High-Speed Signaling: Jitter Modeling, Analysis, and Budgeting

yangpx08

谢谢分享

power0224

回复 1# Jason.tschen


   感謝分享~~~

jimcmwang

PH_Jitter_Modeling_Analysis_Budgeting.part1.rar (14 MB)

jimcmwang

Table of Contents

Chapter 1: Introduction
    Section 1.1. Signal Integrity Analysis Trends
    Section 1.2. Challenges of High-Speed Signal Integrity Design
    Section 1.3. Organization of This Book


Chapter 2: High-Speed Signaling Basics
    Section 2.1. I/O Signaling Basics and Components
    Section 2.2. Noise Sources
    Section 2.3. Jitter Basics and Decompositions
    Section 2.4. Summary


Part I: Channel Modeling and Design

Chapter 3: Channel Modeling and Design Methodology
    Section 3.1. Channel Design Methodology
    Section 3.2. Channel Modeling Methodology
    Section 3.3. Modeling with Electromagnetic Field Solvers
    Section 3.4. Backplane Channel Modeling Example
    Section 3.5. Summary

Chapter 4: Network Parameters
    Section 4.1. Generalized Network Parameters for Multi-Conductor Systems
    Section 4.2. Preparing an Accurate S-Parameter Time-Domain Model
    Section 4.3. Passivity Conditions
    Section 4.4. Causality Conditions
    Section 4.5. Summary


Chapter 5: Transmission Lines
    Section 5.1. Transmission Line Theory
    Section 5.2. Forward and Backward Crosstalk
    Section 5.3. Time-Domain Simulation of Transmission Lines
    Section 5.4. Modeling Transmission Line from Measurements
    Section 5.5. On-Chip Wire Modeling
    Section 5.6. Comparison of On-Chip, Package, and PCB Traces
    Section 5.7. Summary


Part II: Analyzing Link Performance

Chapter 6: Channel Voltage and Timing Budget
    Section 6.1. Timing Budget Equation and Components
    Section 6.2. Fibre Channel Dual-Dirac Model
    Section 6.3. Component-Level Timing Budget
    Section 6.4. Pitfalls of Timing Budget Equation
    Section 6.5. Voltage Budget Equations and Components
    Section 6.6. Summary

Chapter 7: Manufacturing Variation Modeling
    Section 7.1. Introduction to the Taguchi Method
    Section 7.2. DDR DRAM Command/Address Channel Example
    Section 7.3. Backplane Link Modeling Example
    Section 7.4. Summary
   
Chapter 8: Link BER Modeling and Simulation
    Section 8.1. Historical Background and Chapter Organization
    Section 8.2. Statistical Link BER Modeling Framework
    Section 8.3. Intersymbol Interference Modeling
    Section 8.4. Transmitter and Receiver Jitter Modeling
    Section 8.5. Periodic Jitter Modeling
    Section 8.6. Summary

Chapter 9: Fast Time-Domain Channel Simulation Techniques
    Section 9.1. Fast Time-Domain Simulation Flow Overview
    Section 9.2. Fast System Simulation Techniques
    Section 9.3. Simultaneous Switching Noise Example
    Section 9.4. Comparison of Jitter Modeling Methods
    Section 9.5. Peak Distortion Analysis
    Section 9.6. Summary

Chapter 10: Clock Models in Link BER Analysis
    Section 10.1. Independent and Common Clock Jitter Models
    Section 10.2. Modeling Common Clocking Schemes
    Section 10.3. CDR Circuitry Modeling
    Section 10.4. Passive Channel JIF and Jitter Amplification
    Section 10.5. Summary


Part III: Supply Noise and Jitter

Chapter 11: Overview of Power Integrity Engineering
    Section 11.1. PDN Design Goals and Supply Budget
    Section 11.2. Power Supply Budget Components
    Section 11.3. Deriving a Power Supply Budget
    Section 11.4. Supply Noise Analysis Methodology
    Section 11.5. Steps in Power Supply Noise Analysis
    Section 11.6. Summary

Chapter 12: SSN Modeling and Simulation
    Section 12.1. SSN Modeling Challenges
    Section 12.2. SI and PI Co-Simulation Methodology
    Section 12.3. Signal Current Loop and Supply Noise
    Section 12.4. Additional SSN Modeling Topics
    Section 12.5. Case Study: DDR2 SSN Analysis for Consumer Applications
    Section 12.6. Summary

Chapter 13: SSN Reduction Codes and Signaling
    Section 13.1. Data Bus Inversion Code
    Section 13.2. Pseudo Differential Signaling Based on 4b6b Code
    Section 13.3. Summary

Chapter 14: Supply Noise and Jitter Characterization
    Section 14.1. Importance of Supply Noise Induced Jitter
    Section 14.2. Overview of PSIJ Modeling Methodology
    Section 14.3. Noise and Jitter Simulation Methodology
    Section 14.4. Case Study
    Section 14.5. Summary

Chapter 15: Substrate Noise Induced Jitter
    Section 15.1. Introduction
    Section 15.2. Modeling Techniques
    Section 15.3. Measurement Techniques
    Section 15.4. Case Study
    Section 15.5. Summary

Chapter 16: On-Chip Link Measurement Techniques
    Section 16.1. Shmoo and BER Eye Diagram Measurements
    Section 16.2. Capturing Signal Waveforms
    Section 16.3. Link Performance Measurement and Correlation
    Section 16.4. On-Chip Supply Noise Measurement Techniques
    Section 16.5. Advanced Power Integrity Measurements
    Section 16.6. Summary

Chapter 17: Signal Conditioning
    Section 17.1. Single-Bit Response
    Section 17.2. Equalization Techniques
    Section 17.3. Equalization Adaptation Algorithms
    Section 17.4. CDR and Equalization Adaptation Interaction
    Section 17.5. ADC-Based Receive Equalization
    Section 17.6. Future of High-Speed Wireline Equalization
    Section 17.7. Summary

Chapter 18: Applications
    Section 18.1. XDR: High-Performance Differential Memory System
    Section 18.2. Mobile XDR: Low Power Differential Memory System
    Section 18.3. Main Memory Systems beyond DDR3
    Section 18.4. Future Signaling Systems

jimcmwang

真是不便宜啊，希望物有所值

xbcperception

不错。。顶顶顶

xbcperception

感谢楼主。。。。。。。。。。。

xbcperception

非常感谢楼主分享。。非常受用

fallenstar110

太好了，多谢~！

kevinxuq

谢谢分享,下了学习一下!