Step 1 of 5
Enter Your Project Parameters
Define the key requirements for your FTTR / GPON deployment. All fields update the system design in real time.
① What you enter
• Number of rooms or units
• Requested bandwidth per endpoint
• Longest fiber distance
• Services (WiFi, CATV, PoE, IPTV)
• Requested bandwidth per endpoint
• Longest fiber distance
• Services (WiFi, CATV, PoE, IPTV)
② What you get instantly
• OLT & endpoint selection
• Optical budget & feasibility check
• Complete Bill of Materials (BOM)
• Visual network topology diagram
• Optical budget & feasibility check
• Complete Bill of Materials (BOM)
• Visual network topology diagram
Start here — enter your project details below
All results update instantly as you type
Project Details
Core parameters — these drive all calculations
50 Mbps per endpoint is sufficient for most hospitality deployments. Values above 100 Mbps rarely add practical benefit.
Service Requirements
Select required services — the planner selects the best matching endpoint device automatically.
Step 2 of 5
System Design Overview
Real-time system concept and optical budget based on your project parameters.
Requested Bandwidth / Endpoint
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Mbps per endpoint
✓ Realistic System Bandwidth
—
Gbps — 20% simultaneity
Your network infrastructure must support at least this throughput under typical concurrent usage. This is the figure to use for backbone and uplink planning.
Theoretical Peak (not a planning basis)
—
Gbps — unrealistic simultaneous use
OLT Selection
System Details
Bandwidth Analysis
Realistic vs theoretical system bandwidth — click to expand
Cabling
Cable types, lengths and drum requirements — click to expand
Optical Budget
Signal loss analysis for worst-case fiber path — click to expand
Step 3 of 5
Bill of Materials
Complete product list for this system design. Quantities are calculated based on your project parameters.
Step 4 of 5
Topology Diagram
Visual representation of the complete FTTR / GPON signal path for your deployment.
Simplified block diagram of the FTTR/GPON infrastructure
Step 5 of 5
Request a Quote
Your system design is ready. Send it to AXING — a sales engineer will follow up with a personalised quotation.
Resources
GPON / FTTR vs Structured Cabling
Less Active Equipment
Fewer active switches and distribution nodes vs structured cabling.
Lower Power Consumption
Passive optical distribution reduces energy use significantly.
Reduced Infrastructure Space
No floor-by-floor network closets needed in most hospitality deployments.
Scalable for Future Services
Easy upgrade path for bandwidth, WiFi generations and in-room services.
Planning Assumptions & Disclaimers
General: This planner provides a preliminary system design based on simplified assumptions. Final system design must be validated based on detailed project requirements and site conditions.
Splitter strategy: Splitter configuration is optimised mathematically. Final design may vary depending on building layout and installation constraints.
WiFi / Endpoint: Endpoint selection is based on required port count and feature set (WiFi, CATV, PoE). Wireless coverage and capacity planning should be evaluated separately.
IPTV bandwidth: IPTV bandwidth is estimated using a default value per endpoint. Actual bandwidth depends on codec, resolution and service configuration.
Redundancy: Redundancy concepts (e.g. dual uplink, redundant OLT, backup power) are not included in this calculation and should be considered separately for production deployments.
Notice: Results are indicative only. For a validated configuration and official quotation, contact AXING at [email protected].