Getting Infinite Data by 2080 to Improve SuperAI
A deep discussion of the developments with AI and the upcoming 2025 Tesla Dojo 2 and 2026 Dojo 3 chips. But AI needs compute and data.
A deep discussion of the developments with AI and the upcoming 2025 Tesla Dojo 2 and 2026 Dojo 3 chips. But AI needs compute and data.
Won’t AI reach a limit as we use up human created data?
Galaxy Monitoring Array: A Vision for Mass Production of Space Telescopes
Imagine a future where we can monitor the entire galaxy, down to objects as small as 10-100 kilometers in resolution, using mass-produced space telescopes. This ambitious vision is made possible by leveraging gravitational lensing, solar sails, and advanced materials. In this article, we'll explore the concept of the Galaxy Monitoring Array, a network of lightweight one-meter telescopes that could be deployed in vast numbers to study the galaxy and the universe.
The Challenge of Distance
Currently, sending space probes to the nearest star takes decades, and it would take 100,000 years to reach the other side of the galaxy. Even if we were to send back data, it would take another 100,000 years to receive it. This makes it difficult to study the galaxy in real-time. However, by using gravitational lensing, we can leverage the gravity of the sun to make a telescope 100 billion times more effective, allowing us to study objects on the other side of the sun. This technology would enable us to study the galaxy in real-time, without the need for decades-long journeys.
Solar Sails and Lightweight Telescopes
NASA has been working on a one-third scale prototype of the solar sails, which have already been built. A full-scale mission would weigh less than 50 kilograms. By using solar sails, we can achieve speeds of 20 times faster than current technology, allowing us to reach the outer reaches of the galaxy. This would enable us to deploy telescopes in a fraction of the time it would take with traditional propulsion systems. Additionally, the lightweight design of the telescopes would make them easier to launch and deploy, reducing the cost and complexity of the mission.
The Galaxy Monitoring Array
Imagine deploying one telescope for every solar system in the galaxy. This would enable us to constantly image objects in every solar system, providing a real-time view of the galaxy. To achieve this, we would need to improve the heat resistance of materials and develop more efficient solar sails. The Galaxy Monitoring Array would be a network of interconnected telescopes, working together to provide a comprehensive view of the galaxy. Each telescope would be equipped with advanced sensors and AI-powered data analysis software, allowing it to detect and track objects in real-time.
Mass Production and Deployment
SpaceX has already demonstrated the capability to launch thousands of Starlink satellites. With mass production, we could deploy millions of satellites, outnumbering the 5 million global cell towers. Why not go further and deploy billions of Starlink-sized space telescopes? The same mass of space telescopes as the world's cars would be approximately 200 billion telescopes, one for each solar system in the galaxy. This would enable us to study the galaxy in unprecedented detail, providing a wealth of data for scientists to analyze and learn from.
The Potential of the Galaxy Monitoring Array
The Galaxy Monitoring Array would provide a flood of information for AI analysis and learning, allowing us to study the galaxy and the universe in unprecedented detail. With this array, we could:
Conclusion
The Galaxy Monitoring Array is a vision for the future of space exploration, where mass production and deployment of lightweight telescopes and solar sails enable us to study the galaxy and the universe in real-time. With the potential to deploy billions of telescopes, we could gain a deeper understanding of the cosmos and unlock new discoveries. The possibilities are endless, and the future of space exploration has never been brighter.