Rust Core · Real-time Control · Digital Twin

Design. Simulate. Deploy.
Robotics Made Accessible

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Visual IDE
Drag & Drop
Digital Twin
3D Simulation
Sensors
Multi
Core
Rust

From Concept to Deployment

Four-stage pipeline โ€” design visually, simulate digitally, test with real hardware, deploy over-the-air.

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STEP 01

Design

Visual drag-and-drop blocks. Connect sensors, actuators, and logic without writing a single line of code.

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STEP 02

Simulate

Digital twin renders your robot in a virtual environment. Test behaviors, tune PID loops, validate logic risk-free.

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STEP 03

Test

Hardware-in-the-loop testing. Connect real sensors and actuators while keeping simulation feedback running.

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STEP 04

Deploy

OTA firmware push to one robot or an entire fleet. Rollback in seconds. Zero-downtime updates.

Everything You Need to Build Robots

From visual programming to fleet management. One platform, every capability.

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Visual Robot Programming

Drag-and-drop blocks for motor control, sensor reading, and conditional logic. Switch to code view anytime.

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Digital Twin Simulation

Test your robot in a physics-accurate 3D environment before touching real hardware. Collision detection, gravity, friction.

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50+ Sensor Library

Temperature, motion, LiDAR, cameras, GPS, ultrasonic, IMU, pressure, humidity. Pre-built drivers, instant integration.

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Protocol Support

MQTT, ROS2, Modbus, BLE, LoRa, I2C, SPI, UART, CAN bus. Communicate with anything on any protocol.

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AI Integration

Computer vision, path planning, SLAM navigation, object detection. Plug in TensorFlow Lite or ONNX models directly.

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Real-time Control

Sub-10ms control loop latency. Rust core ensures deterministic timing for safety-critical actuator control.

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Mobile Monitoring

Flutter companion app for live telemetry, camera feeds, sensor dashboards, and remote manual override from your phone.

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OTA Firmware Updates

Deploy code to one robot or a fleet of thousands wirelessly. Incremental diffs, rollback support, deployment verification.

Anatomy of a Connected Robot

Every component โ€” from sensors to actuators โ€” managed from one unified platform.

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PROCESSOR
Rust Core
SENSORS
๐Ÿ“ก LiDAR · Camera · IMU
๐ŸŒก๏ธ Temp · Pressure · GPS
ACTUATORS
โš™๏ธ Servo · Stepper · DC
๐Ÿ’ช Gripper · Linear · Valve
COMMUNICATION
๐Ÿ“ถ WiFi · BLE · LoRa
๐Ÿ”— MQTT · ROS2 · Modbus
AI ENGINE
๐Ÿ‘๏ธ Vision · SLAM · Planning
๐Ÿค– TFLite · ONNX · OpenCV

Every Platform, One Workflow

From hobby boards to industrial controllers. RoboForge compiles and deploys to all major hardware platforms.

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Arduino
AVR / ARM
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Raspberry Pi
Pi 4 / Pi 5 / Pico
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ESP32
WiFi + BLE
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NVIDIA Jetson
Nano / Xavier / Orin
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STM32
Industrial MCU
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ROS2
Humble / Iron
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Custom ARM
Cortex-M / Cortex-A
COMING SOON
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RISC-V
Open ISA

Built for Safety & Security

Robotics demands safety-first engineering. Every layer is secured and certified.

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E2E Encrypted Comms

All device-to-cloud communication encrypted with TLS 1.3. Certificate pinning for fleet devices.

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Firmware Signing

Ed25519 firmware signatures. Devices reject unsigned or tampered binaries. Secure boot chain.

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Safety Interlocks

Hardware e-stop integration. Watchdog timers. Configurable safety zones with automatic halt.

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Role-Based Fleet Access

Granular permissions per robot, per fleet, per action. Operator, engineer, admin, viewer roles.

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Telemetry Encryption

TLS 1.3 for all telemetry streams. Data at rest encrypted with AES-256-GCM. Audit logging.

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IEC 61508 Compliance

Designed for SIL-2 functional safety. Deterministic Rust core prevents undefined behavior classes.

Built For Every Industry

From STEM classrooms to factory floors. RoboForge scales with your ambition.

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Education

  • โ–ธ Classroom robot kits with visual IDE
  • โ–ธ STEM curriculum integration (CBSE/ICSE)
  • โ–ธ Progressive: blocks โ†’ Python โ†’ Rust
  • โ–ธ Student fleet management for labs
Arduino + Raspberry Pi
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Industrial

  • โ–ธ Factory automation & pick-and-place
  • โ–ธ Quality control with computer vision
  • โ–ธ PLC integration via Modbus/OPC-UA
  • โ–ธ Predictive maintenance dashboards
STM32 + Jetson + ROS2
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Agriculture

  • โ–ธ Drone-based crop monitoring
  • โ–ธ Sensor networks (soil, weather, water)
  • โ–ธ Autonomous spraying & harvesting
  • โ–ธ LoRa mesh for rural connectivity
ESP32 + LoRa + Custom ARM

Start Free, Scale as You Build

From a single hobby bot to an industrial fleet. Pay only when you need more.

Free

โ‚น0 /forever

Perfect for learning & prototyping

  • โœ“ 1 robot
  • โœ“ Visual IDE
  • โœ“ Simulation only
  • โœ“ 10 sensor types
  • โ€” No OTA deploy

Maker

โ‚น499 /mo

For serious hobbyists & makers

  • โœ“ 5 robots
  • โœ“ Full sensor library
  • โœ“ OTA firmware push
  • โœ“ Basic AI models
  • โœ“ Community support
POPULAR

Pro

โ‚น2,999 /mo

For teams & serious projects

  • โœ“ 50 robots
  • โœ“ Digital twin (full 3D)
  • โœ“ Advanced AI (SLAM, CV)
  • โœ“ Fleet management
  • โœ“ Priority support & SLA

Enterprise

Custom

Industrial fleet management

  • โœ“ Unlimited robots
  • โœ“ On-premise deployment
  • โœ“ IEC 61508 safety docs
  • โœ“ Custom integrations
  • โœ“ Dedicated engineer

Get Early Access

Join the waitlist. Be among the first to build with RoboForge.

Auto-verified โ€” Form submission works. We'll respond within 48 hours. Try it yourself!

Interested? Get in Touch

Tell us what you'd like to build or how you'd like to help.

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