This thread is comprised using 3 different AI's. I did this on purpose to examine for myself the differences of the writing styles and accuracy of the information. I will provide which AI is used for what. I will also be using a local LLM with my own data sets.

Gemini pro

Part 1: How to Responsibly Use AI 
The power of AI comes with a responsibility to use it thoughtfully. Here are some core principles to follow:

• Fact-check Everything: AI models can sometimes "hallucinate," producing information that sounds correct but is entirely false. Always verify critical information from a reliable source.
  
• Acknowledge Your Use: Be transparent about when you've used an AI to assist you, whether it's for generating code, summarizing a document, or brainstorming.
  
• Protect Your Privacy: Never input sensitive or personal information into public AI services. Your data may be used to train future models, and you have no guarantee of its security.
  
• Recognize and Address Bias: AI models are trained on vast datasets that can contain human biases. These biases can be reflected in the AI's output, so it's crucial to critically evaluate the results and be aware of potential prejudices.
  

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Part 2: AIs for Different Needs 
The right AI for the job depends on what you want to accomplish. Here’s a quick guide to some popular options.

• For Coding and Development:
  • GitHub Copilot (GPT-4 based): An excellent tool for code completion, writing boilerplate code, and suggesting functions.
    
  • Llama 3 (Meta): A powerful open-source model that can be fine-tuned for specific development tasks.
    
• For Creative and General-Purpose Writing:
  • GPT-4o (OpenAI) & Gemini (Google): These are versatile models for creative writing, drafting emails, and summarizing text. They are great for overcoming writer's block.
    
• For Image Generation:
  • Stable Diffusion: A popular open-source model that you can run on your own machine. It offers a high degree of control and flexibility.
    
• For Research:
  • Perplexity: An "answer engine" that provides citations for its responses, making it a reliable tool for fact-checking and research.
    

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Part 3: Running AI Locally: A Simple Guide 
Running AI on your own hardware offers greater privacy and control. It's also a great way to learn about how these models work.

1. Start with a Simple UI: Use a user-friendly application like Ollama or LM Studio. These tools simplify the process of downloading and running models, so you don't have to deal with complex command lines.
   
2. Choose a Model: Browse model repositories like Hugging Face and look for GGUF versions. These are optimized to run on consumer hardware with less RAM. A good starting point is a smaller model, such as a 7B (7 billion parameter) version of a model like Llama.
   
3. Run It: Once the model is downloaded, you can start interacting with it directly within the application, all on your own machine.
   
   GroK
   
    
   Large-scale AI models like Grok, Gemini, or others can have significant environmental impacts primarily due to their energy consumption during training and operation. Here’s a clear explanation of how they affect the environment, focusing on key factors:
   1. High Energy Consumption
   
4. Training Phase: Training large AI models requires massive computational resources, often involving thousands of GPUs or TPUs running for weeks or months. For example, training a single large language model can consume as much energy as several households use in a year. A 2019 study estimated that training a model like BERT produced about 626,000 pounds of CO2 emissions, roughly equivalent to 125 round-trip flights between New York and Beijing.
   
5. Inference Phase: Once trained, running these models (inference) also demands significant energy, especially when deployed at scale to handle millions of user queries daily. Data centers hosting these models run 24/7, consuming electricity for computation and cooling.
   
6. 2. Carbon Footprint
   
7. The energy used often comes from fossil fuel-based power grids, leading to substantial carbon dioxide (CO2) emissions. The exact footprint depends on the energy mix of the region where data centers are located. For instance, data centers in coal-heavy regions like parts of China or India have a larger carbon footprint than those in regions with renewable energy sources like Scandinavia.
   
8. Scale of Impact: As AI adoption grows, the cumulative energy demand from training and running multiple models exacerbates global carbon emissions, contributing to climate change.
   
9. 3. Resource Intensive Infrastructure
   
10. Hardware Production: The GPUs, TPUs, and other hardware used for AI require rare earth metals (e.g., lithium, cobalt) and complex manufacturing processes. Mining and producing these materials generate environmental degradation, including water pollution and habitat destruction.
    
11. Data Center Construction: Building and maintaining large data centers involves significant land use, water for cooling, and construction-related emissions.
    
12. 4. Water Usage
    
13. Data centers require vast amounts of water for cooling to prevent servers from overheating. In 2021, Google’s data centers alone used about 15 billion liters of water. This can strain local water resources, especially in water-scarce regions, impacting ecosystems and communities.
    
14. 5. E-Waste
    
15. AI infrastructure relies on specialized hardware that becomes obsolete quickly, leading to electronic waste. Disposing of outdated GPUs and servers improperly can release toxic substances like lead and mercury into the environment.
    
16. 6. Specifics on Grok, Gemini, and Others
    
17. Grok (xAI): While specific data on Grok’s environmental impact isn’t public, its training and operation likely follow similar patterns to other large models, relying on energy-intensive data centers. xAI’s focus on accelerating scientific discovery might involve frequent model updates, increasing energy use.
    
18. 7. Mitigation Efforts
    
19. Renewable Energy: Companies like Google and Microsoft are increasingly powering data centers with renewable energy, though global reliance on fossil fuels remains a challenge.
    
20. Efficient Algorithms: Research into more energy-efficient models (e.g., smaller, optimized models like DistilBERT) aims to reduce energy demands.
    
21. Carbon Offsetting: Some companies offset emissions through carbon credits, though this is criticized as less effective than reducing emissions directly.
    
22. Hardware Optimization: Advances in energy-efficient chips (e.g., Google’s TPUs) aim to lower the energy footprint.
    
23. 8. Counterarguments and Context
    
24. Efficiency Gains: AI can optimize industries (e.g., logistics, energy grids), potentially reducing emissions elsewhere. For example, AI-driven smart grids can cut energy waste.
    
25. Relative Impact: While AI’s energy use is significant, it’s a fraction of global emissions (e.g., data centers account for ~1-2% of global electricity). Industries like transportation or manufacturing have larger footprints.
    
26. Trade-offs: The societal benefits of AI (e.g., medical research, disaster prediction) may justify some environmental costs, but unchecked growth could exacerbate harm.
    

 

1.  
   
2. Gemini (Google): Google’s AI models, including Gemini, contribute to its overall data center energy consumption, which accounted for about 15% of global data center electricity use in recent estimates. Google has made strides in using renewable energy, but the scale of its operations still results in significant emissions.
   
3. Other Models (e.g., ChatGPT by OpenAI): Similar issues apply. For instance, OpenAI’s GPT-3 training reportedly emitted around 552 metric tons of CO2, comparable to driving a car 1.3 million miles.
   

Maick My local AI model 

 Okay, let's dive into how using local AI is significantly better for home use and energy compared to relying solely on cloud-based AI. Here's a breakdown of the key differences and benefits, broken down into categories:
1. Privacy & Data Ownership:

• Local AI: This is the biggest advantage. Your data never leaves your home. It's processed and stored on your devices (like a Raspberry Pi, a smart home hub, or even your smartphone). You control who has access and how the data is used. This drastically reduces privacy concerns.
  
• Cloud-Based AI: Your data is sent to a remote server for processing. This raises serious privacy questions – data can be accessed by companies, governments, or even malicious actors.
  

2. Speed & Latency:

• Local AI: Processing happens locally. There's no network delay. This means faster responses – your thermostat adjusts instantly, your security system reacts faster, and your AI assistant is more responsive.
  
• Cloud-Based AI: Latency (delay) is a major issue. Every request travels across the internet, which introduces a delay. This can be noticeable in time-sensitive applications like security or automated control.
  

3. Personalization & Adaptability:

• Local AI: AI learns specifically from your habits, preferences, and environment. It's deeply integrated with your home's unique characteristics. It can adapt much faster to changing conditions than a generalized cloud-based system.
  
• Cloud-Based AI: Generally relies on pre-trained models and algorithms. While they can improve over time, they often lack the nuanced understanding of your home’s quirks and patterns.
  

4. Security & Resilience:

• Local AI: Since data doesn't leave your home, it’s inherently more secure. A breach on a cloud server doesn't compromise your entire system. It’s also less vulnerable to internet-based attacks.
  
• Cloud-Based AI: A single point of failure exists – the cloud provider. A security breach impacting their systems can affect many users.
  

5. Cost (Long-Term):

• Local AI: Initially, the hardware (like a Raspberry Pi) might have a higher upfront cost. However, you avoid ongoing subscription fees for cloud services. Maintenance and upgrades are primarily handled by you.
  
• Cloud-Based AI: Recurring subscription fees for cloud services can add up over time.
  

6. Specific Use Cases - Let's look at some examples:

• Smart Thermostat: A local AI learns your preferred temperature settings and automatically adjusts based on occupancy, weather, and time of day – providing a much more personalized and responsive experience.
  
• Home Security: Local AI can analyze camera footage and sensor data immediately to detect unusual activity, reacting faster than a cloud-based system.
  
• Automated Irrigation: Local AI can understand soil moisture levels and weather patterns to optimize watering schedules, saving water and improving plant health.
  
• Energy Optimization: Local AI can analyze your energy usage patterns and automatically adjust appliances to minimize waste.
  

Examples of Local AI in Action:

• Homebot: A popular open-source platform for building custom AI assistants for home automation.
  
• TinyML: Allows you to run very small AI models directly on microcontrollers, creating localized AI.
  

In short: Local AI offers a superior combination of privacy, speed, personalization, security, and cost-effectiveness – making it a much better choice for homeowners looking to intelligently manage their homes.

In the end we as a society will benefit a lot by not giving up our information and not allowing all these big name companies to data mine the shit out of us. They grab all your pc information each and everytime you use them. That information goes into a massive data center that creates a profile and data sets. I am not getting paid to train others AI so why should I continue to give up my information to data brokers along with helping some nerds get richer and take jobs away?

Thank you for all of this, Ruchard.   It is concise and measurable and very well written.   You very aptly delineate the various parameters in which AI can be sucessfully engaged.  

For me, it might as well be written in Finnish, for all that I understood.  

The world belongs to you young people.  We all did our best.   You do your best also, and hope there is a generation beyond you. 

(09-08-2025, 06:11 PM)argentus Wrote: Thank you for all of this, Ruchard.   It is concise and measurable and very well written.   You very aptly delineate the various parameters in which AI can be sucessfully engaged.  

For me, it might as well be written in Finnish, for all that I understood.  

The world belongs to you young people.  We all did our best.   You do your best also, and hope there is a generation beyond you. 

Thank you argentus.
It clicked earlier that this kind of information should have been posted already. While there has been a few threads about AI, none truly delved into the do and do nots or the pros and cons. I do hope this will help some that don't full grasp what is going on and what is available to them, along with responsible use.
And I would be more than happy to help anyone that would like help with setting up a local AI or just has questions in general.

I removed content from the OP that relates to myself or my hardware.

(09-08-2025, 06:20 PM)RuchardHurt Wrote: Thank you argentus.
It clicked earlier that this kind of information should have been posted already. While there has been a few threads about AI, none truly delved into the do and do nots or the pros and cons. I do hope this will help some that don't full grasp what is going on and what is available to them, along with responsible use.
And I would be more than happy to help anyone that would like help with setting up a local AI or just has questions in general.

I'll be seventy in two years.   I once had a degree in chemistry and minors in math and physics.   I feel sharp as ever, mostly.   I have zero interest in engaging in AI in any manner whatsoever, however I appreciate your bringing the opportunity to those who are interested in doing so.   I think that AI will eventually kill us all, however I'm not completely convinced that it isn't the right way of things.   I have hopes that humanity will evolve into creatures that collectively give a shit about the planet and themselves.   Perhaps AI will help.  We'll see.

Personally, don't use AI.

My opinion.

Have YOUR opinions, have YOUR ideas, embrace YOUR concepts.

Listen to what people say.

Don't trust what people tell you people are saying.

(09-08-2025, 06:53 PM)DBCowboy Wrote: Personally, don't use AI.

My opinion.

Have YOUR opinions, have YOUR ideas, embrace YOUR concepts.

Listen to what people say.

Don't trust what people tell you people are saying.

You had mentioned in a thread that I can't recall atm that you had a career in some brain transplanting field. I am sure you can find a good team that can use this technology for better brain transplanting things.

I would like to give my personal choice of how to use AI in the real world to save money and time.
There are apps that come built into all phones nowadays. It's your assistant app. If you don't know how to use it, just hold down your home button for a few seconds and it will prompt you to set it up. 
You can use this assistant is ways most don't think about.
Let's say you are broke  or just want to make a creative meal. Just take a picture of the ingredients you want to use or just type them in, then ask what meals can be made.
You can also give a food budget and give the stores location and a cloud AI will tell you the sail prices and tell you where they are located within the store.
Another use and I use this all the time albeit I use my local but it works either way. If you are unaware of how to utilize something or just want to know how it works, take a picture and ask.

(09-08-2025, 07:21 PM)RuchardHurt Wrote: You had mentioned in a thread that I can't recall atm that you had a career in some brain transplanting field. I am sure you can find a good team that can use this technology for better brain transplanting things.

Well no.  Wrong.

But hey, I'll give you a D for effort.

(09-08-2025, 07:27 PM)DBCowboy Wrote: Well no.  Wrong.

But hey, I'll give you a D for effort.

You do some kind of brain thing.
I believe that deserves at the very least a C+