Nuclideon Your digital twin should contain every point the sensor captured. Not 10% of it.
Your digital twin should contain every point the sensor captured. Not 10% of it.
Every digital twin program builds from a fraction of what the sensor captured.
Every digital twin program builds from a fraction of what the sensor captured.
Your team builds the digital twin from a fraction of what the sensor captured. Standard rendering platforms cannot process the full dataset at full resolution. The full dataset sits in storage, untouched.
Your digital twin is an approximation.
A mine site generates terabytes of point cloud per quarter. A corridor survey produces 200GB per campaign. A naval asset scan runs tens to hundreds of gigabytes per vessel. Your digital twin platform downsamples every dataset it receives. The twin your team interrogates contains a fraction of the data the sensor captured. (Based on LiDAR industry rendering standards for point cloud visualisation workflows.)
GPU dependency compounds every year.
Enterprise GPU workstations carry a total cost of ownership of $16,000 to $20,000 per seat per year — hardware, power, cooling, and staffing combined. Classified environments prohibit them. Mine sites break them. Every field deployment, office, and remote viewer adds to the overhead. GPU cloud instances run at 3–5x the cost of standard compute. At 10 seats, the annual burden compounds to $160K–$200K before licences or support contracts.
Your teams are disconnected when operational decisions happen.
Classified networks cannot use cloud platforms. Mine sites operate on satellite connections as slow as 2Mbps — enough to move email, not a 4TB drone capture. Field survey teams lose connection for 30-40% of the working day. A digital twin that requires cloud connectivity fails where operational decisions happen. (Based on Nuclideon deployment data across mining and defence field operations.)
Your full dataset. Rendered. On the hardware you already carry.
Your full dataset. Rendered. On the hardware you already carry.
Nuclideon's Unlimited Detail™ engine finds the exact points needed for each pixel on screen, drawn from datasets the sensor captured at full resolution. CPU-native rendering on standard hardware.
Full resolution at any scale.
Your team navigates the complete captured dataset at full resolution. The Unlimited Detail™ engine streams only the points each pixel on screen requires. Every point the sensor recorded is still there. Accessible at any camera position.
CPU-Native. Any Hardware.
Your team renders on the hardware they already carry. The same Dell Latitude that runs standard enterprise applications renders 200TB+ at full resolution. Standard CPUs on classified networks, mine sites, and field offices. Identical performance across all three.
Deploy in any environment.
Classified networks. Remote mine sites. Private cloud. Browser access within closed networks. Your team operates Nuclideon the same way across all four.
Four verticals. Full-resolution digital twins in all of them.
Four verticals. Full-resolution digital twins in all of them.
Run full-resolution digital twins on air-gapped, classified networks.
Your team accesses naval assets, forward operating bases, and operational terrain at full resolution on air-gapped infrastructure. Standard CPUs. All processing stays within the network perimeter. The US Navy runs Nuclideon on classified networks.
Access the full pit capture from the field edge to your geologists.
The drone captures the active pit at 80GB per flight. The Panasonic Toughbook at the pit edge loads the full dataset at full resolution. Geologists in Perth interrogate the same dataset for blast design. The Queensland Government builds their 3D Digital Twin on Nuclideon.
Render corridor-scale surveys at full fidelity on existing hardware.
Your team renders 200GB corridor surveys at full fidelity on existing hardware. Quarterly change detection runs across entire networks from a single capture. Condition monitoring from the complete captured dataset.
Embed digital twin rendering into your product.
Your customers need unlimited-scale 3D inside your platform. udSDK ships as a compiled DLL. Your engineering team integrates it. Your IP stays yours. Your customers get terabyte-scale digital twins inside the platform they already use.
Digital twins in production. Queensland Government. US Navy. Lockheed Martin. Verified at scale.
Digital twins in production. Queensland Government. US Navy. Lockheed Martin. Verified at scale.
Queensland Government. US Navy. Lockheed Martin. Each sent their data. Nuclideon rendered it at full resolution on their hardware. Each signed.
Nuclideon unified 171,000+ datasets into a single navigable twin.
The Queensland Government selected Nuclideon to power their statewide 3D Digital Twin. Nuclideon fuses LiDAR, photogrammetry, and geochemical data into a single navigable environment. Full resolution on standard government hardware. GIS integrations included.
The US Navy runs classified digital twins on air-gapped infrastructure.
The US Navy deployed Nuclideon for classified 3D geospatial visualisation across air-gapped networks. Nuclideon renders digital twins of naval assets and operational environments on standard government-issue hardware. CPU-native. Offline-capable.
udSDK powers the rendering engine inside Lockheed Martin's C2 infrastructure.
Lockheed Martin selected udSDK to deliver 3D geospatial rendering inside their Command and Control infrastructure. The library lives directly into the C2 stack. Full-resolution point cloud rendering on CPU.
30,000+ production users validated the engine.
Leica Geosystems licensed the Unlimited Detail engine to power their JetStream product line. 30,000+ survey professionals ran on this code at production scale for a decade inside a Tier 1 Hexagon product. Nuclideon's core engine carries a decade of production validation.
From raw capture to full-resolution twin. Three steps. Standard hardware.
From raw capture to full-resolution twin. Three steps. Standard hardware.
Ingest.
Connect udStream to terabytes of LiDAR, photogrammetry, terrain models, and imagery. We ingest native formats including LAS, LAZ, E57, PLY, PTS, XYZ, and proprietary formats from a variety of sensors platforms including RIEGL.
Navigate.
Full-resolution real-time 3D on standard hardware. Measure, annotate, compare the same site across capture dates, filter by classification, and fuse multi-source data into a single navigable environment. Your team works inside the digital twin.
Collaborate.
Your field teams, analysts, and partners access the same full-resolution twin from any location. Browser-based access for distributed teams. Embedded rendering for platform partners. On-premise or air-gapped for classified and disconnected environments. One dataset, every stakeholder, the deployment model your organisation requires.
Three products. CPU-native, full-resolution rendering no GPU-dependent platform delivers.
Three products. CPU-native, full-resolution rendering no GPU-dependent platform delivers.
Nuclideon built three products for three deployment environments. Pick the path that fits yours. Combine them when your program spans multiple.
udStream
Your team runs full-resolution digital twins on classified networks, mine sites, and field offices. Data and rendering stay on device. The US Navy and Queensland Government run udStream.
- → Full-resolution rendering on standard hardware
- → Air-gapped and offline deployment
- → CPU-native rendering
- → Multi-sensor data fusion
- → Measurement, annotation, and analysis tools
udCloud
udCloud delivers full-resolution digital twins to any device with a browser. Distributed teams navigate terabyte datasets over standard connections. Clients review project data as the capture progresses.
- → Browser-based 3D streaming
- → Low-bandwidth delivery
- → Multi-user collaboration
- → Flexible hosting (private or public cloud)
- → Browser-native access
udSDK
udSDK puts full-resolution digital twin rendering inside your platform. Your engineering team integrates the Unlimited Detail engine as a compiled DLL. Your customers get terabyte-scale 3D on the hardware they already run.
- → Compiled DLL with clean API
- → Unreal Engine, Command and Control (C2), GIS, and simulation integration
- → CPU-native rendering
- → Air-gapped integration support
- → Direct engineering support from the team that wrote the code
Bring your dataset. We build the digital twin on your hardware, in your environment.
Bring your dataset. We build the digital twin on your hardware, in your environment.
Your team runs the evaluation on your data, your hardware, your environment. The Queensland Government, the US Navy, and Lockheed Martin each started this way. They are all still running Nuclideon.