Global Transit Backbone
A resilient, cloud-routed BGP network fabric connecting enterprises globally.
The Cost of Unstable IP Routing
Standard internet connections rely on public peering routes that are often congested, resulting in latency spikes, routing loops, and packet loss. For distributed enterprises operating databases, video communications, or edge AI models, these dynamic route changes degrade productivity. Additionally, dynamic DHCP lines and Carrier-Grade NAT (CGNAT) block inbound port forwarding, preventing direct, secure remote access configurations.
XTT's Anycast BGP Backbone
XTT owns, announces, and routes its own autonomous IP blocks (**AS207612** and **AS199035**). By running dedicated transit nodes across key geographic Points of Presence, we route client tunnels directly through our private, optimized backbone. This bypasses local ISP congestion, injects a clean, static, dedicated IPv4 address, and guarantees stable traffic steering across any collection of first-mile circuits.
Active Core Exchange PoPs
Our network is built on geographically diverse, high-availability data centers equipped with multi-homed Tier-1 carrier uplinks:
Atlanta (US-East)
Primary Exchange Center
10G Dedicated Port Uplinks
AS207612 Core Node
Dallas (US-Central)
High-Throughput Routing Node
Active Path Steering
BGP Anycast Resiliency
Seattle (US-West)
Pacific Gateway Node
Optimized Path Routing
Failover Redundancy
Latency & SLA Commitments
We commit to low-latency traffic delivery and strict availability standards backed by contract credits:
| Backbone Segment | Round-Trip Latency | Target Packet Loss | SLA Target |
|---|---|---|---|
| Atlanta Core Hub to Dallas Node | < 22 ms | < 0.05% | 98% |
| Dallas Node to Seattle Gateway | < 38 ms | < 0.05% | 98% |
| Enterprise CPE to Core Hub (Fiber) | < 15 ms | < 0.1% | 98% (Multi-WAN) |
| Remote CPE to Core Hub (Bonded LTE/Starlink) | < 45 ms | < 0.25% | 98% (Multi-WAN) |
The XTT Routing Advantage
Without XTT
- Dynamic IP changes that break firewall mappings and remote SSH sessions.
- CGNAT blocks inbound tunnels, stopping home lab or remote branch servers from hosting services.
- Congested public route peerings that lead to packet latency loops.
- No performance guarantees across the first-mile.
With XTT
- Dedicated static IPv4 blocks announced directly from XTT's own AS space.
- CGNAT bypass tunnels allow seamless inbound traffic routing to any edge device.
- Optimized BGP pathing routing traffic through our private core exchanges.
- SLA guarantees backed by financial uptime credits.