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VxWorks 653 3.x Multi-Core Edition Board Support Packages

VxWorks 653 3.x Multi-Core Edition Board Support Packages

The VxWorks® 653 3.x Multi-Core Edition Board Support Packages course provides engineers with a fast, cost-effective way to acquire the skills necessary to modify and extend the BSP for an integrated modular avionics (IMA) VxWorks system.

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About this course

VxWorks 653 3.x Multi-Core Edition Board Support Packages

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Course Description

The VxWorks® 653 3.x Multi-Core Edition Board Support Packages course provides engineers with a fast, cost-effective way to acquire the skills necessary to modify and extend the BSP for an integrated modular avionics (IMA) VxWorks system.

Course Results

After this course, participants will be able to perform the following:

  • Develop drivers for the POS
  • Understand the driver initialization sequence during system boot
  • Pick an appropriate IMA driver model for a VxWorks 653 ARINC system

Products Supported

  • VxWorks 653 3.x Multi-core Edition (version 3.0.1.1)

Who Should Attend

  • Device driver developers
  • BSP developers
  • System architects

Course Format

  • This two-day, expert-led course consists of lectures and lab sessions.
  • Attendees use VxWorks 653 3.x Multi-core Edition to gain experience with the topics presented.
  • Participants examine and exercise simulated network topologies in hands-on labs.
  • Participants receive individual guidance from an expert engineer who has extensive experience with Wind River® technologies.

Syllabus

VxWorks 653 MCE Architecture

  • Architectural design
  • Platform variants
  • Devices, contexts, and scheduler
  • Interfaces and capabilities
  • LAB: Exploring a VxWorks 653 MCE Architecture

VxWorks 653 MCE Boot Sequence

  • BSP structure
  • Configuration
  • Booting
  • Building MOS BSP
  • LAB: Exploring a VxWorks 653 MCE Boot Sequence

VxWorks 653 MCE Device Drivers

  • Device types
  • I/O model
  • PAMU
  • PCI
  • Access to device resources
  • LAB: Adding a VxWorks 653 MCE Device Driver

VxWorks 653 MCE Inter-Partition Communication

  • Introduction
  • Safe IPC
  • MIPC
  • LAB: Communicating Between Partitions with Safe IPC

VxWorks 653 MCE Debug Shell

  • Debug agent
  • wrdbg shell
  • wrhv shell
  • LAB: Using VxWorks 653 MCE Debug Shells

VxWorks 653 MCE Health Monitoring

  • Health monitoring
  • Adding a custom event handler
  • LAB: Using a VxWorks 653 MCE Health Monitor

POS Device Driver Integration

  • Generic devices (IO model and custom driver)
  • Serial devices (SIO model)
  • Network devices (END model)
  • LAB: Polling the Serial Device

VxWorks 653 MCE Hardware Monitor (Optional)

  • LAB: Using VxWorks 653 MCE Hardware Monitoring Tools

Prerequisites

Prerequisite Courses

Prerequisite Skills

  • Experience with VxWorks 653
  • Understanding of PowerPC processor architecture
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COURSE DETAILS SUMMARY

  • Duration: 2 Days
  • Course Information: View
  • Format: Instructor-led lectures and hands-on lab sessions; instructor-led Live Remote delivery available
  • Type: Instructor-led
  • Price/Schedule: View

CONTACT US

About this course

VxWorks 653 3.x Multi-Core Edition Board Support Packages

Buy Now

Course Description

The VxWorks® 653 3.x Multi-Core Edition Board Support Packages course provides engineers with a fast, cost-effective way to acquire the skills necessary to modify and extend the BSP for an integrated modular avionics (IMA) VxWorks system.

Course Results

After this course, participants will be able to perform the following:

  • Develop drivers for the POS
  • Understand the driver initialization sequence during system boot
  • Pick an appropriate IMA driver model for a VxWorks 653 ARINC system

Products Supported

  • VxWorks 653 3.x Multi-core Edition (version 3.0.1.1)

Who Should Attend

  • Device driver developers
  • BSP developers
  • System architects

Course Format

  • This two-day, expert-led course consists of lectures and lab sessions.
  • Attendees use VxWorks 653 3.x Multi-core Edition to gain experience with the topics presented.
  • Participants examine and exercise simulated network topologies in hands-on labs.
  • Participants receive individual guidance from an expert engineer who has extensive experience with Wind River® technologies.

Syllabus

VxWorks 653 MCE Architecture

  • Architectural design
  • Platform variants
  • Devices, contexts, and scheduler
  • Interfaces and capabilities
  • LAB: Exploring a VxWorks 653 MCE Architecture

VxWorks 653 MCE Boot Sequence

  • BSP structure
  • Configuration
  • Booting
  • Building MOS BSP
  • LAB: Exploring a VxWorks 653 MCE Boot Sequence

VxWorks 653 MCE Device Drivers

  • Device types
  • I/O model
  • PAMU
  • PCI
  • Access to device resources
  • LAB: Adding a VxWorks 653 MCE Device Driver

VxWorks 653 MCE Inter-Partition Communication

  • Introduction
  • Safe IPC
  • MIPC
  • LAB: Communicating Between Partitions with Safe IPC

VxWorks 653 MCE Debug Shell

  • Debug agent
  • wrdbg shell
  • wrhv shell
  • LAB: Using VxWorks 653 MCE Debug Shells

VxWorks 653 MCE Health Monitoring

  • Health monitoring
  • Adding a custom event handler
  • LAB: Using a VxWorks 653 MCE Health Monitor

POS Device Driver Integration

  • Generic devices (IO model and custom driver)
  • Serial devices (SIO model)
  • Network devices (END model)
  • LAB: Polling the Serial Device

VxWorks 653 MCE Hardware Monitor (Optional)

  • LAB: Using VxWorks 653 MCE Hardware Monitoring Tools

Prerequisites

Prerequisite Courses

Prerequisite Skills

  • Experience with VxWorks 653
  • Understanding of PowerPC processor architecture
Buy Now

COURSE DETAILS SUMMARY

  • Duration: 2 Days
  • Course Information: View
  • Format: Instructor-led lectures and hands-on lab sessions; instructor-led Live Remote delivery available
  • Type: Instructor-led
  • Price/Schedule: View

CONTACT US