Survey-grade terrain data. In minutes.

Draw your site on the map. Download CAD-ready terrain built from public USGS lidar — surfaces, point clouds, and elevation models.

Check coverage for your area
10 cm
vertical accuracy where covered
2,269
USGS lidar collections indexed
Any EPSG
coordinate system & datum
Free
availability report for any site

All data from the USGS 3D Elevation Program — collection dates and accuracy reported on every order.

How it works

From map to deliverable in three steps

No procurement, no sales call, no subscription.

  1. 1

    Draw your area

    Sketch your site or import a KML. A free report shows what lidar covers it — when it was flown and how accurate it is.

  2. 2

    Pick formats & coordinate system

    Choose your coordinate system, vertical datum, and file formats. Survey-grade localization if you need it.

  3. 3

    Download deliverables

    We clip, reproject, and format in the cloud. Download links in minutes.

Where teams use it

Terrain truth for every stage of a project

From first sketch to ML pipeline — the same federal lidar, packaged for how you work.

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Site planning & feasibility

Check grades, drainage, and earthwork before committing to a site — no field work needed.

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Pre-survey scoping

Price and plan survey work knowing what the ground actually looks like.

engineering

Civil design surfaces

A ground TIN in Civil 3D on day one; reconcile against field control as the project matures.

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AI & machine learning

Clean, documented point clouds and rasters for terrain models and geospatial ML.

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Drainage & earthwork studies

Watershed delineation, cut/fill screening, and stormwater studies from high-resolution ground surfaces.

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Environmental & research

Canopy, erosion, and habitat studies with the full classified point cloud — every return, not just ground.

What you get

Deliverables, not downloads

Every file is clipped to your area and reprojected to your coordinate system and vertical datum.

LAS / LAZ

Classified point cloud

The full lidar point cloud — every return with its original classification (ground, vegetation, buildings), reprojected to your coordinate system and vertical datum.

Use it in: Civil 3D (via ReCap), ArcGIS Pro, QGIS, Global Mapper, CloudCompare, PDAL, or ML pipelines.

DXF

Ground TIN surface

A triangulated ground surface built from ground-classified returns at your chosen resolution, with the coordinate system embedded (GEODATA) so CAD knows where it sits in the world.

Use it in: Civil 3D or AutoCAD — opens as 3D faces ready to convert to a TIN surface object.

ENU

East, North, Up points

Plain-text East, North, Up ground points (.enu) — the lowest-friction interchange format there is.

Use it in: anything — spreadsheets, Surfer, HEC-RAS, custom scripts, legacy packages.

GeoTIFF

Digital elevation model

A georeferenced elevation raster interpolated from ground returns.

Use it in: QGIS, ArcGIS Pro, Rhino/Grasshopper, game engines, and raster ML workflows.

Bring it into your software

Loads where you already work

The coordinate system travels inside every file, so imports land in the right place the first time.

Autodesk Civil 3D

  1. DXF surface: open the delivered DXF (the coordinate system travels inside it), select the 3D faces, and use “Create Surface from DXF/3D faces” — you have a TIN surface object immediately.
  2. Point cloud: index the LAS/LAZ in Autodesk ReCap to create an RCP project, attach it in Civil 3D with “Attach Point Cloud”, then create a surface from the ground-classified points.
  3. Confirm the drawing’s coordinate system matches the EPSG you ordered (we print it in the order summary and embed it in the files).

QGIS

  1. Drag the LAS/LAZ file into QGIS 3.32+ — native point-cloud rendering, no plugins required.
  2. Load the GeoTIFF DEM directly for contours, hillshades, and hydrology tools.
  3. The CRS is read from the file; QGIS will reproject on the fly to match your project.

ArcGIS Pro

  1. Create a LAS Dataset (“Create LAS Dataset” tool) pointing at the delivered LAZ, then add it to the map.
  2. Filter to ground class (2) for bare-earth work, or use the full cloud for feature extraction.
  3. The GeoTIFF DEM loads directly as a raster layer for Spatial Analyst workflows.

Why ToposNow

Built by people who’ve fought with public lidar

Real datum control

Any EPSG horizontal system, explicit vertical datums via geoid grids, and survey-grade localization: combined or grid × elevation scale factors and true-north rotation about your base point.

Provenance you can hand to a client

Every site gets a free PDF report: which USGS work units cover it, collection dates, quality levels, stated accuracy, and the caveats — including what this data is not.

Pay per acre, not per seat

Priced by area and deliverable. No subscription, no minimum, no sales call. The availability report is free every time.

FAQ

Frequently asked questions

Where does the lidar data come from?

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All point-cloud data comes from the USGS 3D Elevation Program (3DEP) — publicly funded airborne lidar collected under the USGS Lidar Base Specification. ToposNow indexes every published 3DEP work unit (2,269 and growing), reports its collection dates and accuracy, and processes it into project-ready formats on demand.

How accurate is the data?

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It depends on the collection covering your site. Modern 3DEP quality levels specify 10 cm RMSEz vertical accuracy (QL1/QL2) on open terrain; older collections may be 20 cm. Your free availability report states the quality level, accuracy, point density, and collection dates for every source over your exact area before you buy.

Is this a survey?

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No. ToposNow deliverables are derived from published USGS lidar and are not a land survey, are not sealed by a licensed surveyor, and must not replace boundary or construction surveys. They are ideal for planning, scoping, design development, and analysis — and every deliverable says so plainly.

How do I get the data into Civil 3D?

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Two paths. Fastest: order the DXF ground TIN, open it in Civil 3D, and create a surface from the 3D faces — the coordinate system is embedded in the file. Full cloud: index the LAS/LAZ in ReCap, attach the RCP in Civil 3D, and build a surface from ground-classified points.

What coordinate systems are supported?

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Any EPSG-registered system — searchable by common name (e.g. “Texas North Central”) or code. Vertical datums transform through published geoid grids, and you can apply survey localizations: a combined scale factor (or grid × elevation factors) and a true-north rotation about a base point.

What formats can I order?

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Classified LAS/LAZ point clouds, Civil 3D-ready DXF ground TIN surfaces, ENU (East, North, Up) ASCII points, and GeoTIFF DEMs. Formats are chosen per order, and every file carries your ordered coordinate system.

How fast is delivery?

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Processing runs automatically in the cloud after checkout. Typical orders are ready in minutes; very large areas take longer. You get download links on your account page and by email.

Can I use it for AI or machine-learning projects?

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Yes. Classified point clouds and DEM rasters from a consistent, documented federal source make strong training and evaluation data for terrain classification, feature extraction, change detection, and hydrology models. Data is public-domain USGS; our processing adds consistent reprojection and packaging.

See what covers your site — free

Draw your area and get the availability report — sources, collection dates, accuracy — before you spend anything.

ToposNow deliverables are derived from public USGS data. They are informational products — not a land survey — and do not replace work by a licensed surveyor.