Four Fibers. One Cable. Zero Compromise.

MCF FIFO Multi-Core Fiber Solution — Break the density bottleneck in AI training clusters with 4-core (or 7-core) fiber backbones.

One cable carries four times the traffic, reducing physical cable volume by 75% while breaking out to standard LC/SC connectors for your current 400G/800G hardware. Factory-precision rotational alignment means plug-and-play deployment without field splicing complexity.

Development Stage

4-Core/7-Core

≤1° Factory Alignment

≤0.7dB IL

LC/SC Breakout

75% Less Cable Volume

AI training clusters demand massive fiber counts between GPU racks—often thousands of fibers in confined cable trays and underfloor pathways. Multi-Core Fiber packs 4 independent optical paths (or 7) into a single cladding, reducing cable diameter and congestion by 75% versus traditional single-fiber cables. Same bandwidth, one-fourth the physical space. Ideal for retrofitting dense AI backbones where conduit fill is already maxed out.

≤1° Rotational Alignment, Pre-Locked

MCF deployment fails if rotational alignment between cores isn’t perfect. We’ve solved the hard part in the factory—each FIFO device is precision-aligned to ≤1° rotational tolerance and permanently locked. Field technicians don’t need specialized MCF splicing equipment or rotational microscopes. The FIFO arrives as a sealed 55mm PLC-style device: MCF cable enters one side, four standard LC/SC connectors exit the other. Zero-touch deployment for complex multi-core technology.

MCF Backbone, Single-Core Hardware

You don’t need to wait for MCF-native transceivers. Deploy MCF as your backbone infrastructure today, using our FIFO assemblies to break out into standard LC/SC connectors that plug directly into existing 400GBASE-DR4/FR4 transceivers and switches. When MCF-native hardware arrives, simply remove the FIFO—your cable plant is already future-proofed. No forklift upgrades, no stranded assets, just a migration path that starts saving space immediately.

≤50dB Crosstalk for QKD Applications

Beyond density, the ultra-low inter-core crosstalk (≤50dB) enables quantum key distribution (QKD) networks where separate cores carry data and quantum encryption keys without interference. While optimized for AI training density, the same precision makes MCF FIFO suitable for government and financial networks requiring physical-layer security. One infrastructure, dual-purpose capability.

Technical Specifications

MCF FIFO is currently in development stage with pilot samples available for evaluation. Specifications represent pre-production targets. Contact our engineering team for current sample availability and roadmap timing.

Standards Compliance:

Draft IEC PAS 63503-3-30 (MCF connectivity standards)

Rotational alignment per emerging industry benchmarks

PLC footprint compatible with standard optical distribution frames

Future Roadmap:

Direct MCF connector assemblies (pre-terminated cables)

Micro-optic solutions (MT/TMT/FA interfaces)

Parallel optic breakouts (SN, CS, MDC) for next-gen 800G/1.6T

Optical Performance (Development Targets):

Parameter

4-Core Configuration

7-Core Configuration

Insertion Loss (IL)

≤0.7 dB

≤1.0 dB

Return Loss (RL)

≤-50 dB

Channel Crosstalk

≤-50 dB

Rotational Alignment

≤1° (factory-set)

Physical & Environmental:

Parameter

Specification

FIFO Device Dimensions

55mm x 7.3mm x 4.1mm (PLC-style footprint)

Enclosure Type

Metal enclosure, steel tube option

Fiber Count

4-core or 7-core (customized available)

Operating Temperature

-40°C to +70°C

Breakout Connectors

LC, SC (brand agnostic)

MCF Cable Length

Customized to project requirements

Deployment Configurations

Density for GPU Scale-Out

Training large language models requires thousands of GPUs interconnected via high-bandwidth fiber. Traditional single-fiber cables congest cable trays and create airflow blockages. MCF FIFO delivers 4x the fiber count in the same physical pathway—run 400G/800G links between GPU racks without adding cable management chaos. The factory-aligned FIFO breaks out to standard LC connectors at each end, integrating seamlessly with existing InfiniBand or Ethernet switches while you prepare for next-gen MCF-native hardware.

Maximize Conduit Fill

Campus and metro DCI links often face physical constraints—underground ducts, aerial pathways, and leased fiber with limited capacity. MCF quadruples the capacity per fiber strand without digging new trenches or leasing additional dark fiber. The compact 55mm FIFO device fits standard splice trays and ODFs, making it compatible with existing termination infrastructure. Deploy MCF between buildings now; upgrade to native MCF transceivers later without touching the cable plant.

Bridge Today, Native Tomorrow

MCF represents the physical layer for future 800G and 1.6T parallel optics—but the cables can be deployed today. Our FIFO solution lets you install MCF backbones during current build-outs, use them with existing LC/SC-based 400G hardware, and simply remove the FIFO devices when MCF-native transceivers become available. No stranded assets, no rip-and-replace. The 75% space savings start immediately; the protocol upgrades come when you’re ready.

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.