace a trade-off between the reliability gains and the design penalties of each approach regarding the area, performance, power consumption, single event transient (SET) pulse width, and SET cross-section.


Radiation Effects and Soft Errors in Integrated Circuits and Electronic Devices

Radiation Effects and Soft Errors in Integrated Circuits and Electronic Devices

Author: Ronald Donald Schrimpf

Publisher: World Scientific

Published: 2004

Total Pages: 349

ISBN-13: 9812389407

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This book provides a detailed treatment of radiation effects in electronic devices, including effects at the material, device, and circuit levels. The emphasis is on transient effects caused by single ionizing particles (single-event effects and soft errors) and effects produced by the cumulative energy deposited by the radiation (total ionizing dose effects). Bipolar (Si and SiGe), metal-oxide-semiconductor (MOS), and compound semi-conductor technologies are discussed. In addition to considering the specific issues associated with high-performance devices and technologies, the book includes the background material necessary for understanding radiation effects at a more general level.


Terrestrial Neutron-induced Soft Errors in Advanced Memory Devices

Terrestrial Neutron-induced Soft Errors in Advanced Memory Devices

Author: Takashi Nakamura

Publisher: World Scientific

Published: 2008

Total Pages: 364

ISBN-13: 9812778829

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There are numerous elaborate and comprehensive textbooks and guidelines on stroke. However, busy clinicians are constantly bombarded with new knowledge for an infinite number of medical conditions. It becomes a challenge for them to tease out the important information that will help guide them through the care of the patient they have right before them. This handbook is thus conceptualized with both the busy clinician and the stroke patient needing urgent treatment in mind. By providing only essential information in a standard and user-friendly layout, it assists clinicians in making real-time decisions quickly and effectively with actual step-by-step guides on specific issues relevant to the care of stroke patients.The use of this practical handbook is instinctive with the topics arranged in chronological order, simulating the actual clinical scenario from a prehospital setting, consultation in the emergency room, admission to the hospital, to secondary prevention in the clinic. With contributions from over 30 stroke experts in Southeast Asia, this handbook is widely applicable in different medical settings and will certainly appeal to stroke specialists, general practitioners, nurses, paramedics, and medical students alike.


Soft Error Reliability Using Virtual Platforms

Soft Error Reliability Using Virtual Platforms

Author: Felipe Rocha da Rosa

Publisher: Springer Nature

Published: 2020-11-02

Total Pages: 142

ISBN-13: 3030557049

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This book describes the benefits and drawbacks inherent in the use of virtual platforms (VPs) to perform fast and early soft error assessment of multicore systems. The authors show that VPs provide engineers with appropriate means to investigate new and more efficient fault injection and mitigation techniques. Coverage also includes the use of machine learning techniques (e.g., linear regression) to speed-up the soft error evaluation process by pinpointing parameters (e.g., architectural) with the most substantial impact on the software stack dependability. This book provides valuable information and insight through more than 3 million individual scenarios and 2 million simulation-hours. Further, this book explores machine learning techniques usage to navigate large fault injection datasets.


Circuit and Layout Techniques for Soft-error-resilient Digital CMOS Circuits

Circuit and Layout Techniques for Soft-error-resilient Digital CMOS Circuits

Author: Hsiao-Heng Kelin Lee

Publisher: Stanford University

Published: 2011

Total Pages: 156

ISBN-13:

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Radiation-induced soft errors are a major concern for modern digital circuits, especially memory elements. Unlike large Random Access Memories that can be protected using error-correcting codes and bit interleaving, soft error protection of sequential elements, i.e. latches and flip-flops, is challenging. Traditional techniques for designing soft-error-resilient sequential elements generally address single node errors, or Single Event Upsets (SEUs). However, with technology scaling, the charge deposited by a single particle strike can be simultaneously collected and shared by multiple circuit nodes, resulting in Single Event Multiple Upsets (SEMUs). In this work, we target SEMUs by presenting a design framework for soft-error-resilient sequential cell design with an overview of existing circuit and layout techniques for soft error mitigation, and introducing a new soft error resilience layout design principle called LEAP, or Layout Design through Error-Aware Transistor Positioning. We then discuss our application of LEAP to the SEU-immune Dual Interlocked Storage Cell (DICE) by implementing a new sequential element layout called LEAP-DICE, retaining the original DICE circuit topology. We compare the soft error performance of SEU-immune flip-flops with the LEAP-DICE flip-flop using a test chip in 180nm CMOS under 200-MeV proton radiation and conclude that 1) our LEAP-DICE flip-flop encounters on average 2,000X and 5X fewer errors compared to a conventional D flip-flop and our reference DICE flip-flop, respectively; 2) our LEAP-DICE flip-flop has the best soft error performance among all existing SEU-immune flip-flops; 3) In the evaluation of our design framework, we also discovered new soft error effects related to operating conditions such as voltage scaling, clock frequency setting and radiation dose.


Soft Error Mechanisms, Modeling and Mitigation

Soft Error Mechanisms, Modeling and Mitigation

Author: Selahattin Sayil

Publisher: Springer

Published: 2016-02-25

Total Pages: 112

ISBN-13: 3319306073

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This book introduces readers to various radiation soft-error mechanisms such as soft delays, radiation induced clock jitter and pulses, and single event (SE) coupling induced effects. In addition to discussing various radiation hardening techniques for combinational logic, the author also describes new mitigation strategies targeting commercial designs. Coverage includes novel soft error mitigation techniques such as the Dynamic Threshold Technique and Soft Error Filtering based on Transmission gate with varied gate and body bias. The discussion also includes modeling of SE crosstalk noise, delay and speed-up effects. Various mitigation strategies to eliminate SE coupling effects are also introduced. Coverage also includes the reliability of low power energy-efficient designs and the impact of leakage power consumption optimizations on soft error robustness. The author presents an analysis of various power optimization techniques, enabling readers to make design choices that reduce static power consumption and improve soft error reliability at the same time.


Early Soft Error Reliability Assessment of Convolutional Neural Networks Executing on Resource-Constrained IoT Edge Devices

Early Soft Error Reliability Assessment of Convolutional Neural Networks Executing on Resource-Constrained IoT Edge Devices

Author: Geancarlo Abich

Publisher: Springer Nature

Published: 2023-01-01

Total Pages: 143

ISBN-13: 3031185994

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This book describes an extensive and consistent soft error assessment of convolutional neural network (CNN) models from different domains through more than 14.8 million fault injections, considering different precision bit-width configurations, optimization parameters, and processor models. The authors also evaluate the relative performance, memory utilization, and soft error reliability trade-offs analysis of different CNN models considering a compiler-based technique w.r.t. traditional redundancy approaches.