1. Teaching networking hardware
- Author
-
Gregory Watson, Nick McKeown, and Martin Casado
- Subjects
Routing protocol ,Router ,NetFPGA ,Computer science ,business.industry ,Internet traffic ,Network topology ,computer.software_genre ,Networking hardware ,Software ,Computer architecture ,ComputingMilieux_COMPUTERSANDEDUCATION ,Operating system ,Verilog ,The Internet ,business ,computer ,computer.programming_language - Abstract
We present our experience with the design and teaching of a graduate-level networking hardware course in which students design and build an Internet router. Each team of two students (one proficient in hardware and one proficient in software) design and develop a fully functional router that routes live Internet traffic and inter-operates with other students' routers via a simple routing protocol. Hardware is designed in Verilog using an industry-standard design flow on a specially designed platform, called NetFPGA. Software is written in user-space using a high-level language. Software and hardware are combined and tested using real network traffic over arbitrary private topologies using a custom tool, called VNS. Our approach is distinguished in that both hardware and software can be designed, tested and deployed remotely over the Internet. Our goal is to give students experience in the design of complex networking systems. In our initial course offering in Spring 2004, all teams successfully implemented fully functional routers in less than ten weeks. We will pilot courses outside of Stanford using the remote teaching infrastructure presented in this paper.
- Published
- 2005
- Full Text
- View/download PDF