Prompt Fu: Promptimization.
Everyone sooner or later uses AI to improve their AI queries.
Here is an example of prompt fu.
https://hf.co/chat/assistant/6785ceceee957a3b5ede49b8
You give it your prompt, it optimizes it. Might also try to execute but you will definitely get a prompt in < csv > format which will be clearly identifiable, as there is also a code block. I will develop better ones later passing [variables] for example and batch prompting. CSV is a more effective format for prompts than plaintext.
I asked prompt fu tell me about elon musks plan to colonize mars
It output
<Question>,<Detail> "What is the timeline for Elon Musk's plan to colonize Mars?",<Timeline> "What technological advancements are necessary for establishing a human settlement on Mars?",<Technological Advancements> "What kind of infrastructure is required for a sustainable human presence on Mars?",<Infrastructure> "How does SpaceX plan to address the challenges of radiation exposure, gravity, and life support systems on Mars?",<Challenges and Solutions> "What is the estimated cost and funding model for Elon Musk's Mars colonization plan?",<Cost and Funding>
And then I fed that prompt into mistral (because I’m French that way)
And here is what mistral said back: it’s listy for me but I’m old school.
By the way: inside every list is a batch prompt waiting to burst forth into enshittified glurge about cats!
Timeline for Elon Musk's Plan to Colonize Mars
Elon Musk and SpaceX have outlined a multi-phase plan to colonize Mars. Here is a general timeline based on publicly available information:
2020s:
Development and Testing: Continued development and testing of the Starship spacecraft, which is designed to carry humans to Mars.
Cargo Missions: Initial unmanned missions to Mars to deliver cargo and supplies.
Early 2030s:
First Human Missions: Plans to send the first crewed missions to Mars, potentially establishing a small initial settlement.
Mid to Late 2030s:
Expansion of Settlement: Gradual expansion of the Mars settlement with more frequent missions and increased infrastructure.
2040s and Beyond:
Sustainable Colony: Aim to establish a self-sustaining city on Mars with a population of at least one million people.
Technological Advancements Necessary for Establishing a Human Settlement on Mars
Propulsion Systems: Advanced rocket technology, such as SpaceX's Starship, capable of transporting large payloads and humans to Mars.
Life Support Systems: Technologies to provide breathable air, water, and food for long-duration space travel and Mars habitation.
In-Situ Resource Utilization (ISRU): Methods to extract and use local resources like water and minerals for fuel, construction materials, and life support.
Radiation Protection: Technologies to shield humans from harmful radiation during the journey and on Mars.
Habitat Modules: Durable and expandable living spaces that can withstand Mars' harsh environment.
Communication Systems: Reliable communication technologies to maintain contact with Earth.
Power Systems: Efficient and sustainable power sources, such as solar panels or nuclear reactors.
Infrastructure Required for a Sustainable Human Presence on Mars
Habitats: Living quarters designed to protect inhabitants from Mars' environment and provide comfortable living conditions.
Life Support Systems: Systems for air, water, and waste management.
Power Generation: Solar panels, nuclear reactors, or other power sources to meet energy needs.
Food Production: Greenhouses or hydroponic systems for growing food.
Medical Facilities: Equipment and supplies for medical emergencies and long-term health management.
Transportation: Vehicles for exploring Mars and transporting goods and people.
Communication: Satellites and ground-based systems for reliable communication with Earth.
Manufacturing: Facilities for producing essential goods and repairing equipment using local resources.
Addressing Challenges of Radiation Exposure, Gravity, and Life Support Systems
Radiation Exposure:
Shielding: Developing materials and designs to shield habitats and spacecraft from radiation.
Medical Countermeasures: Researching and developing medications and treatments to mitigate radiation effects.
Gravity:
Artificial Gravity: Exploring technologies to simulate Earth's gravity during transit to mitigate the effects of microgravity.
Exercise and Nutrition: Protocols to maintain muscle and bone health in Mars' lower gravity.
Life Support Systems:
Closed-Loop Systems: Developing systems that recycle air, water, and waste to minimize the need for resupply.
Redundancy: Building in redundancies to ensure life support systems remain functional even if components fail.
Estimated Cost and Funding Model for Elon Musk's Mars Colonization Plan
Estimated Cost: The total cost of colonizing Mars is estimated to be in the range of hundreds of billions to trillions of dollars.
Funding Model:
Private Investment: SpaceX relies heavily on private investment and revenue from its commercial space activities.
Government Contracts: Funding from government contracts for space missions and services.
Public-Private Partnerships: Collaborations with other companies and governments to share costs and resources.
Crowdfunding and Philanthropy: Potential funding from crowdfunding campaigns and philanthropic donations.
Elon Musk has stated that the goal is to make space travel affordable and sustainable, ultimately aiming to reduce the cost per person to a level comparable to the median cost of a house in the United States.
I could easily transform this further into longer form content, but building prompting templates is more interesting and flogging spacex propaganda isn’t my mission.
Occupy Mars.
Like we can see Minimax/Hailuo 海螺 does a decent job rendering someone who looks like Musk, almost, so i’m gonna have to convince you kind people to give me thousands of dollars so i can update my machine to latest standards otherwise its no ai porn for you!
hope it gets a lol.