You are invited

This is your invitation. To join a journey that will redefine industries, empower people, and create a legacy of progress for generations to come. Together, we will transform what it means to be human, using the tools we create to elevate every aspect of our existence.

The next nine years will be the most thrilling, transformative, and breathtaking years in human history. Let us build this future, side by side.

Welcome to 9th Dimension Robotics. Together, we create tomorrow.

At 9th Dimension Robotics, we are dedicated to advancing technology through the seamless integration of robotics, artificial intelligence, and blockchain. We are actively seeking talented professionals to join our team in the following areas:

Humanoid Robotics Development

Our goal is to develop versatile, bipedal, autonomous humanoid robots capable of performing tasks that are unsafe, repetitive, or monotonous. Achieving this requires expertise in:

  • Balance and Locomotion: Developing algorithms that enable stable and efficient movement.

  • Navigation and Perception: Creating systems that allow robots to understand and interact with their environment.

  • Human-Robot Interaction: Designing intuitive interfaces for seamless collaboration between humans and robots.

We are looking for professionals in deep learning, computer vision, motion planning, control systems, mechanical engineering, and software development to tackle these complex challenges.

AI Hardware Engineering

To support our advanced AI systems, we are designing specialized hardware that delivers optimal performance and efficiency:

  • AI Inference Chips: Developing custom chips to execute our AI algorithms with maximum performance-per-watt.

  • AI Training Chips: Building cutting-edge processors to train our AI models, focusing on performance, throughput, and bandwidth.

Roles in this area involve chip architecture, microarchitecture, physical design, verification, and driver development.

AI Systems Integration

We are constructing comprehensive AI systems that integrate our hardware and software components:

  • AI Training Systems: Designing and building systems that manage high-power delivery and cooling, and developing control software that scales.

  • Neural Network Development: Applying advanced research to train deep neural networks for perception and control tasks.

We seek engineers with experience in system design, machine learning, and large-scale data processing.

Software Infrastructure

Our software infrastructure is the backbone of our AI and robotics initiatives:

  • Code Foundations: Optimizing for throughput, latency, correctness, and determinism, and integrating closely with our custom hardware.

  • Evaluation Infrastructure: Building tools and systems to accelerate innovation, track performance, and prevent regressions.

We are looking for software engineers proficient in low-level programming, system optimization, and simulation.

If you are passionate about pushing the boundaries of technology and want to be part of a team that is redefining the future, we invite you to explore our career opportunities.

Explore Opportunities

Join us in creating a future where robotics, AI, and blockchain converge to transform industries and improve lives.

Entering the medical industry, particularly in the realm of 3D organ printing, requires a strategic and phased approach. Here's a comprehensive plan for 9th Dimension Robotics to transition into this sector:

1. Establish a Strong Foundation in Robotics and AI

  • Years 1-3: Focus on developing and deploying advanced robotics and AI solutions in existing markets to build expertise and financial stability.

2. Initiate Research and Development in Medical Robotics

  • Years 4-5: Allocate resources to explore medical applications of robotics, such as surgical assistance and rehabilitation. Collaborate with medical institutions to understand specific needs and regulatory requirements.

3. Develop Bioprinting Capabilities

  • Years 6-7: Invest in bioprinting technologies to create tissue scaffolds and simple tissue structures. This involves mastering bio-inks and understanding the complexities of tissue engineering.

4. Advance to Complex Organ Structures

  • Years 8-9: Progress to printing more complex tissues and organ prototypes. Engage in rigorous testing and validation in partnership with healthcare providers and regulatory bodies.

5. Regulatory Approval and Market Entry

  • Year 10 and Beyond: Seek necessary regulatory approvals for bioprinted organs. Upon approval, commence commercialization and integration into the healthcare system.

Key Considerations:

  • Regulatory Compliance: Navigating the regulatory landscape is critical. Engage with agencies early to ensure compliance and facilitate smoother approvals.

  • Ethical Practices: Maintain high ethical standards in research and application, particularly concerning bioprinting and organ transplantation.

  • Collaborative Partnerships: Form alliances with medical research institutions, hospitals, and biotech firms to leverage expertise and accelerate development.

By following this phased approach, 9th Dimension Robotics can strategically enter the medical industry and contribute to the innovative field of 3D organ printing.