
Our journey is defined by a relentless pursuit of excellence and an unyielding commitment to own the design from conception through manufacturing. We transformed our Texas-born passion into an elite automotive design house by ensuring our engineering talent controls every single phase of development in-house. This mantra comes to life in our flagship Classic Raptor Bronco builds, where our team replaces heavy, rust-prone steel with a proprietary, 100% aerospace-grade carbon fiber body. By engineering our own custom chassis systems to perfectly handle a supercharged 825-horsepower Coyote V8, we eliminate vintage limitations and guarantee that our uncompromising standards are baked into every raw panel, weld, and finished supercar-level machine.

We are taking our foundation of elite engineering a step further by unlocking our proprietary chassis technology for the broader automotive community. The extensive research and development that built our Razorbak Classic Raptor chassis—featuring advanced suspension geometry, CNC-bent frame rails, and high-performance powertrain integration—now serves as the baseline for our new modular platform systems. This modular architecture allows low-volume vehicle producers to instantly bypass years of costly R&D and safely fast-track their own production. By providing a highly adaptable chassis system, we empower specialty builders to quickly apply our proven, track-tested structural engineering toward any custom SUV design without sacrificing highway comfort, rugged durability, or build precision.

We have fused our extensive expertise in advanced carbon fiber composites with our proven structural engineering to create a revolutionary, modern hypercar modular chassis system. Just like our Classic Raptor architecture, this ultra-lightweight composite system is designed to allow forward-thinking car designers to bypass years of tedious research and development while saving millions of dollars in upfront engineering costs. Engineered for ultimate versatility, our hypercar platform can be rapidly configured for front-mounted engines, mid-mounted engines, hybrid systems, or full electric (EV) powertrains. By eliminating traditional manufacturing bottlenecks, we empower creators to transform their wildest supercar visions into fully functional, track-ready prototypes in months instead of years.

OMF Car Craft's new vehicle offering merges vintage automotive design with futuristic supercar capabilities by integrating the NVIDIA DRIVE AGX Thor centralized car computer. By embedding this massive 2,000 TFLOPS of FP4 AI processing power directly into its high-performance restomod platforms, the custom builder transitions classic styling into the era of software-defined vehicles. DRIVE Thor serves as the vehicle's centralized "neural network," consolidating complex computational systems to handle immense real-time deep learning workloads right at the vehicle edge.
This integration eliminates traditional electronic control unit boundaries, allowing cabin electronics, telemetry, and advanced driver assistance systems to seamlessly execute alongside active performance tracking.This cutting-edge AI architecture allows OMF Car Craft to implement sophisticated, predictive vehicle dynamics specifically tuned for high-performance automotive applications. Utilizing the Blackwell architecture’s built-in transformer engine, the system processes multi-modal sensor arrays continuously to dynamically adapt suspension geometry, torque-vectoring profiles, and active traction control systems on the fly. Drivers experience continuous adjustments that optimize mechanical grip, chassis balance, and throttle responses according to evolving road conditions and real-time driving behavior. This ensures that extreme power outputs, like those found in OMF's 825-horsepower supercharged platforms, deliver optimal stability, exceptional cornering precision, and refined highway comfort without compromising the visceral feel of a bespoke performance machine.