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Long-Term Reliability of Nanometer VLSI Systems: Modeling, Analysis and Optimization

โœ Scribed by Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr

Publisher
Springer International Publishing
Year
2019
Tongue
English
Leaves
487
Edition
1st ed. 2019
Category
Library
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โœฆ Synopsis

This book provides readers with a detailed reference regarding two of the most important long-term reliability and aging effects on nanometer integrated systems, electromigrations (EM) for interconnect and biased temperature instability (BTI) for CMOS devices. The authors discuss in detail recent developments in the modeling, analysis and optimization of the reliability effects from EM and BTI induced failures at the circuit, architecture and system levels of abstraction. Readers will benefit from a focus on topics such as recently developed, physics-based EM modeling, EM modeling for multi-segment wires, new EM-aware power grid analysis, and system level EM-induced reliability optimization and management techniques.

  • Reviews classic Electromigration (EM) models, as well as existing EM failure models and discusses the limitations of those models;
  • Introduces a dynamic EM model to address transient stress evolution, in which wires are stressed under time-varying current flows, and the EM recovery effects. Also includes new, parameterized equivalent DC current based EM models to address the recovery and transient effects;
  • Presents a cross-layer approach to transistor aging modeling, analysis and mitigation, spanning multiple abstraction levels;
  • Equips readers for EM-induced dynamic reliability management and energy or lifetime optimization techniques, for many-core dark silicon microprocessors, embedded systems, lower power many-core processors and datacenters.

โœฆ Table of Contents

Front Matter ....Pages i-xli
Front Matter ....Pages 1-1
Introduction (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 3-12
Physics-Based EM Modeling (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 13-45
Fast EM Stress Evolution Analysis Using Krylov Subspace Method (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 47-66
Fast EM Immortality Analysis for Multi-Segment Copper Interconnect Wires (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 67-96
Dynamic EM Models for Transient Stress Evolution and Recovery (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 97-120
Compact EM Models for Multi-Segment Interconnect Wires (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 121-151
EM Assessment for Power Grid Networks (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 153-175
Resource-Based EM Modeling DRM for Multi-Core Microprocessors (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 177-194
DRM and Optimization for Real-Time Embedded Systems (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 195-215
Learning-Based DRM and Energy Optimization for Manycore Dark Silicon Processors (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 217-245
Recovery-Aware DRM for Near-Threshold Dark Silicon Processors (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 247-262
Cross-Layer DRM and Optimization for Datacenter Systems (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 263-275
Front Matter ....Pages 277-277
Introduction (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 279-304
Aging-Aware Timing Analysis (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 305-321
Aging-Aware Standard Cell Library Optimization Methods (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 323-342
Aging Effects in Sequential Elements (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 343-356
Aging Guardband Reduction Through Selective Flip-Flop Optimization (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 357-372
Workload-Aware Static Aging Monitoring and Mitigation of Timing-Critical Flip-Flops (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 373-399
Aging Relaxation at Microarchitecture Level Using Special NOPs (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 401-414
ExtraTime: Modeling and Analysis of Transistor Aging at Microarchitecture-Level (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 415-438
Reducing Processor Wearout by Exploiting the Timing Slack of Instructions (Sheldon Tan, Mehdi Tahoori, Taeyoung Kim, Shengcheng Wang, Zeyu Sun, Saman Kiamehr)....Pages 439-455
Back Matter ....Pages 457-460

โœฆ Subjects

Physics; Electronic Circuits and Devices; Circuits and Systems; Processor Architectures

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