Ethernet Protocol Training

Embedded development boards with Ethernet interface for automotive and IoT applications
Ethernet and fiber optic cable for high-speed automotive networking

Course Objective

Build a strong foundation in Ethernet fundamentals.
Master MAC & IP addressing, ARP/NDP, IPv4/IPv6 subnetting.
Understand Ethernet frame structures and formats.
Gain hands-on debugging with Wireshark, tcpdump, iperf3.
Practice real networking labs using Raspberry Pi (Ethernet + TCP/UDP).
Develop skills for troubleshooting and performance analysis.
Prepare for advanced topics like TSN and Ethernet optimization.

What You Will Learn

Ethernet fundamentals – intro, history, features & applications.
Working principle – data flow, switches vs hubs, duplex, IFG.
Addressing – MAC (OUI, bits, multicast) & IP (IPv4/IPv6, CIDR).
Address resolution – ARP for IPv4, NDP for IPv6.
Ethernet protocols – Ethernet II, 802.3, VLANs, QinQ, MTU.
Transport layer – TCP vs UDP (handshake, reliability, use cases).
Hands-on labs – Raspberry Pi ↔ PC captures with Wireshark & tools.
Female software engineer coding Ethernet protocol for automotive embedded systems

Who Should Enroll ?

Embedded & firmware engineers (MCU/RTOS).
Electronics engineers working with Ethernet hardware.
Network & systems engineers seeking TCP/IP confidence.
Automotive IVN/DoIP/TSN engineers and testers.
FPGA/VLSI engineers integrating MAC/PHY.
Students upgrading to embedded Ethernet skills.
Professionals aiming for Automotive Ethernet expertise.

Prerequisites

Basic C programming knowledge.
Familiarity with Linux shell commands.
Understanding of digital communication basics (bits, frames, CRC).
Awareness of networking fundamentals.
Laptop required (Linux preferred).
Raspberry Pi for final hands-on lab.
Curiosity to explore Ethernet in depth.

Course Syllabus

Ethernet Protocol Syllabus 👉Download

Which Course is Right for You?

TrackFocus AreasCourse Path
✅ Starter TrackFoundations, addressing, frames, TCP/UDP, tools, Pi ↔ PC labEthernet Protocol Training
✅ Embedded TrackLwIP/RTOS drivers, DMA & interrupts, throughput tuningEmbedded Ethernet Course
✅ Automotive/TSNIn-vehicle networks, SOME/IP, DoIP basics, gPTP/Qbv orientationAutomotive Ethernet Training, TSN Training
✅ Hardware/FPGARGMII timing, PHY/MDIO bring-up, MAC integration (intro → advanced follow-up)Hardware/FPGA-focused Ethernet Courses
Hands-on Projects Section
Wireshark packet gallery – Ethernet II, VLAN, ARP/NDP, ICMP, TCP, UDP.
IPv4/IPv6 subnet design using CIDR/VLSM.
VLAN-based small lab addressing plan.
TCP vs UDP benchmarking with iperf3.
Analyze throughput, jitter, and packet loss.
Raspberry Pi ↔ PC end-to-end captures.
Final demo with findings report.
Tools & Technologies Covered
Wireshark, tcpdump, iperf3, ip, ethtool.
Ethernet II & 802.3 frame formats.
VLAN & QinQ tagging concepts.
Addressing & resolution: ARP, NDP.
Core protocols: IPv4/IPv6, ICMP, DHCP, DNS.
Transport: TCP & UDP analysis.
Hardware & TSN basics (MAC/PHY, MII/RGMII, gPTP/Qbv).
Hands-on Projects Section
Wireshark packet gallery – Ethernet II, VLAN, ARP/NDP, ICMP, TCP, UDP.
IPv4/IPv6 subnet design using CIDR/VLSM.
VLAN-based small lab addressing plan.
TCP vs UDP benchmarking with iperf3.
Analyze throughput, jitter, and packet loss.
Raspberry Pi ↔ PC end-to-end captures.
Final demo with findings report.
Tools & Technologies Covered
Wireshark, tcpdump, iperf3, ip, ethtool.
Ethernet II & 802.3 frame formats.
VLAN & QinQ tagging concepts.
Addressing & resolution: ARP, NDP.
Core protocols: IPv4/IPv6, ICMP, DHCP, DNS.
Transport: TCP & UDP analysis.
Hardware & TSN basics (MAC/PHY, MII/RGMII, gPTP/Qbv).
AUTOSAR course overview

Contact Us Now

Phone:

+91-9071123555

Email:

info@piestsystems.com

Contact Us
Registration
Scroll to Top