Maxor CAD
The first AI-native CAD for the heavy lift.
Maxor CAD is a drawing engine built from the ground up for construction and heavy lifting — not a general CAD with a lifting plugin bolted on. A parametric constraint solver holds your design together as it changes, compression-first geometry keeps even the biggest plan light, and a GPU-accelerated viewport stays smooth. Engineering-precision math, sovereign deployment, Canada-built — with AI plan generation and automated detailing on the way.
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Engineering-precision geometry
9
Constraint types, solved in real time
GPU
Hardware-accelerated viewport
Cloud → Air-gap
Runs where your work lives
Built for the lift, not adapted to it.
Lift planning today means wrestling a general-purpose CAD into doing something it was never designed for — hours of manual drafting, fragile geometry that breaks when one dimension changes, files too heavy to move. Maxor CAD starts from the lift. A constraint solver keeps the plan correct as you adjust it ; compression-first geometry means a plan is mostly a handful of load-bearing entities, so it stays fast and light ; and the math is deterministic — the same inputs draw the same plan, every time, so it survives a reproducibility check.
Draw. Constrain. Plan.
Open what you already have, or start fresh in the viewport. The solver does the bookkeeping.
01 — Draw or import
Open your existing DXF drawings, or draw directly in the GPU viewport — pan, zoom, drag. The geometry kernel keeps it exact, not approximate.
02 — Constrain
Add dimensional and geometric constraints. The parametric solver re-solves the whole drawing the moment something changes — move one anchor and the plan stays correct.
03 — Plan
Produce the drawing and its records. Natural-language AI plan generation and automated detailing — describe what you need, get a drawing — is on the way.
Three decisions that change the work.
Maxor CAD isn't a faster pencil. It's a different foundation — AI-native, compression-first, and deterministic to the last decimal.
AI-native, not AI-bolted-on
Designed from day one so a model can read and write the drawing. The goal : describe what you need in plain language and get a detailed engineering drawing back — turning hours of drafting into minutes. On the way.
Compression-first geometry
A lift plan's meaning lives in a few load-bearing entities, not every line. Maxor CAD encodes the plan by what actually matters — so even a large drawing stays light, fast, and quick to move.
Deterministic precision
Full-precision geometry math : the same inputs produce the same drawing, every run. No silent drift between saves — the plan survives a reproducibility check, which is what audit-grade lifting demands.
A real engine, not a demo.
The foundation is shipped and tested ; the AI layer is landing on top of it.
Parametric constraint solver
Nine constraint types, solved in real time as you edit. Change one dimension and the whole drawing re-solves to stay consistent — no manual clean-up.
Compression-first geometry kernel
An exact 2D geometry kernel — intersections, distances, the real math — that encodes a plan by its load-bearing entities, so files stay small and fast.
GPU-accelerated viewport
A hardware-accelerated viewport that stays smooth on large drawings — pan, zoom, and drag without the lag of legacy CAD.
Opens your existing drawings
Import DXF and keep working — Maxor CAD fits into the toolchain you already have rather than asking you to start over.
AI plans & automated detailing — on the way
Describe what you need in natural language and get a detailed engineering drawing back. This is the headline feature in build — clearly roadmap, not shipped yet.
Deterministic & sovereign
Reproducible by construction and deployable on your own hardware or fully air-gapped — your drawings never have to leave your perimeter.
The artifacts of a lift, first-class.
Maxor CAD is shaped around what a lift actually needs to produce — not a generic shape library.
Lift plans
The core artifact : a precise, constraint-held lift drawing that stays correct as the parameters change.
Rigging & sling diagrams
Lay out rigging, slings, and attachment geometry with exact distances and angles, not eyeballed approximations.
Crane selection & positioning
Place and position the crane against the site geometry so the plan reflects the real setup, not an idealized one.
Load paths & clearances
Trace the load path and check clearances against the surrounding structure before anything leaves the ground.
Site & ground layouts
Draw the site, the ground bearing, and the working envelope to the same precision as the lift itself.
Sealed, auditable records
Deterministic drawings that reproduce exactly — the basis for sealed, audit-grade lift records the regulator can read.
On your desk, or entirely inside your perimeter.
Start in the cloud ; bring it in-house when your security review — or your data-residency rule — demands it.
Cloud
Fully managed on Canadian-resident infrastructure — the fastest way to get drawing, nothing to provision.
Self-hosted
Run it inside your own environment for Enterprise deployments — your hardware, your files, your control plane. Drawings never leave your network.
Air-gapped
Fully disconnected for the most sensitive projects. No telemetry, no phone-home — the engine runs where the work lives.
From lift planners to engineering R&D.
Anyone whose drawings carry real-world load — where a wrong dimension isn't a cosmetic bug, it's a safety event.
One deterministic philosophy, across the suite.
Maxor CAD shares the Maxor posture : deterministic math over black-box approximation, verifiable over trust-us, sovereign-deployable by default. It draws on the same engineering precision behind Maxor's lift-planning advisory and the Heisen compute substrate.
Explore the Maxor suiteStatus
🟡 Foundation
Deployment
Cloud · Self-hosted · Air-gap
Owner
Maxor Global LLC
Draw the lift the way it should be drawn.
Tell us how you produce lift plans today and where the hours go. A senior lead responds within one business day — and we'll show you where Maxor CAD is headed.