G1 Series

PRIZ-BOT G1 Humanoid

A production-ready programmable humanoid — from the G1 Basic foundation model to the EDU U6 with five-finger tactile dexterous hands.

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G1 Series

The G1 platform

The world’s most advanced programmable humanoid

PRIZ-BOT G1 is a production-ready, fully programmable humanoid — shipped with the curriculum to teach engineers and students to build with it. The range scales from the G1 Basic foundation model up to the EDU U6 with five-finger tactile dexterous hands.

The line-up

One platform, seven configurations

Each EDU model carries everything from the one before it, then adds a focused upgrade — a clear path from teaching the basics to advanced manipulation research.

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G1 Basic

Foundation model — 23 DOF, 2 kg single-arm payload, 90 N·m knee torque, depth camera + 3D LiDAR and 2 m/s walking.

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EDU U1

Developer base — steps up to 120 N·m torque and a 3 kg arm, with an 8-core CPU + 100 TOPS GPU compute module.

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EDU U2

29 DOF — adds a 3-DOF waist and 7-DOF arms for a noticeably wider working envelope.

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EDU U3

43 DOF — adds Dex3-1 force-controlled three-finger dexterous hands for real grasping tasks.

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EDU U4

43 DOF — Dex3-1 three-finger hands upgraded with 33 tactile sensors for fine force feedback.

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EDU U5

41 DOF — third-party five-finger dexterous hands (RH56DFQ) for human-like manipulation.

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EDU U6

41 DOF — five-finger dexterous hands with 17 tactile sensors per hand, the top of the range.

Compare

Specs across the G1 range

Model	DOF	Dexterous hands	Arm payload	Knee torque	Compute
G1 Basic	23	—	2 kg	90 N·m	—
EDU U1	23	—	3 kg	120 N·m	8-core + 100 TOPS
EDU U2	29	—	3 kg	120 N·m	8-core + 100 TOPS
EDU U3	43	Dex3-1 (3-finger)	3 kg	120 N·m	8-core + 100 TOPS
EDU U4	43	Dex3-1 + 33 sensors	3 kg	120 N·m	8-core + 100 TOPS
EDU U5	41	5-finger (RH56DFQ)	3 kg	120 N·m	8-core + 100 TOPS
EDU U6	41	5-finger + 17 sensors	3 kg	120 N·m	8-core + 100 TOPS

Swipe the table sideways to see every column →

All EDU models share an 8-core CPU + up to 100 TOPS GPU, a 9000 mAh battery (~2 h), 3D LiDAR + depth camera, and five remote-operation methods.

G1 Basic — core specs

The foundation platform

Folded dimensions

1270 × 450 × 200 mm

Weight

~35 kg

Degrees of freedom

23 (up to 43 on EDU)

Single-arm payload

2 kg (3 kg on EDU)

Max knee torque

90 N·m (120 N·m on EDU)

Walking speed

2 m/s

Sensing

Depth camera + 3D LiDAR (360° × 90°)

Battery / runtime

9000 mAh · ~2 hours

Audio

Speaker + microphone array

Compute (EDU)

8-core CPU + up to 100 TOPS GPU

Key benefits

Built to perform & to teach

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Enhanced degrees of freedom

Up to 43 joints for fluid, human-like motion and complex whole-body tasks.

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Powerful onboard compute

An 8-core CPU paired with up to 100 TOPS of GPU acceleration for real-time AI.

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Advanced dexterous hands

From force-controlled three-finger to five-finger tactile hands for true manipulation.

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Service-grade build

Engineered for repeated real-world use — not just a lab demo.

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~2 hours of autonomy

A 9000 mAh swappable battery keeps classes, research and demos running.

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Five ways to operate

Remote controller, mobile app, computer, scripting and a full developer API.

Applications

Where the G1 goes to work

Industrial inspectionMaterial handling & logisticsR&D platformsSTEM & university educationPrototyping & AI testingService-industry assistanceCustomer interactionSmart-environment integrationHuman-robot interaction studiesExhibitions & live demos

In the box: remote controller · 9000 mAh battery · charger · calibration kit · user manual.

Ready to deploy

Talk to our team

We’ll put together a tailored deployment plan — hospitality, healthcare, education, retail and beyond.

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