An entire optical channel on Tier 1 DWDM networks — no packet queuing, no shared fabric, just light. When 10, 100, or 400 gigabits need to move between data centers with latency you can publish, this is the tool.
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Some workloads can't tolerate a shared fabric: market data feeds where microseconds are money, storage replication that must finish inside the window, uncompressed media moving between facilities in real time. A wavelength hands you the entire optical channel — protocol-transparent, deterministic, and private by physics. Every FiberX wavelength quote ships with route maps and latency figures so your architects validate the path before you sign.
| Wave | Typical Mission |
|---|---|
| 10G | Storage replication, DR, high-volume backup between facilities |
| 100G | Data-center interconnect, exchange connectivity, media backbone |
| 400G | Hyperscale DCI, carrier backbone, AI/data-pipeline transport |
| Protected wave | Auto-switching diverse paths for mission-critical channels |
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Deterministic paths for market data and order flow between venues.
Uncompressed video between studios, trucks, and playout facilities.
Backbone capacity between availability zones and carrier hotels.
Genomics, imaging archives, and datasets that dwarf normal circuits.
Ethernet transport is a managed Layer 2 service — the carrier handles the optics and hands you clean Ethernet. A wavelength gives you the raw optical channel itself: higher ceilings (to 400G), lower deterministic latency, and full protocol transparency. Ethernet fits most needs to 100G; waves win when latency and scale are the mission.
Yes — every wavelength quote includes route maps and latency metrics per path, so network architects can validate the design before committing.
Unprotected waves cost less and suit traffic you can reroute yourself (or tolerate briefly losing). Protected waves switch to a diverse path automatically. Many clients run one of each and let the application layer decide.
The major interconnection points — 60 Hudson Street, 111 8th Avenue, 32 Avenue of the Americas, 325 Hudson, plus the New Jersey data-center corridor and beyond via partner networks. Tell us your A and Z locations and we'll confirm.
Yes. Waves are protocol-transparent — Fibre Channel, Ethernet, and OTN framings all ride cleanly, which is why storage teams love them for replication.
Tell us your A and Z locations — full design in 24 hours.
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