Advanced Features and Techniques of Embedded Systems Software Design

Course Description

This course will help software engineers fully utilize the components available in the Zynq® All Programmable System on a Chip (SoC) processing system (PS). This course covers advanced Zynq All Programmable SoC topics for the software engineer, including advanced boot methodology, the NEON co-processor, programming PS system-level function control registers, the general interrupt controller, the DMA, Ethernet, and USB controllers, and the various low-speed peripherals included in the Zynq All Programmable SoC processing system.

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Level

Embedded Software 4

Training Duration

1 day

Audience

Software design engineers interested in fully utilizing the Zynq extensible processing platform

Prerequisites

  • Embedded Systems Software Design or equivalent knowledge
  • C or C++ programming experience
  • Conceptual understanding of embedded processing systems, including device drivers, interrupt routines, Xilinx Standalone library services, user applications, and boot loader operation
  • Experience developing software for embedded processor applications

Software Tools

  • Vivado® Design or System Edition 2016.3

Hardware

  • Architecture: Zynq-7000 All Programmable SoC*
  • Demo board: Zynq-7000 All Programmable SoC ZC702 or ZedBoard*

*This course focuses on the Zynq-7000 All Programmable SoC. Check with your local Authorized Training Provider for the specifics of the in-class lab board or other customization’s. After completing this comprehensive training, you will have the necessary skills to:

Skills Gained

After completing this comprehensive training, you will know how to:

  • Implement an effective Zynq All Programmable SoC boot design methodology
  • Create an appropriate FSBL image for flash
  • Identify advanced Cortex™-A9 processor services for fully utilizing the capabilities of the Zynq All Programmable SoC
  • Analyze the operation and capabilities of the DMA controller in the Zynq All Programmable SoC
  • Examine the various Standalone library services and performance capabilities of the Ethernet and USB controllers in the Zynq All Programmable SoC
  • Describe the Standalone library services available for low-speed peripherals that are contained in the Zynq All Programmable SoC PS

Course Outline

  • Booting
    • Overview {Lecture, Lab}
    • Boot Memory Technologies {Lecture}
    • Flow {Lecture}
    • PS Processors {Lecture, Lab}
    • PL {Lecture, Lab}
    • Secure Boot {Lecture}
    • FSBL {Lecture, Demo}
  • General Interrupt Controller {Lecture}
  • Processor Caching and SCLR {Lecture}
  • NEON Co-Processing {Lecture}
  • DMA
    • Introduction and Features {Lecture}
    • Block Design and Interrupts {Lecture}
    • Read and Write {Lecture, Lab}
  • High-Speed Peripherals ○
    • Gigabit Ethernet {Lecture, Lab}
    • USB {Lecture}
  • Low-Speed Peripherals
    • Overview {Lecture, Lab}
    • UART {Lecture, Demo}
    • CAN {Lecture, Demo}
    • I2C {Lecture}
    • SPI {Lecture}
    • SD/SDIO {Lecture}

Topic Descriptions

  • Booting ○
    • Overview – Introduces the main points to how booting a processor is handled in Zynq All Programmable devices and MicroBlaze processors.
    • Boot Memory Technologies – introduces the main points of the memories that can be booted or executed from.
    • Flow – Provides a low-level view of the booting process.
    • PS Processors – Introduces the concepts behind a single-core boot, a dual-core boot, and symmetric or asymmetric processing.
    • PL – Introduces the concepts behind configuring the PL at boot.
    • Secure Boot – Introduces the concepts behind secure booting.
    • FSBL – Introduces the First Stage Boot Loader (FSBL).
  • General Interrupt Controller – Introduces the general interrupt controller (GIC), its features, and some examples of its use.
  • Processor Caching and SCLR – Introduces the concepts behind processing caching and the System-Level Control Register.
  • NEON Co-Processing – Introduces the concepts behind the NEON co-processor.
  • DMA 
    • Introduction and Features – Introduces the direct memory access controller.
    • Block Design and Interrupts – Introduces the DMA block design and the DMA interrupts.
    • Read and Write – Introduces the concepts behind DMA reading and writing.
  • High-Speed Peripherals
    • Gigabit Ethernet – Introduces the Gigabit Ethernet high-speed peripheral.
    • USB – Introduces the USB high-speed peripheral.
  • Low-Speed Peripherals

    • Overview – Introduces the low-speed peripherals in the Zynq All Programmable SoC.
    • UART – Introduces the UART low-speed peripheral.
    • CAN – Introduces the CAN low-speed peripheral.
    • I2C – Introduces the I2C low-speed peripheral.
    • SPI – Introduces the SPI low-speed peripheral.
    • SD/SDIO – Introduces the SD/SDIO low-speed peripheral.

Embedded


Datum
18 april 2018

Locatie
Core|Vision
Cereslaan 24
5384 VT
Heesch

Prijs
€ 0,00
of
9 Xilinx Training Credits

Informatie
Training brochure

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