The Optical Backplane for Next-Gen AI Infrastructure
Primary product shot
The AI Data Center Challenge
Copper backplanes are hitting physical limits: weight strains racks, bundles block airflow, and reach constraints strand compute capacity.
Floor loading
Racks ship heavy; structural limits bite.
Airflow choke
Thick copper bundles restrict cooling.
Reach limits
Infinity Fiber Bus Bar
A rack-level optical backplane that turns the whole rack into a single, hot-pluggable AI container. Slide a sled in—power, cooling, and 288 optical lanes blind-mate in one motion.
Hot-pluggable sleds
Blind-mate optics
Disaggregated upgrades
Speed That Scales
Built for 800G and 1.6T lanes. Expanded-beam optics deliver thousands of mating cycles with minimal loss—and a reach that spans the data center.
800G / 1.6
Tready
10,000+
mating cycles
500m
reach
Rack-Scale Architecture
Each sled carries dual 144-fiber EBO connectors. The passive shuffle board routes lanes to structured cables—no active parts, no retimers, no heat.
288
fibers per sled
Dual EBO blocks
Structured cable exit
Built for the Workload
From training clusters to CPO-enabled switches, the Infinity FBB simplifies cabling, improves airflow, and extends reach—without sacrificing density.
AI training clusters
Scale from 25kW island to 200kW row-scale pool.
CPO-enabled switches
Route optical engines to front panel with 20× density improvement.
Spine-leaf fabrics
800G/1.6T spine-leaf interconnect with simplified cable management.
top Splicing at the Endpoint
Ready to deploy fiber faster through micro-ducts? Request a SlimRun Jet evaluation kit with SC and LC variants, 1.2mm jetting cable samples, and blowing compatibility guidelines. Our application engineers will validate duct specifications for your specific FTTH infrastructure.