The bridge between physical AI
You can create it. Robots, wearables, companions, custom objects.
Describe it in plain language — we turn your imagination into a real, working machine. We are the lab.
Tell our intake system what you want to exist. Not a spec sheet — a description. What does it do? What does it feel like when it works? What moment is it made for?
The system runs two tracks simultaneously: extracting technical specification and capturing your emotional brief. Both matter. The object that ships reflects both.
The physical
world should be
as configurable
as software.
OmniCore Lab · Wyoming · 2026
Advanced robotics has always belonged to someone else. We're changing who it's for.
For sixty years, intelligent machines were built for the few — locked inside factories, research labs, and budgets most people will never see.
Democratize advanced robotics so anyone can create, customize, and own intelligent machines that fit their unique life.
We turn natural human creativity into real, working robots and smart systems.
This is the customization layer for the humanoid future — the bridge between what you imagine and what you can hold.
If you can imagine it,
we can build it.
No two robots OmniCore builds are the same. Every configuration is derived from your intake conversation — your kinematic requirements, your aesthetic language, your behavior spec, your use case. The robot that ships reflects all of it.
This isn't selecting from a catalog. It's a specification system that generates your robot from first principles — then validates it in simulation, scores it for first-pass success, and manufactures it to the tolerance your use case demands.
The manufacturing is the enabling layer. The customization is the product.
From a single component to a fully functioning machine. OmniCore meets you where you are.
Describe what you want. Our AI configures the full specification, prints all parts, sources and harnesses the electronics, and ships you a tested, working object. No assembly. No programming. No expertise required.
You get the kit — precision-printed parts, sourced electronics, pre-wired harness, and a Claude-generated step-by-step assembly guide specific to your object's geometry. Build it yourself, with AI support at every step.
You have the hardware — a Unitree G1, a Berkeley Humanoid Lite build, an existing robot or device. We configure the behavior, compile the firmware, add the aesthetic layer, and push OTA. Start with what you have.
One platform. One intake model. One manufacturing operation. Every category below runs through the same pipeline.
Custom-configured and aesthetically designed on open-source substrates — LeRobot, Berkeley Humanoid Lite, Unitree. Behavior-programmed before delivery.
Core MarketInteractive desk companions, voice-responsive devices, LLM-powered emotional presence objects. Bubbly, reactive, behaviorally configured to your personality spec.
NewAesthetic shells for existing prosthetics. Scan your device, describe your identity, receive a designed cover that makes your prosthetic feel specifically yours.
NewReplacement components that don't exist anymore. Custom brackets, mounts, enclosures, tooling. If you can describe it, we can manufacture it in engineering-grade materials.
ManufacturingActuated visors that split on gaze. Mechanically expressive costume pieces. Props that move, light, and respond. Built to behave, not just to look.
CreativeFarm automation components, drone housings, sensor mounts, data center brackets, cable management hardware. Built for outdoor durability and repeatable precision.
B2BDon't see your category. Use the intake model above and describe what you want to exist. If it can be manufactured in engineering-grade materials, you can create it.
OpenEvery job logged becomes training data. Every build makes the model smarter. No competitor can replicate this moat by starting later.
The intake model runs specification extraction and emotional brief capture simultaneously. It doesn't ask for specs — it asks what the object feels like when it works perfectly. Both tracks inform the build.
Generates kinematic configurations, BOM, DFM analysis, structural validation, and material selection from your intake conversation. Selects IK tier automatically by kinematic class.
Every configuration is scored for first-pass success probability before manufacturing begins. Probability-adjusted pricing. Outcome deltas feed weekly retraining. The model gets smarter with every job.
Every robot configuration runs in NVIDIA Isaac Sim before a gram of filament is used. Kinematic validation, interference checking, print orientation optimization — proven before manufactured.
Adaptive layer resolution, ML-tuned parameters, YOLOv8 defect detection on every printer. Pre-build risk score. Real-time monitoring. Failures flagged before they become failed parts.
Every job contributes to the corpus: intake transcript, aesthetic spec, kinematic hash, material batch, build outcome, telemetry delta. This dataset doesn't exist anywhere else. It can't be purchased — only grown.
OmniCore runs Fused Deposition Modeling — the most capable and material-flexible additive manufacturing process for structural robotics components. Every part is printed layer by layer from engineering-grade thermoplastic filaments, with AI-optimized toolpaths that adjust orientation, infill, and layer resolution per geometry.
FDM at this level is not the same as desktop hobby printing. The distinction is materials knowledge, machine calibration, and process control accumulated across every job run. OmniCore's printers run continuously. Parameters are tuned per material batch. Every print is monitored in real time by YOLOv8 defect detection. ASTM D638 tensile testing validates material performance.
The result: complex geometries, tight tolerances, and engineering-grade mechanical properties — manufactured on demand, one configuration at a time, with no minimum order quantity.
Why FDM specifically: No tooling cost. No minimum batch size. Geometry flexibility that injection molding cannot match at any price. The same part can be printed in PA-CF, ASA, or TPU depending on the use case — no mold change, no lead time, no minimum order.
Material selection is automatic. The Expert Model selects material from your robot's load case, operating environment, aesthetic language, and tolerance spec. You can override any selection at intake — or let the system choose and review the reasoning before committing to manufacturing.
Tell our AI what you want to build — in plain language. What should it do? What does it feel like when it works? What moment is it made for? The system extracts a formal specification across two tracks: technical requirements and emotional brief simultaneously.
The Expert Model selects components, generates kinematic configurations, validates structural integrity under your load case, and scores the full build for first-pass success probability. Every configuration runs through NVIDIA Isaac Sim before manufacturing is committed.
Parts print with AI-optimized FDM toolpaths and real-time YOLOv8 QA monitoring. Electronics are sourced and kitted. Mode A objects are fully tested against your specification before packaging. Mode B ships with a guided assembly document specific to your configuration.
Your object ships with full build context — our support system knows your exact configuration, materials, and parameters. Post-delivery support that actually understands what you built. Behavior updates delivered OTA for configured robots and companions.
OmniCore Lab is the operating system for the physical world — the AI-powered platform that lets anyone describe a robot, a wearable, a companion, or a custom object and receive a working manufactured result, regardless of engineering background.
The manufacturing is the enabling layer. The real product is the intelligence above it — the system that turns a plain-language description into a formal specification, selects materials, validates structurally, simulates in NVIDIA Isaac, and routes through FDM manufacturing and assembly.
We are pre-launch. The hardware is operational. The architecture is locked. The legal foundation is the prerequisite before the first customer transaction. We are building this correctly from the first day.
Industrial-grade fused deposition modeling across engineering-grade materials — PA-CF, PETG-CF, ASA, TPU, multi-color AMS. ASTM D638 tensile tested per batch. AI-optimized toolpaths. YOLOv8 real-time QA on every print.
Machine learning models optimize print orientation, support structures, layer settings, and material selection for every geometry. Warm Winter scores every configuration before manufacturing begins. Every job makes the system smarter.
AI amplifies your vision — it doesn't replace it. Every configuration, every material choice, every behavior spec is reviewable and overridable before manufacturing is committed. The builder is always in the driver's seat.
Sources: MarketsandMarkets · BCC Research · ABI Research · Goldman Sachs Equity Research · Grand View Research · Fortune Business Insights
OmniCore is pre-launch. Join the waitlist to be notified when we open — and tell us what you're building. We'll reach out personally.
OmniCore Lab is currently pre-launch. Legal entity formation, insurance, and contracts must be in place before the first transaction. Pricing activates when Phase 01 legal checklist is complete.
Questions: contact@omnicorelab.com
Universities, engineering firms, R&D labs, and institutions can pay via purchase order. Submit your project — we'll invoice your billing department directly.