Switching Labs

Campus Fabric Stitching with EVPN Segments

Layer VLAN intent across VXLAN segments, verify BUM handling, and keep student traffic isolated from lab automation.

Switching Advanced Remote

Tuition (informational)

780,000 KRW

No checkout on this site—coordinators confirm scope before invoices.

Illustrative still life for Campus Fabric Stitching with EVPN Segments

Instructor-led online

4 sessions · 16 lab hours

Scenario brief

You build a spine-leaf slice that mirrors a modern office stack. The storyline includes IoT VLANs, guest SSIDs, and a stubborn multicast source that refuses to behave. Expect to touch integrated routing and bridging, export route targets, and verify with traceroutes that do not lie.

Lead mentor

Sora Kwak

Designs switching labs the way rehearsal studios build tour rigs.

Inside the lab

Dual-homed hosts with consistent ES IDs
Multicast troubleshooting lane with guided heuristics
Automation hooks that stamp VLAN metadata into activity logs
Mentor checkpoints after each fabric milestone
Written lab brief modeled after real design reviews
Capture set for BUM storms and sane recovery
Peer review of your segmentation table before final sign-off

Outcomes

Translate VLAN spreadsheets into EVPN-first configs
Isolate blast radius without sacrificing operator clarity
Present evidence when something still floods unexpectedly

Logistics questions

No. Week three covers grafting a new VNI onto a brownfield VLAN map without renaming everything overnight.

Cohort notes

“Campus Fabric Stitching finally made EVPN feel like a storyboard instead of a PDF appendix.”

Mira · Network analyst

Via Trustpilot