Skip to content
MathWorks - Mobile View
  • Inicie sesión cuenta de MathWorksInicie sesión cuenta de MathWorks
  • Access your MathWorks Account
    • Mi Cuenta
    • Mi perfil de la comunidad
    • Asociar Licencia
    • Cerrar sesión
  • Productos
  • Soluciones
  • Educación
  • Soporte
  • Comunidad
  • Eventos
  • Obtenga MATLAB
MathWorks
  • Productos
  • Soluciones
  • Educación
  • Soporte
  • Comunidad
  • Eventos
  • Obtenga MATLAB
  • Inicie sesión cuenta de MathWorksInicie sesión cuenta de MathWorks
  • Access your MathWorks Account
    • Mi Cuenta
    • Mi perfil de la comunidad
    • Asociar Licencia
    • Cerrar sesión

Vídeos y webinars

  • MathWorks
  • Vídeos
  • Vídeos-Inicio
  • Buscar
  • Vídeos-Inicio
  • Buscar
  • Comuníquese con ventas
  • Software de prueba
30:42 Video length is 30:42.
  • Description
  • Related Resources

Leveraging SerDes Design Flows for IBIS-AMI Model Development

Todd Westerhoff, SiSoft

With high speed serial links rising in both data rate as well as complexity, SerDes designers are tasked with creating new transmit and receive architectures in their ASICs that employ advanced equalization and clock data recovery algorithms which yield low system BER.  The need to share these algorithms with potential customers has become equally important. The primary way in which SerDes IP is shared is through distribution of IBIS-AMI models - a black-box modeling standard that allows a semiconductor company to distribute a simulation model of their chip to a perspective customer. A primary challenge in creating and sharing these models is that the workflow for creating a SerDes design and the process for creating an IBIS-AMI model are inherently disjoint, resulting in a potential discrepancy between the models that are used for design and the models that are evaluated by customers.

In this webinar we will showcase a new workflow that has been developed jointly between MathWorks and SiSoft, which enables semiconductor companies to reuse their SerDes designs directly for IBIS-AMI model creation, simulation, and validation.

Highlights include:

  • Using Simulink for the design and simulation of SerDes architectures
  • Creating AMI models directly from SerDes designs using C Code Generation and compilation to DLLs
  • Simulation and validation of IBIS-AMI models in SiSoft Quantum Channel Designer (QCD)

About the Presenters

Corey Mathis is the Industry Marketing Manager at the MathWorks responsible for the communications, electronics, and semiconductor market segments. Prior to joining MathWorks, Corey managed a global automotive sensors business at Sensata Technologies, and spent nine years at Agilent Technologies in a variety of roles including applications engineering and business development. Corey has a MBA from Boston University and a bachelor’s in electrical engineering from Union College in Schenectady, NY.

Todd Westerhoff is the VP Semiconductor Relations at SiSoft, and has over 36 years of experience in modeling and simulation, including 19 years of signal integrity experience. Todd is responsible for SiSoft's activities working with semiconductor vendors to test and develop high quality simulation AMI models. Todd has been heavily involved with the IBIS-AMI modeling specification since its inception. He has held senior technical and management positions for Cisco and Cadence and worked as an independent signal integrity consultant. Todd holds a B.E.E.E. degree from the Stevens Institute of Technology in Hoboken, New Jersey.

Recorded: 21 Jun 2016

Related Products

  • Simulink
  • Communications Toolbox
  • DSP System Toolbox

Learn More

View the presentation slides from the webinar

3 Ways to Speed Up Model Predictive Controllers

Read white paper

A Practical Guide to Deep Learning: From Data to Deployment

Read ebook

Bridging Wireless Communications Design and Testing with MATLAB

Read white paper

Deep Learning and Traditional Machine Learning: Choosing the Right Approach

Read ebook

Hardware-in-the-Loop Testing for Power Electronics Control Design

Read white paper

Predictive Maintenance with MATLAB

Read ebook

Electric Vehicle Modeling and Simulation - Architecture to Deployment : Webinar Series

Register for Free

How much do you know about power conversion control?

Start quiz

Feedback

Featured Product

Simulink

  • Request Trial
  • Get Pricing

Up Next:

21:26
Building Competency for In House Development with Model...

Related Videos:

16:36
Renault's Model-Based Design Powertrain Control Development...
25:23
Case Study: Dual Fuel Engine Control System Development...
20:44
Renault Model-Based Design Power Train Control Development...
13:48
Development of Engine Setpoint Controller Using Model-Based...

View more related videos

MathWorks - Domain Selector

Select a Web Site

Choose a web site to get translated content where available and see local events and offers. Based on your location, we recommend that you select: .

  • Switzerland (English)
  • Switzerland (Deutsch)
  • Switzerland (Français)
  • 中国 (简体中文)
  • 中国 (English)

You can also select a web site from the following list:

How to Get Best Site Performance

Select the China site (in Chinese or English) for best site performance. Other MathWorks country sites are not optimized for visits from your location.

Americas

  • América Latina (Español)
  • Canada (English)
  • United States (English)

Europe

  • Belgium (English)
  • Denmark (English)
  • Deutschland (Deutsch)
  • España (Español)
  • Finland (English)
  • France (Français)
  • Ireland (English)
  • Italia (Italiano)
  • Luxembourg (English)
  • Netherlands (English)
  • Norway (English)
  • Österreich (Deutsch)
  • Portugal (English)
  • Sweden (English)
  • Switzerland
    • Deutsch
    • English
    • Français
  • United Kingdom (English)

Asia Pacific

  • Australia (English)
  • India (English)
  • New Zealand (English)
  • 中国
    • 简体中文Chinese
    • English
  • 日本Japanese (日本語)
  • 한국Korean (한국어)

Contact your local office

  • Comuníquese con ventas
  • Software de prueba

MathWorks

Accelerating the pace of engineering and science

MathWorks es el líder en el desarrollo de software de cálculo matemático para ingenieros

Descubra…

Explorar productos

  • MATLAB
  • Simulink
  • Software para estudiantes
  • Soporte para hardware
  • File Exchange

Probar o comprar

  • Descargas
  • Software de prueba
  • Comuníquese con ventas
  • Precios y licencias
  • Cómo comprar

Aprender a utilizar

  • Documentación
  • Tutoriales
  • Ejemplos
  • Vídeos y webinars
  • Formación

Obtener soporte

  • Ayuda para la instalación
  • MATLAB Answers
  • Consultoría
  • Centro de licencias
  • Comuníquese con soporte

Acerca de MathWorks

  • Ofertas de empleo
  • Sala de prensa
  • Misión social
  • Casos prácticos
  • Acerca de MathWorks
  • Select a Web Site United States
  • Centro de confianza
  • Marcas comerciales
  • Política de privacidad
  • Antipiratería
  • Estado de las aplicaciones

© 1994-2022 The MathWorks, Inc.

  • Facebook
  • Twitter
  • Instagram
  • YouTube
  • LinkedIn
  • RSS

Únase a la conversación