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The Briza Fiber Advantage

Technical Details

Fast Deployment with Minimal Impact

Briza Fiber uses aerial deployment alongside power lines with Optical Ground Wire (OPGW), enabling fast installation through existing utility corridors with minimal environmental disturbance.

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Traditional Fiber

Infrastructure Type

Co-located with power lines using OPGW and aerial span fiber

Trench-based installation in roads, easements, or ROWs

Permitting & Environmental Impact

Lower impact—uses existing ROWs, minimal new disturbance

High impact—requires permitting, environmental review

Reliable & Easy to Maintain

Briza Fiber uses single-mode fiber with surface-level splice access points for easier maintenance. It is built to withstand desert conditions, designed to National Electrical Safety Code (NESC) standards, and uses materials well-suited for high wind and dry climates.

Traditional Fiber

Fiber Type

Single-mode fiber; identical glass core with varied jackets

Single-mode fiber; buried in conduit or direct-buried

Splice Access

Ground-level splice boxes (within 15 ft) using Coyote enclosures

Typically underground vaults or handholes; access requires excavation or special equipment

Resilience

High—fewer splice points, easier access, power-line restoration aligned

Moderate—buried fiber is protected but harder to access and repair

Wind Loading & Weather Resistance

Designed to NESC standards; desert-suited materials

Protected underground, but vulnerable to flooding, erosion

Fire & Hazard Resistance

Low fire risk due to sparse vegetation in desert Southwest

Fire-safe but may be affected by water table or seismic shifts

Maintenance & Upgrades

Easier—surface-level access, minimal excavation needed

Harder—digging and permits required for changes

Lower Costs & Faster Scaling

Briza Fiber's aerial deployment significantly reduces capital costs by leveraging existing infrastructure and avoiding major civil works. It allows for much faster deployment timelines and offers high scalability with frequent access points and dedicated colocation sites.

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Traditional Fiber

Deployment Speed

Faster—leverages existing utility corridors and poles

Slower—requires trenching, boring, permitting

Cost (CapEx)

Significantly lower—shared infrastructure, fewer civil works

High—trenching, restoration, and traffic control expensive

Time to Market

Faster—months faster than underground

Slower—can take 12–36 months depending on location

Optimized for Desert Terrain

Optimized for dry, open desert terrain, Briza Fiber faces minimal fire risk, minimal permitting requirements, and avoids the challenges of trenching in rocky or environmentally sensitive areas.

Traditional Fiber

Environmental Suitability (Southwest)

Excellent—suited for dry, open terrain with few natural hazards

Challenging—desert trenching can be costly and slow due to rocky soil

Built for High Capacity & Rural Reach

Briza Fiber is future-proof, supporting DWDM, 100G+, and 400G+ technologies. It is ideal for middle-mile and long-haul routes across rural regions, connecting underserved and remote areas with high-capacity infrastructure.

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Traditional Fiber

Scalability & Interconnects

High—access points along route with dedicated colocation sites

Depends on handhole and vault placement; often limited

Network Capacity & Future-Proofing

Supports DWDM, 100G+, 400G+, and IRUs

Same capacity, but with higher O&M costs over time

Use Case Fit

Ideal for middle-mile and long-haul across rural regions

Better fit for dense urban areas or short last-mile runs