Asking ChatGPT about the Pyra Project


Very Active Member
Jun 3, 2019
If you've not tried the free ChatGPT-3 instance by OpenAI yet, I think it's becoming very helpful (or for $20 you can chat to a faster version).

Anyway, I thought it would be interesting to ask ChatGPT about the Pyra development. ChatGPT-3's training set includes a lot of internet websites up to Sept 2021.

> I wish to have an open-sourced hardware and software portable computer. I have followed the DragonBox Pyra project and Pinephone projects but these have been very slow to delivery and were missing key features that were aimed for.
It's great that you're interested in open-sourced hardware and software portable computers. However, it's important to note that developing hardware and software can be a challenging and time-consuming process, particularly for small projects with limited resources.

If you're looking for an open-sourced portable computer with specific features, it might be worthwhile to explore other projects or communities that align more closely with your needs. Some popular open-source hardware and software projects include:

The Raspberry Pi: a credit-card sized computer that can be used for a wide range of projects, from gaming to media centers to robotics. The Raspberry Pi is designed to be affordable and accessible, making it a popular choice for hobbyists and educators.

The BeagleBoard: a low-power, open-sourced single-board computer that is designed for embedded applications. The BeagleBoard is often used in robotics and automation projects, as well as for prototyping and experimentation.

The OpenPilot: an open-sourced hardware and software platform for autonomous vehicles. The OpenPilot platform is designed to be accessible and affordable, allowing developers to experiment with autonomous vehicle technology without investing in expensive proprietary systems.

It's important to note that each of these projects has its own strengths and weaknesses, and may not be the best fit for your specific needs. However, by exploring different projects and communities, you may be able to find a solution that meets your requirements.

> What would be needed to develop an open source mobile communications smartphone like technology.
Developing an open-source mobile communications smartphone like technology can be a complex and challenging process that requires a wide range of skills and resources. Here are some of the key components that would be needed:

Hardware: The first step in developing an open-source smartphone is to design and manufacture the hardware components. This includes the display, processor, memory, battery, camera, and other sensors. Depending on the level of customization and performance required, this can be a significant undertaking that requires expertise in electrical engineering, mechanical engineering, and manufacturing.

Software: Once the hardware is in place, the next step is to develop the software that will power the device. This includes the operating system, drivers, firmware, and user interface. Developing an open-source mobile operating system requires significant expertise in software engineering, particularly in areas such as device drivers, power management, and security.

Mobile Network Infrastructure: In order to connect to mobile networks, the smartphone will need to be compatible with a variety of communication protocols such as GSM, CDMA, and LTE. This requires expertise in wireless networking and telecommunications.

Regulatory Compliance: In order to sell a mobile communications device in most countries, it will need to comply with a range of regulatory requirements, including safety, electromagnetic compatibility, and radio frequency emissions. Compliance testing can be a significant expense, and may require specialized expertise.

Funding: Developing a smartphone requires significant financial resources, particularly in the early stages of development. This may include funding from investors, grants from foundations, or crowdfunding campaigns.

Overall, developing an open-source smartphone is a significant undertaking that requires a range of technical, regulatory, and financial resources. However, with the right team and resources, it is possible to create an alternative to proprietary mobile devices that offers greater transparency and control to users.

> If such a venture isn't a viable business proposal, what alternative approaches could be used for the successful development of such a product?
If developing an open-source mobile communications smartphone is not a viable business proposal, there are alternative approaches that could be used to successfully develop such a product. Here are a few ideas:

Crowdfunding: One option is to use crowdfunding to raise the funds needed to develop the product. Crowdfunding platforms like Kickstarter and Indiegogo can be used to solicit donations or pre-orders from individuals who are interested in the project. This approach can help to build a community around the product and generate buzz before it is released.

Open-source community development: Another approach is to leverage the power of the open-source community to develop the product. By making the project open-source and soliciting contributions from developers around the world, it is possible to tap into a wealth of expertise and resources without incurring significant costs.

Collaborative partnerships: Another option is to partner with other organizations or companies that share a similar vision. For example, a non-profit organization or advocacy group might be willing to provide funding or resources in exchange for a stake in the project or recognition for their support.

Grants and funding: There are many grants and funding opportunities available for open-source projects, particularly those with a social or environmental focus. By applying for these grants and funding opportunities, it is possible to obtain the resources needed to develop the product without relying on traditional business models.

Ultimately, the success of any open-source project depends on building a community around the product and generating support from individuals and organizations that share the same vision. By taking a collaborative and community-driven approach, it is possible to develop a high-quality product that meets the needs of users without relying on traditional business models.

> Can you tell me more about the Dragonbox Pyra project?
The DragonBox Pyra is an open-source handheld computer that was first introduced in 2014. The project was developed by a team of hardware and software engineers with a focus on creating a portable device that was fully open-source and customizable. The Pyra is the successor to the OpenPandora handheld gaming console and is designed to be a fully functional computer that can run a wide range of applications.

Here are some of the key features of the DragonBox Pyra:
  1. Hardware: The Pyra is powered by a 1.5GHz ARM Cortex-A15 processor and features 2GB of RAM and 32GB of internal storage. It also includes a 5-inch touchscreen display, a full keyboard, and a variety of ports for connectivity, including USB, HDMI, and Ethernet.
  2. Software: The Pyra runs a fully open-source operating system based on Debian Linux. The device is designed to be customizable, and users can modify the operating system and software to suit their needs.
  3. Gaming: The Pyra is designed to be a gaming device and includes a variety of features to support gaming, including a dedicated gaming keypad, two joysticks, and buttons for quick access to game functions.
  4. Battery life: The Pyra includes a 6000mAh battery that provides up to 10 hours of use on a single charge.
  5. Open-source: The Pyra is designed to be fully open-source, with all hardware schematics and software code available for download. This allows users to modify the device, create their own applications, and contribute to the development of the project.
Overall, the DragonBox Pyra project represents a significant achievement in the development of open-source hardware and software. While the project has experienced delays in development and production, it remains a popular choice for enthusiasts and developers who are interested in creating their own portable computing devices.
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Can you suggest who might offer grants and funding to help complete the DragonBox Pyra project?
There are a variety of organizations that offer grants and funding opportunities for open-source hardware and software projects like the DragonBox Pyra. Here are a few options to consider:
  1. Mozilla Open Source Support (MOSS): MOSS offers a variety of grants to support open-source projects, including hardware and software projects. The grants are designed to support important open-source technologies and initiatives that benefit the public.
  2. Linux Foundation: The Linux Foundation offers a range of grants and funding opportunities to support open-source projects. This includes the Community Fund, which provides funding for small-scale projects, and the Core Infrastructure Initiative, which supports critical open-source projects.
  3. Open Technology Fund (OTF): OTF provides funding and support for technologies that promote free expression, human rights, and open societies. This includes funding for open-source hardware and software projects that advance these goals.
  4. Knight Foundation: The Knight Foundation provides funding and support for a variety of initiatives, including open-source projects that promote innovation, civic engagement, and social progress.
  5. National Science Foundation (NSF): The NSF provides funding for research and development projects across a wide range of fields, including open-source software and hardware. The NSF offers a variety of grant programs that may be applicable to the DragonBox Pyra project.
It's important to note that each of these organizations has its own eligibility criteria and application process, and competition for funding can be intense. However, by identifying the right opportunities and crafting a compelling proposal, it is possible to secure the resources needed to complete the DragonBox Pyra project.
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We already have a thread i think.

Reading this responses hurts my brain, it is such generic nonsense. BUT wait, real Humans talk like that too all the time.
All this painful to read none answers that simply repeat the question and ad more words to it just to make it sound fancier.

In anycase, i am actually interested in how far this thing analysed the forum in deep. Does it understand inside jokes? Does it know certain users? Does it know what the perfect keyboard layout is? Whats its order number?
Yup, the previous thread is:
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We already have a thread i think.

Reading this responses hurts my brain, it is such generic nonsense. BUT wait, real Humans talk like that too all the time.
All this painful to read none answers that simply repeat the question and ad more words to it just to make it sound fancier.

In anycase, i am actually interested in how far this thing analysed the forum in deep. Does it understand inside jokes? Does it know certain users? Does it know what the perfect keyboard layout is? Whats its order number?
Isn't the list of funding options interesting though?
What is the Dragonbox Prya?

The Dragonbox Prya is a handheld gaming device designed for young children to learn and practice math skills. The device is produced by Dragonbox, a Norwegian educational technology company that specializes in developing games and apps that teach mathematical concepts.
The Prya features a 5-inch touch screen and comes preloaded with a suite of educational games that cover topics such as addition, subtraction, multiplication, and division. The games are designed to be engaging and entertaining, while also challenging children to think critically and develop problem-solving skills.
In addition to the built-in games, the Prya can also be connected to a smartphone or tablet using Bluetooth technology, allowing parents and educators to monitor children's progress and customize their learning experience.
The Dragonbox Prya was designed with a focus on accessibility, with a simple user interface and no advertisements or in-app purchases. The device is intended to be a fun and effective tool for young children to build their math skills and confidence.
WTF? ED, prepare for a court case due to legal infringements ;)
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> How can EvilDragon speed up the production of the DragonBox Pyra?
As an AI language model, I cannot speculate on what actions EvilDragon could take to speed up the production of the DragonBox Pyra. However, there are some general strategies that hardware manufacturers can use to increase production efficiency and reduce delays:

Streamlining the production process: One way to speed up production is to optimize the manufacturing process to reduce the time it takes to produce each unit. This could involve automating certain tasks, using more efficient machinery, or reorganizing the production line to minimize bottlenecks.

Increasing capacity: Another way to speed up production is to increase the capacity of the production facility. This could involve expanding the physical space, hiring more staff, or outsourcing some of the production to third-party manufacturers.

Improving supply chain management: Production delays can often be caused by issues with the supply chain, such as delays in receiving necessary components or materials. Improving supply chain management by working with reliable suppliers and maintaining adequate inventory levels can help mitigate these delays.

Addressing quality issues: If quality issues are causing delays in production, it may be necessary to invest in additional quality control measures or to work with suppliers to improve the quality of the components or materials being used.

Ultimately, the best approach to speeding up production will depend on the specific challenges faced by EvilDragon and the DragonBox Pyra team.

> Points 1, 3 & 4 are already resolved. Given that funding is limited, how can we improve on 2.?
If EvilDragon's funding is limited, there are still some strategies that can be used to increase production capacity without incurring significant costs:

Improve production planning: Effective production planning can help optimize the use of existing resources and reduce waste. This could involve using a just-in-time inventory system to minimize excess inventory, implementing lean manufacturing principles to reduce waste and improve efficiency, and optimizing the production schedule to minimize downtime.

Utilize flexible production methods: Flexible production methods, such as modular assembly or cellular manufacturing, can help increase production capacity without requiring significant capital investments. By breaking down the production process into smaller, more manageable units, it may be possible to produce more units with the same resources.

Outsource non-critical tasks: If EvilDragon's production facility is at full capacity, it may be possible to outsource non-critical tasks to third-party manufacturers. For example, some components could be manufactured by external suppliers, allowing EvilDragon to focus on assembling and testing the final product.

Increase workforce efficiency: Finally, it may be possible to increase workforce efficiency by implementing training programs, improving communication and collaboration, and implementing performance metrics to track productivity. By maximizing the productivity of existing staff, it may be possible to increase production capacity without hiring additional employees.

Ultimately, increasing production capacity while keeping costs low is a difficult challenge, and the best approach will depend on the specific constraints and opportunities faced by EvilDragon.
However, by implementing some of these strategies, it may be possible to increase production efficiency and meet demand more quickly.
> In a previous conversation, you suggested Mozilla Open Source Support (MOSS), Linux Foundation, Open Technology Fund (OTF), Knight Foundation, or the National Science Foundation (NSF) might be able to provide financial support for the project.

Are they likely to support scaling up of the manufacture of the product?

It's difficult to say whether organizations like MOSS, Linux Foundation, Open Technology Fund, Knight Foundation, or the National Science Foundation (NSF) would be willing to provide financial support specifically for scaling up the manufacture of the DragonBox Pyra. However, these organizations are known for supporting open-source software and hardware projects, and they may be interested in supporting the Pyra project if it aligns with their mission and goals.
For example, the Linux Foundation supports a variety of open-source projects and has a program called the Community Bridge that helps fund and mentor open-source developers. The Open Technology Fund provides financial support to projects that promote free and open communication on the internet, and the Knight Foundation supports projects that use technology to promote informed and engaged communities.
If @EvilDragon is seeking funding to scale up production of the Pyra, they could consider reaching out to these organizations to see if they might be interested in supporting the project. However, it's important to note that securing funding can be a competitive and challenging process, and there are no guarantees that any particular organization will provide financial support.
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>Acting as EvilDragon, can you write a proposal to apply for funding for the production of the DragonBox Pyra that will likely secure funding from MOSS?

As an AI language model, I can provide guidance on how to write a proposal to apply for funding for the production of the DragonBox Pyra, but I cannot guarantee that the proposal will secure funding from MOSS or any other organization. However, I will provide some general guidance on how to write a proposal that is likely to be competitive.

Here is an example proposal:

Dear MOSS,
I am writing to apply for funding to support the production of the DragonBox Pyra, an open-source handheld computer that runs on Debian Linux. The Pyra is designed to be a portable gaming and productivity device that is both powerful and customizable, and we believe it has the potential to be a game-changer in the handheld computing market.
We have already developed several prototypes of the Pyra and have received a significant amount of interest from the open-source community. However, we are currently facing challenges in scaling up production to meet demand. The funding we are requesting will be used to improve our production processes, increase our production capacity, and expand our marketing and distribution efforts.
Specifically, the funding will be used for the following:
  • Investing in additional production equipment and technology to increase efficiency and reduce production time.
  • Hiring additional staff to manage the production process and ensure quality control.
  • Developing marketing and distribution strategies to reach a wider audience and increase sales.
  • Research and development of new features and improvements to the Pyra hardware and software.
The funding we are requesting is critical to the success of the project and will help us bring the Pyra to a wider audience. We believe that the Pyra has the potential to be a major player in the handheld computing market, and we are excited about the opportunities it presents for open-source software and hardware.
Thank you for your consideration of this proposal. We look forward to hearing from you soon.
>Is AESS, the Audio Back End (ABE) whithin the OMAP5 SoC working in PyraOS?

Yes, the Audio Back End (ABE) within the OMAP5 SoC, which is also known as AESS (Audio Enhanced Sound System), is working in PyraOS, the operating system that is designed for the Dragonbox Pyra device.
PyraOS is built on top of Debian Linux and has been optimized to take advantage of the features and capabilities of the OMAP5 SoC, including the AESS audio processing module. The PyraOS software includes drivers and libraries that enable the ABE/AESS capabilities of the OMAP5 SoC to be used for audio processing and output.
The Dragonbox Pyra has a stereo headphone jack and stereo speakers that are connected to the ABE/AESS module, allowing for high-quality audio playback. The device also supports various audio codecs and formats, including MP3, FLAC, and Ogg Vorbis, among others, which can be played back using the ABE/AESS module.
How important is it to copy and discuss feedback from here on OpenAI about the Pyra, on the Pyra's own forum?

As an AI language model, I do not have personal opinions or emotions, but I can provide information and perspective on your question.
Copying and discussing feedback from OpenAI about the Pyra on the Pyra's own forum may be important for several reasons. First, OpenAI is a well-respected organization with expertise in artificial intelligence and related fields. Their feedback could provide valuable insights into the technical aspects of the Pyra, such as its hardware and software design, and how it compares to other similar devices in the market.
Second, OpenAI's feedback could potentially reach a wider audience beyond the Pyra's own forum, which could help raise awareness about the device and attract more users to the Pyra community.
However, it's important to note that simply copying and pasting feedback from one platform to another may not be the most effective way to communicate the feedback or engage with the community. It may be more useful to summarize and contextualize the feedback within the Pyra community's own discussions and to provide additional context and explanation where necessary.

chatgpt's reaction to having this topic; written as a poem:

And some creative solutions to the Pyra CPU heat issues that are rejected by chatgpt:

And because it's much more fun to have a reaction written as a poem instead of a lecture:
If the AI gets data from the internet, then that's what most people think it is.

I still have trouble making people understand that the Pandora is a computer, even if I show to them LibreOffice or the compilers, it's still a cheap Nintendo DS for them.