Azure VPN Gateway
We design and implement VPN connectivity that stays stable: redundant tunnels, clear routing, secure access, and monitoring that detects issues before users complain.
- Hybrid Connectivity
- S2S & P2S
- Routing
Connectivity designed for resilience and operations — not just ‘it pings’ on day one.
VPN Gateway Work We Deliver
Hybrid connectivity requires correct routing, redundancy, identity, and monitoring to avoid intermittent outages.
S2S VPN Design
Redundant tunnels, BGP where appropriate, and routing patterns aligned to your network.
P2S Access
Secure remote user connectivity with identity integration and least-privilege access.
Name Resolution
Hybrid DNS strategies so services resolve consistently across on-prem and Azure.
Monitoring & Failover
Dashboards and alerts for tunnel health, latency, and packet loss.
Implementation Steps
- 1
Connectivity Requirements
Bandwidth, latency, availability targets, and security constraints.
- 2
Design
Gateway sizing, redundancy, routing, and DNS strategy.
- 3
Build & Validate
Implement, test failover, and validate real application flows (not just ICMP).
- 4
Operate
Monitoring, alerts, and runbooks for common tunnel issues.
What You Get
Hybrid connectivity design with redundancy and clear routing.
P2S access model aligned to identity and security requirements.
Monitoring and alerts for tunnel health and performance.
Runbooks for troubleshooting and incident response.
Common Issues We Fix
Intermittent drops
Tunnels flap due to weak redundancy or incorrect routing.
DNS inconsistencies
Name resolution differs across networks, breaking private access.
No visibility
Teams don’t know the tunnel is failing until users report it.
VPN Gateway Questions
Make Hybrid Connectivity Reliable
Tell us your on-prem environment and Azure goals. We’ll propose a VPN Gateway design with redundancy and monitoring built in.
Book a Call