AI BIM Checker Beta

Ask your BIM in plain language. That’s all it takes to run a check.

No setup. No scripts. No perfect model required. Just ask
your BIM and see the results.

Apply for Free Trial See How It Works
Currently in Beta Access opening gradually

Where Current Workflows
Break Down BIM checking automation has always been harder than it should be.

Across firms, the same operational constraints keep forcing teams back to manual checking.

Required Skills

Only specialists with both programming and BIM expertise can build automated checks.

How many of those exist in your organization? Most designers are left behind, running the same manual checks indefinitely.

Time & Cost to Build

Custom checks take months to build and rarely transfer beyond a single project.

By the time it’s done, the project has moved on. And the next project starts from zero again.

Model Understanding

You’re responsible for checking models you didn’t build without understanding their structure.

Verification is your responsibility. But the model’s logic belongs to whoever built it.

Usage

Running a check requires licensed software and technical know-how.

Most team members can’t access or operate BIM tools independently. Checking stays bottlenecked with specialists.

Cross-Project Reuse

Automation breaks as soon as the project changes.

Slightly different naming conventions mean starting over — or giving up entirely.

Org-Wide Sharing

Checks built by one person stay with that person

When a specialist moves on, the knowledge goes with them. The rest of the team starts from scratch.

How It Works Three steps to your first BIM check.

Load a model, ask a question in plain language, and get instant
visual results. No scripts. No setup. No specialist required.

01Ask the AI

Load your BIM model and type what you want to verify — in plain language. No scripts, no pre-definitions, no configuration needed.

  • 10 Standard Levels

  • 1 Non-standard Distance
    (Basement→Level 0)

  • 12 Levels Detected

02See the results

Check results are highlighted directly on the model. The AI’s full reasoning is visible at every step — no black box, no guesswork.

3D visualisation Report Table Schedules CSV export Simulation
Projects

03Save and reuse

Save any check that works. Re-run it on the next project with a single click — no re- configuration, no starting over.

What Changes with AI BIM Checking A fundamentally different
approach to every constraint.

Where existing tools stop, Tektome keeps going. Here’s how we
address each constraint head-on.

AI BIM Checking Solution

Existing Tools

Required Skills

Natural language

Programming + BIM data structure expertise

Time & Cost to Build

Up and running in minutes

1–3 months of custom development

Model Understanding

AI reads and interprets any model structure automatically

You’re responsible for understanding models you didn’t build

Usage

Works in browser

Uses licensed software

Cross-Project Reuse

AI adapts to model differences across projects

Project changes = start over, or give up

Org-Wide Sharing

Save checks and share them across your organization

Knowledge stays with individuals

Output Flexibility

Fully flexible and custom outputs

Pre-defined outputs

Checking Method

Intelligent

Manual

Project Impact Where BIM checking starts
reducing real project cost.

The biggest cost drivers in BIM checking aren’t the checks themselves — they’re the
rework, coordination overhead, and delays caused when checks don’t scale.

BUSINESS WORKFLOW: Changes before and after implementation

Before

Routine
Checks (5h)
High-risk checks
(2h)

After

Routine
Checks (1h)
High-risk
checks (4h)
Freed (2h)
  • Routine checks (automated)
  • High-risk checks (expert focus)
  • Freed capacity

more time dedicated to high-risk checks
that actually need expert judgment

less time spent on routine checks — in the same working day

No BIM navigation skills required

Team members don’t need to know how to navigate BIM software to run a check.
Anyone can verify — not just those who built the model.

Less rework across design iterations

Checks that can be re-run instantly reduce the need to manually verify the same conditions after every change.

Fewer coordination cycles

Issues are identified earlier, before they propagate across teams and models.

Reduced dependence on specialist resources

More of the team can run checks directly, without relying on a small number of scripting experts.

Web-based solution

Models are checked in our web-based app eliminating necessity to open any specialised software or rely on license dependency.

Every check saved is cost avoided

Each re-run replaces a manual review cycle. Across a full project lifecycle, that compounds into meaningful efficiency gains and lower rework costs.

Use Cases Built for your needs that matter most.

Different roles, different pressures — but the same need to verify models quickly and reliably.

  • 10 Standard Levels

  • 1 Non-standard Distance
    (Basement→Level 0)

  • 12 Levels Detected

USE CASE 01Model Navigation and Accessibility

Navigate and access any model easily. Search efficiently, visualise building levels, measure distances between them, colour-code them, and highlight any deviations from standard spacing.

Distance & Measurement Checks

  • 122 Compliant Rooms
    (Floor Finish Aligned With Client Brief)

  • 2 Not-Compliant Rooms
    (Floor Finish Not Aligned With Client Brief)

  • Client Brief: Slip Resistant
    Porcelain Tiles

USE CASE 02Client Requirement Validation

Check bathroom and WC floor finishes against client brief requirements and highlight any non-compliant rooms.

Property checks Spatial checks

  • Conference Rooms Area
    Compliant (≥65m²)

  • Conference Room Area Not
    Compliant (<65m²)

  • Affected Objects Not-Compliant
    Conference Room Area Increased To 65m²

  • Corridor and Staircase Area
    Would Be Affected By The Amendment

USE CASE 03Managing Change Control

Check which conference rooms do not meet the considered update of client brief area requirement and show what rooms and objects would be affected if that change was implemented.

Distance & Measurement Checks

  • 6 FD 30S Doors (Compliant)

  • 1 Fire Escape Route (Compiant)

  • 2 FD 20 Doors (Non-Compliant)

  • 1 Fire Escape Route (Non-Compliant)

USE CASE 01Design Validation and Compliance Checking

Check apartment entrance doors for fire rating compliance, measure the fire escape route to the stair, simulate the walking path, and highlight any non-compliant doors or escape distance issues.

Regulatory checks path checks

  • 59 slabs aligned

  • 2 misaligned slabs

  • Offset of misaligned slab is 50mm

USE CASE 02Multi-Discipline Custom Coordination

Compare slabs or other elements across Architectural and Structural/MEP models, and highlight any misaligned elements to identify coordination issues early.

Clash detection misalignment checks comparison checks

  • 1 apartment compliant

  • 2 apartments not compliant
    (A.303, A.304)

  • At least 2 storage rooms with
    total area ≥2m² are required per
    1b2p unit

USE CASE 03Complex Requirements Compliance Checks

Check total built-in storage area and distribution against requirements, and highlight any non-compliant units or spaces.

Calculations Property checks Spatial checks regulatory checks

  • 1 column-wall clash

  • 1 pipe-beam clash

  • Overlap of column and wall: 60mm

USE CASE 01Clash Detection

Detect clashes between Structural/MEP and Architectural elements, and highlight any conflicts that require coordination.

Clash detection comparison checks

  • Office Room (11)

  • Doors in Offices (25)

  • 136 Total Doors in Model

USE CASE 02Quantity Checks

Compare slabs or other elements across Architectural and Structural/MEP models, and highlight any misaligned elements to identify coordination issues early.

Calculations Property checks

  • EW7 Windows – Original

  • EW8 Windows – Revision

  • Affected Elements – Revision

  • 32 Affected Elements (Revision)

  • Window Width Increase: +27.7%

USE CASE 03Model Versions Comparison and Change Control

Compare the original model with its revised version, identify changes in geometry, elements, and parameters, and highlight affected elements to assess impact on construction, cost, and programme.

comparison checks misalignment checks

Transparency You’re always in control of the results

AI BIM Checker shows its work at every step so you can verify decisions, spot any
gaps, and stay confident in every check you submit.

Ask in plain language & review the checking process

No scripts or setup. Type what you want to verify and let the AI do the rest. AI BIM Checker shows the exact steps it will take before running. You approve before anything executes.

Results on the model, every decision explained

Check results are highlighted directly on your BIM model — no switching tools or exporting data. Inspect any step to see what the AI found, which properties it accessed, and its confidence level.

  • 10 Standard Levels

  • 1 Non-standard Distance
    (Basement→Level 0)

  • 12 Levels Detected

Full audit trail on every check

Each result includes step-by-step reasoning, model properties accessed, and confidence indicators — built for designers who need to sign off with certainty.

Save, re-run, re-verify

Once a check works, save it. Re-run it on the next project with a single click — no reconfiguration, no starting over.

Free TrialApply for Free Trial.

We are opening access gradually. We’ll reach out personally
when your spot is ready.

Tell us a little about yourself and what you’d like to check. We read every submission and follow up individually — no automated sequences, no mass emails.

Not everyone who registers will receive an invitation. We reply personally. No spam. No automated sequences.

Ask your BIM in plain language.
That’s all it takes to run a check.

Currently in Beta — building with our first partners. Access is opening gradually.

Apply for Free Trial

We reply personally. No spam. No automated sequences.