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Adam Taylor’s MicroZed Chronicles Chronicles Part 79: Zynq SoC Ethernet Part III

by Xilinx Employee on ‎04-27-2015 09:42 AM (16,841 Views)

 

By Adam Taylor

 

Over the last two instalments of this blog we have looked at the Ethernet MACs (Media Access Controllers) within the Zynq SoC’s PS (processor system), including an in-depth exploration of a MAC usage example. The Ethernet MAC is a fundamental building block that allows us to implement an IP stack and thus create network-enabled solutions for our engineering challenges.

 

The IP stack, sometimes called the TCP/IP stack as the two are historically linked, is a series of protocols that are stacked on top of each other within an Ethernet frame. These protocols allow applications to communicate over a network. The IP stack therefore consists of a number of different protocols organized per the OSI protocol model. Should we deconstruct an IP stack, we would find the following protocols:

 

 

  • Layer 1 – Physical Layer: when using a Zynq SoC, an external PHY device and a suitable interconnection medium (e.g. RJ45 cable or Fiber) provide this layer.
  • Layer 2 – Ethernet – Data Link Layer: provided by one of the Zynq SoC’s MACs within the PS.
  • Layer 3 – IP – Network Layer – Internet Protocol: provides the network routing and addressing layer. Can be IPv4 or IPv6.
  • Layer 4 – TCP – Transport Layer – Transport Control Protocol: often called TCP.
  • Layer 5 – Application Layer: the application resides at this layer, be it HTML, SMTP, FTP, or another custom application.

 

As with many concepts, the ISO stack best illustrated visually, as shown in the diagram below:

 

 

Image1.jpg

 

 

We have already discussed the Data link layer in detail. However we have not yet addressed TCP or IP in any great detail, so I will attempt to provide a simple introduction.

 

Starting at the highest level, the TCP protocol provides a reliable, error-protected link to the application layer. TCP acknowledges each received frame to ensure reliable reception. The protocol also uses sequence numbering to ensure that the data transmitted by the application layer is passed to the receiving application in the correct format. Data correction in the protocol ensures there are no errors.

 

The concept of ports is used to determine which application the data is meant for. This scheme allows multiple applications to transmit data over the connection and using the same protocol without confusion. However, TCP does not provide the network routing; it does not make sure the data gets to the right port on the right network node. Getting data to the right place is the domain of the network layer which implements the Internet Protocol, IP.

 

The IP address format is well known. For example, 192.168.0.1 is an IP address. IP currently comes in two versions: IPv4 and IPv6. IPv6 addressing is the latest adaptation, necessary because IPv4 ran out of addresses, proving the success of TCP/IP beyond doubt.

 

Detailed explanation of the IP stack and TCP /IP would take nearly as many blogs as I have already written for this series. (We’re on Part 79, in case you didn’t notice.) The IP stack is a very complex subject. However, I think it’s important to introduce the basics of the stack before we begin to use it in subsequent blog posts.

 

More detail on the IP stack can be found at http://www.tcpipguide.com/free/.

 

Due to the inherent complexity within a TCP/IP stack, there are a number of pre-built stack libraries available. The IP stack we will be using over the next few blog posts is the lightweight IP stack (lwIP), the libraries for which can be included and configured when we build the BSP.

 

 

 

 

MicroZed Chronicles.jpg

 

 

 

 

Now, you can have convenient, low-cost Kindle access to the first year of Adam Taylor’s MicroZed Chronicles for a mere $7.50. Click here.

 

Please see the previous entries in this MicroZed Chronicles series by Adam Taylor:

 

 

Adam Taylor’s MicroZed Chronicles Chronicles Part 78: Zynq SoC Ethernet Part II

 

Adam Taylor’s MicroZed Chronicles Microzed Chronicles Part 77 – Introducing the Zynq SoC’s Ethernet

 

Adam Taylor’s MicroZed Chronicles Part 76: Constraints for Relatively Placed Macros

 

Adam Taylor’s MicroZed Chronicles, Part 75: Placement Constraints – Pblocks

 

Adam Taylor’s MicroZed Chronicles, Part 73: Physical Constraints

 

Adam Taylor’s MicroZed Chronicles, Part 73: Working with other Zynq-Based Boards

 

Adam Taylor’s MicroZed Chronicles, Part 72: Multi-cycle Constraints

 

Adam Taylor’s MicroZed Chronicles, Part 70: Constraints—Clock Relationships and Avoiding Metastability

 

Adam Taylor’s MicroZed Chronicles, Part 70: Constraints—Introduction to timing and defining a clock

 

Adam Taylor’s MicroZed Chronicles Part 69: Zynq SoC Constraints Overview

 

Adam Taylor’s MicroZed Chronicles Part 68: AXI DMA Part 3, the Software

 

Adam Taylor’s MicroZed Chronicles Part 67: AXI DMA II

 

Adam Taylor’s MicroZed Chronicles Part 66: AXI DMA

 

Adam Taylor’s MicroZed Chronicles Part 65: Profiling Zynq Applications II

 

Adam Taylor’s MicroZed Chronicles Part 64: Profiling Zynq Applications

 

Adam Taylor’s MicroZed Chronicles Part 63: Debugging Zynq Applications

 

Adam Taylor’s MicroZed Chronicles Part 62: Answers to a question on the Zynq XADC

 

Adam Taylor’s MicroZed Chronicles Part 61: PicoBlaze Part Six

 

Adam Taylor’s MicroZed Chronicles Part 60: The Zynq and the PicoBlaze Part 5—controlling a CCD

 

Adam Taylor’s MicroZed Chronicles Part 59: The Zynq and the PicoBlaze Part 4

 

Adam Taylor’s MicroZed Chronicles Part 58: The Zynq and the PicoBlaze Part 3

 

Adam Taylor’s MicroZed Chronicles Part 57: The Zynq and the PicoBlaze Part Two

 

Adam Taylor’s MicroZed Chronicles Part 56: The Zynq and the PicoBlaze

 

Adam Taylor’s MicroZed Chronicles Part 55: Linux on the Zynq SoC

 

Adam Taylor’s MicroZed Chronicles Part 54: Peta Linux SDK for the Zynq SoC

 

Adam Taylor’s MicroZed Chronicles Part 53: Linux and SMP

 

Adam Taylor’s MicroZed Chronicles Part 52: One year and 151,000 views later. Big, Big Bonus PDF!

 

Adam Taylor’s MicroZed Chronicles Part 51: Interrupts and AMP

 

Adam Taylor’s MicroZed Chronicles Part 50: AMP and the Zynq SoC’s OCM (On-Chip Memory)

 

Adam Taylor’s MicroZed Chronicles Part 49: Using the Zynq SoC’s On-Chip Memory for AMP Communications

 

Adam Taylor’s MicroZed Chronicles Part 48: Bare-Metal AMP (Asymmetric Multiprocessing)

 

Adam Taylor’s MicroZed Chronicles Part 47: AMP—Asymmetric Multiprocessing on the Zynq SoC

 

Adam Taylor’s MicroZed Chronicles Part 46: Using both of the Zynq SoC’s ARM Cortex-A9 Cores

 

Adam Taylor’s MicroZed Chronicles Part 44: MicroZed Operating Systems—FreeRTOS

 

Adam Taylor’s MicroZed Chronicles Part 43: XADC Alarms and Interrupts 

 

Adam Taylor’s MicroZed Chronicles MicroZed Part 42: MicroZed Operating Systems Part 4

 

Adam Taylor’s MicroZed Chronicles MicroZed Part 41: MicroZed Operating Systems Part 3

 

Adam Taylor’s MicroZed Chronicles MicroZed Part 40: MicroZed Operating Systems Part Two

 

Adam Taylor’s MicroZed Chronicles MicroZed Part 39: MicroZed Operating Systems Part One

 

Adam Taylor’s MicroZed Chronicles MicroZed Part 38 – Answering a question on Interrupts

 

Adam Taylor’s MicroZed Chronicles Part 37: Driving Adafruit RGB NeoPixel LED arrays with MicroZed Part 8

 

Adam Taylor’s MicroZed Chronicles Part 36: Driving Adafruit RGB NeoPixel LED arrays with MicroZed Part 7

 

Adam Taylor’s MicroZed Chronicles Part 35: Driving Adafruit RGB NeoPixel LED arrays with MicroZed Part 6

 

Adam Taylor’s MicroZed Chronicles Part 34: Driving Adafruit RGB NeoPixel LED arrays with MicroZed Part 5

 

Adam Taylor’s MicroZed Chronicles Part 33: Driving Adafruit RGB NeoPixel LED arrays with the Zynq SoC

 

Adam Taylor’s MicroZed Chronicles Part 32: Driving Adafruit RGB NeoPixel LED arrays

 

Adam Taylor’s MicroZed Chronicles Part 31: Systems of Modules, Driving RGB NeoPixel LED arrays

 

 Adam Taylor’s MicroZed Chronicles Part 30: The MicroZed I/O Carrier Card

 

Zynq DMA Part Two – Adam Taylor’s MicroZed Chronicles Part 29

 

The Zynq PS/PL, Part Eight: Zynq DMA – Adam Taylor’s MicroZed Chronicles Part 28  

 

The Zynq PS/PL, Part Seven: Adam Taylor’s MicroZed Chronicles Part 27

 

The Zynq PS/PL, Part Six: Adam Taylor’s MicroZed Chronicles Part 26

 

The Zynq PS/PL, Part Five: Adam Taylor’s MicroZed Chronicles Part 25

 

The Zynq PS/PL, Part Four: Adam Taylor’s MicroZed Chronicles Part 24

 

The Zynq PS/PL, Part Three: Adam Taylor’s MicroZed Chronicles Part 23

 

The Zynq PS/PL, Part Two: Adam Taylor’s MicroZed Chronicles Part 22

 

The Zynq PS/PL, Part One: Adam Taylor’s MicroZed Chronicles Part 21

 

Introduction to the Zynq Triple Timer Counter Part Four: Adam Taylor’s MicroZed Chronicles Part 20

 

Introduction to the Zynq Triple Timer Counter Part Three: Adam Taylor’s MicroZed Chronicles Part 19

 

Introduction to the Zynq Triple Timer Counter Part Two: Adam Taylor’s MicroZed Chronicles Part 18

 

Introduction to the Zynq Triple Timer Counter Part One: Adam Taylor’s MicroZed Chronicles Part 17

 

The Zynq SoC’s Private Watchdog: Adam Taylor’s MicroZed Chronicles Part 16

 

Implementing the Zynq SoC’s Private Timer: Adam Taylor’s MicroZed Chronicles Part 15

 

MicroZed Timers, Clocks and Watchdogs: Adam Taylor’s MicroZed Chronicles Part 14

 

More About MicroZed Interrupts: Adam Taylor’s MicroZed Chronicles Part 13

 

MicroZed Interrupts: Adam Taylor’s MicroZed Chronicles Part 12

 

Using the MicroZed Button for Input: Adam Taylor’s MicroZed Chronicles Part 11

 

Driving the Zynq SoC's GPIO: Adam Taylor’s MicroZed Chronicles Part 10

 

Meet the Zynq MIO: Adam Taylor’s MicroZed Chronicles Part 9

 

MicroZed XADC Software: Adam Taylor’s MicroZed Chronicles Part 8

 

Getting the XADC Running on the MicroZed: Adam Taylor’s MicroZed Chronicles Part 7

 

A Boot Loader for MicroZed. Adam Taylor’s MicroZed Chronicles, Part 6 

 

Figuring out the MicroZed Boot Loader – Adam Taylor’s MicroZed Chronicles, Part 5

 

Running your programs on the MicroZed – Adam Taylor’s MicroZed Chronicles, Part 4

 

Zynq and MicroZed say “Hello World”-- Adam Taylor’s MicroZed Chronicles, Part 3

 

Adam Taylor’s MicroZed Chronicles: Setting the SW Scene

 

Bringing up the Avnet MicroZed with Vivado

 

 

 

 

 

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About the Author
  • Be sure to join the Xilinx LinkedIn group to get an update for every new Xcell Daily post! ******************** Steve Leibson is the Director of Strategic Marketing and Business Planning at Xilinx. He started as a system design engineer at HP in the early days of desktop computing, then switched to EDA at Cadnetix, and subsequently became a technical editor for EDN Magazine. He's served as Editor in Chief of EDN Magazine, Embedded Developers Journal, and Microprocessor Report. He has extensive experience in computing, microprocessors, microcontrollers, embedded systems design, design IP, EDA, and programmable logic.