Senior Network Engineer
Rivada Space
Your mission
This includes:
· Design of system-level network architectures for MEF-based services produced by Multilayer-MPLS adapted to the dynamics of a network flying in space
· Network simulations and prototyping
· Documentation of requirements and interfaces
· Interworking with engineering teams for other system domains
· Support of network technology supplier selection
· Technical steering of development activities
· System verification and test support
· Support network deployment and activation
· Support network operations
o Support the development of operations scenarios
o Support analysis and reports of service performance and service assurance
o Troubleshooting support
What you bring on the table
· At least 5 years of experience working in a telecoms environment, at least 2 years working with MPLS networks
· Networking knowledge
o L2VPN and L3VPN with MPLS and SRv6 encapsulation, EVPN and VPNv4/6
o Segment Routing TE (MPLS and SRv6)
o Routing protocols: IS-IS, BGP
· Experience with Network Simulation tools (i.e. containerlab)
· Experience with packet analysis tools
· Certifications desirable: CCNA, CCNP, CCIE, MEF-CECP
· Fluency in English language
Additional desirable skills
· Experience from Carrier Service providers
· Experience with Satcom operators or Satcom suppliers
· Knowledge of network termination equipment
· Design of management networks
· Network operations experience
· Process/Workflow definition
Why you should join us
About us
Rivada Space Networks is deploying the Outernet: the first unified global communications network. Rivada's global low-latency point-to-point network of 600 low earth orbit (LEO) satellites is a unique next-generation constellation combining inter-satellite laser links with advanced onboard processing and routing to create a ubiquitous optical mesh network in space. This "orbital network," in which data stays in space from origin to destination, creates an ultra-secure satellite network with pole-to-pole coverage, offering end-to-end latencies much lower than terrestrial fiber over long distances. And by routing traffic on a physically separated network, it provides a layer of defense for any organization that needs to securely share data between widely distributed sites.