• 10 Ways ADS Overcomes Signal and Power Integrity Challenges

    Keysight EEsof EDA’s Advanced Design System (ADS) software can help you overcome your signal and power integrity challenges. As the world’s leading electronic design automation for RF/MW and high-speed dig...
    annamccowan
    last modified by annamccowan
  • Tim's HSD Seminar Workspace

      You will need Keysight ADS to unarchive the workspace. To get a copy of Keysight ADS,     After you unarchive the workspace with Keysight ADS, you should see below window.      &#...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim’s Blackboard #10: What Makes DFE a Nonlinear Equalizer?

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity. Find other cool posts here!   Last time on Tim’s Blackboard, w...
    Tim Wang Lee
    created by Tim Wang Lee
  • What is PathWave?

    PathWave is the new design and test software platform from Keysight Technologies. It combines design software, instrument control, and application-specific test software in an open development environment.   Pat...
    kaelly_farnham
    created by kaelly_farnham
  • Tim’s Blackboard #9: Eye-opening Experience with FFE

    Welcome to Tim’s Blackboard! This is the place to find discussion on topics related to signal integrity and power integrity. Find other cool posts here!   IntroductionLast time on Tim’s Blackboard, I ...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim’s Blackboard #7: Root Cause of Eye Closure

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week on Tim’s Blackboard is “Root Cause of Eye Cl...
    Tim Wang Lee
    created by Tim Wang Lee
  • 10 New Features in ADS 2017 for Signal and Power Integrity Engineers

    Signal and Power Integrity engineers look to ADS for the correct treatment of high-speed effects like distortion, mismatch, and cross-talk. Building on the strong foundation and loyal users ADS has amassed t...
    annamccowan
    created by annamccowan
  • Tim’s Blackboard #6: Unintentional Visit to Frequency Domain

    IntroductionMuch like Sir William Henry Bragg stated, often, the recipe for new discovery entails new light, so elements can be viewed in a fresh perspective.   This week on Tim’s Blackboard, I will start w...
    Tim Wang Lee
    created by Tim Wang Lee
  • Practical Approach for Signal Integrity Analysis of High Data Rate Channels

    Slides from a recent webcast: Practical Approach for Signal Integrity Analysis of High Data Rate Channels Original broadcast July 28, 2016. This webcast highlights various technologies used for channel mode...
    kaelly_farnham
    last modified by kaelly_farnham
  • Tim’s Blackboard #5: Demystify Ultra-low Impedance Measurement

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week we are taking a break from Signal Integrity. In this pos...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim’s Blackboard #4: Your Channel, PRBS and the Eye

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week on Tim’s Blackboard is “Your Channel, PRBS a...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim’s Blackboard #3.5: Convolution Workspace

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week on Tim’s Blackboard, convolution workspace! Get Y...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim’s Blackboard #3: Convolution and Single Pulse Response

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week on Tim’s Blackboard is “Convolution and Sing...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim’s Blackboard #2.5 The Arrival Time Inconsistency

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week on Tim’s Blackboard, I will resolve the arrival ti...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim's Blackboard #2: The Dirac Delta Misnomer

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week on Tim’s Blackboard is the “Dirac Delta Misn...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim's Blackboard #1.5: the Blink of an Eye

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   There is no new post this week on Tim’s Blackboar...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Tim’s Blackboard #1: The Melting Trace Paradox

    Welcome to Tim’s Blackboard! This is the place to find discussions on interesting topics related to signal integrity and power integrity.   This week on Tim’s Blackboard is the “melting trace pa...
    Tim Wang Lee
    last modified by Tim Wang Lee
  • Have you run into cases where you could not find agreement between your pre-fabrication measurements and post-fabrication lab measurements?

    In the past, the pre-manufacture design could be simulated and tested using compliance tools from an EDA vendor. And the post-manufacture prototype could be bench tested using compliance tools from test and measuremen...
    KeysightEEsofEDA
    last modified by KeysightEEsofEDA
  • New Approach for Estimating Accurate Statistical-Based DDR4 Margin

    A statistical simulation technique has become popular for the design and analysis of high-speed signals. Especially where accurate prediction of random jitter is important, such as in the measurement of...
    KeysightEEsofEDA
    last modified by KeysightEEsofEDA
  • Looking For A Way To Ensure High Signal Quality In PCIe Gen3 Serial Channels?

    PCI Express Gen3 (PCIe Gen3) specifies a high-speed differential I/O interconnect that runs at 8.0 Gbps. It has many benefits, and it also presents a critical challenge. PCIe, using high-speed 8-Gbps serial links, can...
    kaelly_farnham
    last modified by kaelly_farnham