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Embedded Multicore Microcontrollers: Practical Application - Live Online Training

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  • Voraussetzungen
     

This practice-oriented training highlights the key mechanisms and the performance of multicore microcontrollers.

The experience you have gained in numerous practical exercises during the training enables you to master new challenges related to multicore technology efficiently and successfully.

Based on your new know-how, you can efficiently select a multicore µC architecture and estimate the effort and challenges related to a software project.

You can identify problems at an early stage and know how to solve them.

Developers (software, hardware), software architects, project leaders/managers, system architects

Basic knowledge of microcontrollers and of C

Multicore Microcontroller Architecture

  • Definition of multicore architectures
  • Homogeneous/heterogeneous multicore architectures with shared memory and/or non-shared memory
  • Software aspects for multicore processing
  • Core interfaces and memories: core-local cache and SPRAM (level 1 memory); global/shared SRAM (level 2 memory), snoop logic, cache coherency
  • Requirements for instruction throughput (MIPS)
  • Core synchronization
  • Co-processor functionality
  • New core bus systems (crossbar)
  • Semaphores: memory resource access control
  • Memory protection (access protection)
  • Multicore interrupt processing
  • Multicore start-up/initialization: boot process, set-up of primary and secondary CPU(s)
  • Debug interface(s)

Multicore Microcontroller Tool Aspects

  • C/C++ compiler: extensions for multicore
  • Locating program and data sections in specific memory areas/segments; control of access rights to global/external definitions
  • Locator safety support: variable access control for multicore modules

RTOS

  • Multicore aspects for RTOS software
  • Scheduler: software/task deployment and execution strategies
  • Partitioning
  • Task synchronization concepts
  • Task communication concepts
  • Programming models and multicore API: communication, resource management
  • Examples of multicore RTOS implementations

Multicore Debugging and Test Aspects

  • Debugger extensions for multicore: core synchronization during debugging, synchronous start/stop, multicore breakpoint handling, core context sensitive visualization
  • Performance and timing analysis, analysis of software runtime behaviour (profiling)
  • Multicore and trace handling

Safety

  • Multicore in standards
  • Hardware safety measures
  • Safety management unit SMU
  • Bus error detection and protection mechanisms
  • Safety core (checker core, lockstep core)
  • Safety on-chip test features

Practical Exercises - Performed on an Evaluation Board based on Aurix Microcontrollers

  • Multicore start-up behavior
  • Memory allocation and partitioning
  • Decomposition of existing singlecore applications
  • Porting to multicore
  • Synchronization/communication
  • Protection mechanisms
  • Performance measurement


KONTAKT

Melanie Menzl
Tel. +49 (0)89 450617-71


BONUSPROGRAMM

Im Preis enthalten:
Trainingsdokumentation, Ihr Zertifikat sowie ggf. erforderliche Ziel-HW o.ä.


ALL INCLUSIVE!

Spätestens 3 Wochen vor Trainingsbeginn erhalten Sie eine verbindliche Durchführungsbestätigung.

Einige Tage vor dem Live-Online-Training erhalten Sie von uns E-Mails mit …

  • ausführlichen Infos rund um Ihr Training
  • Ihre Schulungsunterlagen (Download-Link)
  • einer Einladung zu einer optionalen Probesession mit dem Trainer
  • einer Einladung für die Schulungstage, mit Link und Zugangsdaten

Ggf. erforderliche Übungs-HW senden wir Ihnen rechtzeitig vorab zu.


ABLAUF


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Live Online Training

Termin Preis *Dauer
16.10. – 18.10.20242.100,00 €3 Tage 
Anmeldecode: LE-µCMULTI
* Preis je Teilnehmer, in Euro zzgl. USt.

> Download Blanko-Anmeldeformular
> Trainingsbeschreibung als PDF

Präsenz-Training - Englisch

Termin Dauer
24.07. – 26.07.2024 3 Tage  
05.03. – 07.03.2025 3 Tage  

Live-Online - Deutsch

Termin Dauer
16.10. – 18.10.2024 3 Tage  

Präsenz-Training - Deutsch

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24.07. – 26.07.2024 3 Tage  
05.03. – 07.03.2025 3 Tage  

Embedded Multicore Microcontrollers: Practical Application - Live Online Training

Inhalt

Multicore Microcontroller Architecture

  • Definition of multicore architectures
  • Homogeneous/heterogeneous multicore architectures with shared memory and/or non-shared memory
  • Software aspects for multicore processing
  • Core interfaces and memories: core-local cache and SPRAM (level 1 memory); global/shared SRAM (level 2 memory), snoop logic, cache coherency
  • Requirements for instruction throughput (MIPS)
  • Core synchronization
  • Co-processor functionality
  • New core bus systems (crossbar)
  • Semaphores: memory resource access control
  • Memory protection (access protection)
  • Multicore interrupt processing
  • Multicore start-up/initialization: boot process, set-up of primary and secondary CPU(s)
  • Debug interface(s)

Multicore Microcontroller Tool Aspects

  • C/C++ compiler: extensions for multicore
  • Locating program and data sections in specific memory areas/segments; control of access rights to global/external definitions
  • Locator safety support: variable access control for multicore modules

RTOS

  • Multicore aspects for RTOS software
  • Scheduler: software/task deployment and execution strategies
  • Partitioning
  • Task synchronization concepts
  • Task communication concepts
  • Programming models and multicore API: communication, resource management
  • Examples of multicore RTOS implementations

Multicore Debugging and Test Aspects

  • Debugger extensions for multicore: core synchronization during debugging, synchronous start/stop, multicore breakpoint handling, core context sensitive visualization
  • Performance and timing analysis, analysis of software runtime behaviour (profiling)
  • Multicore and trace handling

Safety

  • Multicore in standards
  • Hardware safety measures
  • Safety management unit SMU
  • Bus error detection and protection mechanisms
  • Safety core (checker core, lockstep core)
  • Safety on-chip test features

Practical Exercises - Performed on an Evaluation Board based on Aurix Microcontrollers

  • Multicore start-up behavior
  • Memory allocation and partitioning
  • Decomposition of existing singlecore applications
  • Porting to multicore
  • Synchronization/communication
  • Protection mechanisms
  • Performance measurement