This is really cool! I love the accompanying footage of the PC. Also this was uploaded at such coincidental timing because I’m currently building my first gaming PC right now.
im currently making a cpu architecture and i have it working, the strongest cpu i could make in specs got 16 teraflops of computing, it is risc and have mere 12 instructions on its assembly language, i cant reproduce it on real silicon wafer by now because it is very complex and i cant afford it even on larger transistor size like 500 nm or 1 micrometer, im from brazil, what do you think i could improve or remove?
I'm only 13 so I don't know that much about CPUs and SOCs but I did ask chat gpt what it thinks you could do here it is It sounds like you've made significant progress in designing your CPU architecture! Here are a few suggestions on what you could consider to improve or refine your design, especially given the constraints you're facing: 1. **Instruction Set Architecture (ISA) Optimization**: Since your architecture currently has 12 instructions, ensure each instruction is essential and covers a wide range of functionalities efficiently. You might want to review if any instructions can be combined or simplified without compromising performance. 2. **Complexity Reduction**: If the design is too complex to be implemented practically, consider simplifying certain aspects. This could involve reducing pipeline stages, optimizing the control logic, or revisiting the microarchitecture to streamline operations. 3. **Focus on Performance per Watt**: Teraflops is a measure of floating-point performance, but efficiency in terms of power consumption and thermal management is crucial. Can you achieve a good balance of performance and efficiency with your current design? If not, prioritizing efficiency might lead to optimizations that make fabrication more feasible. 4. **Transistor Scaling and Design Feasibility**: Given your constraints on wafer fabrication, explore if there are ways to reduce transistor count or use larger, more easily manufacturable transistor sizes while still achieving acceptable performance. Sometimes, a slightly slower but more manufacturable design can be more practical. 5. **Simulation and Validation**: Before attempting fabrication, ensure your design is thoroughly simulated and validated through software simulations and possibly FPGA prototyping. This can help uncover potential issues and refine the design further. 6. **Cost Optimization**: Investigate ways to reduce costs associated with fabrication. This could involve exploring different foundries, considering partnerships or grants that support technology development, or even seeking collaborations with universities or research institutions. 7. **Market and Application Focus**: Determine the specific market or application areas where your CPU architecture can excel. Focusing on niche markets with specific performance requirements can make your design more attractive despite limitations in scale or manufacturing. 8. **Community and Collaboration**: Engage with the broader CPU design community, both locally in Brazil and globally. Collaborations or feedback from experts and peers can provide valuable insights and potential solutions to challenges you might be facing. By focusing on these aspects, you can iteratively refine your CPU architecture to improve feasibility, performance, and ultimately, its practicality for real-world implementation.
@@MichaelsHardware thank you, i also dont know all the things i need to do the prototyping and etc, and also, i am 12, i think the fun about that is the things we learn.
this is what the post would say Hi someone is working on designing a CPU and if there is someone that could Help him, that would be very nice Here is what he or she said I'm currently making a CPU architecture and i have it working the strongest CPU i could make in specs got 16 teraflops of computing it is risc and have mere 12 instructions on its assembly language i cant reproduce it on real silicon wafer by now because it is very complex and i cant afford it even on larger transistor size like 500 nm or 1 micrometre, I'm from Brazil what do you think i could improve or remove? here is his UA-cam channel ua-cam.com/channels/MhAPoyZcQk0kDzLS7zZs3Q.html
Sans taking over your computer to stop you from completing the genocide route:
🤣🤣😂
O-O
@@diamondyoshi6649 ?
If Sans could do this imagine what Chara could
when diagnosing a PC that doesn't work
me: any beeps when you try starting it up?
them: *starts humming megalovania*
😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂😂🤣🤣🤣😂🤣😂🤣😂🤣😂🤣😂🤣😂🤣😂🤣🤣
* you're gonna have a bios time
🤣🤣😂
Imagine if arch linux replaced the mario coin sound when booting with megalovania and it froze boot until the entire song played
That would be cool
my pc when i try installing linux:
Been running linux for about a year now
Can confirm
arch installer do be playing the mario coin sound on speakers you didnt know you have
Definitely I also use Linux in my old laptops and homade all in one pc
I know btw do you watch bringustudios he’s a very nice UA-camr that messes with computers very weird ones
@@MichaelsHardware yep, dude's sick. honestly wish he started earlier so i could bing his content lol
This is really cool! I love the accompanying footage of the PC. Also this was uploaded at such coincidental timing because I’m currently building my first gaming PC right now.
Cool have you seen my other bios piezo songs like wintergatan marble song
@@MichaelsHardware I haven’t, but I’ll definitely have to check out more of your videos soon! 😁
@@MatchaFoxx thank you
PC: wtf stop recording I’m dying
Have you seen my rush e video
Or my PC if my GPU finally dies (it’s overheating)
funny skeleton guy moment
@@repoversemedium yeah
This PC is going to catch fire!
It will "halt" and "catch fire"
😂😂😂😂
Naaa it’s fine…… catches fire oh shi
The PC is about to have a bad time
😂😂🤣🤣
hi what do you think
Amazing!
* This is beautiful day outside...
It's people like you that make this world a better place :)
Definitely 👍
School pc gaming simulator (the pc at my school have the same graphics card)
That's my only pc😥
@@MichaelsHardware better than mine. Mine is from 2008. Its one year younger than me lol
Reminds of that video of a chip running on an arduino board
Yeah
The dell: RAM CPU PSU HDD CHASSIS INTRUSION GPU ERROR
Best comment of the day 😂😂😂😂😂
@@MichaelsHardwarewhy am I late also lol😂
cool! please do the ending theme to sm64 next time! if you accept requests of course
I will do the normal theme because it is more popular and will get more views
@@MichaelsHardware alright!
You should make a google form so people can submit song requests
You could just comment them BUT only memes or old game music
@@MichaelsHardwarei have a request, shop theme
I love this so much
Thank you
How did you do this? It's simply incredible
I made a video on how I did it
Oh thats perfect 🥇🎉
@@alpyguven7787 thank you
You should add dialouges too
What do you mean
@@MichaelsHardware You know characters has "E E E E" sounds when they're speaking =d
Anyway for any of us to play this with our own pc speaker?
I made a video on how I did it
@@MichaelsHardware okay ill be sure to check it out. Thanks!
thanks man
No problem
get dunked on
?
gotta try some minecraft music
Yeeeees how did I not think about that how about Sweden
@@MichaelsHardware yesssssss sweeden, wet hands, or haggstrom would be very good here
im currently making a cpu architecture and i have it working, the strongest cpu i could make in specs got 16 teraflops of computing, it is risc and have mere 12 instructions on its assembly language, i cant reproduce it on real silicon wafer by now because it is very complex and i cant afford it even on larger transistor size like 500 nm or 1 micrometer, im from brazil, what do you think i could improve or remove?
I'm only 13 so I don't know that much about CPUs and SOCs but I did ask chat gpt what it thinks you could do
here it is
It sounds like you've made significant progress in designing your CPU architecture! Here are a few suggestions on what you could consider to improve or refine your design, especially given the constraints you're facing:
1. **Instruction Set Architecture (ISA) Optimization**: Since your architecture currently has 12 instructions, ensure each instruction is essential and covers a wide range of functionalities efficiently. You might want to review if any instructions can be combined or simplified without compromising performance.
2. **Complexity Reduction**: If the design is too complex to be implemented practically, consider simplifying certain aspects. This could involve reducing pipeline stages, optimizing the control logic, or revisiting the microarchitecture to streamline operations.
3. **Focus on Performance per Watt**: Teraflops is a measure of floating-point performance, but efficiency in terms of power consumption and thermal management is crucial. Can you achieve a good balance of performance and efficiency with your current design? If not, prioritizing efficiency might lead to optimizations that make fabrication more feasible.
4. **Transistor Scaling and Design Feasibility**: Given your constraints on wafer fabrication, explore if there are ways to reduce transistor count or use larger, more easily manufacturable transistor sizes while still achieving acceptable performance. Sometimes, a slightly slower but more manufacturable design can be more practical.
5. **Simulation and Validation**: Before attempting fabrication, ensure your design is thoroughly simulated and validated through software simulations and possibly FPGA prototyping. This can help uncover potential issues and refine the design further.
6. **Cost Optimization**: Investigate ways to reduce costs associated with fabrication. This could involve exploring different foundries, considering partnerships or grants that support technology development, or even seeking collaborations with universities or research institutions.
7. **Market and Application Focus**: Determine the specific market or application areas where your CPU architecture can excel. Focusing on niche markets with specific performance requirements can make your design more attractive despite limitations in scale or manufacturing.
8. **Community and Collaboration**: Engage with the broader CPU design community, both locally in Brazil and globally. Collaborations or feedback from experts and peers can provide valuable insights and potential solutions to challenges you might be facing.
By focusing on these aspects, you can iteratively refine your CPU architecture to improve feasibility, performance, and ultimately, its practicality for real-world implementation.
@@MichaelsHardware thank you, i also dont know all the things i need to do the prototyping and etc, and also, i am 12, i think the fun about that is the things we learn.
should i make a post asking the public for help and provide your channel link or email
this is what the post would say
Hi someone is working on designing a CPU and if there is
someone that could Help him, that would be very nice
Here is what he or she said
I'm currently making a CPU architecture and i have it working
the strongest CPU i could make in specs got 16 teraflops of computing
it is risc and have mere 12 instructions on its assembly language
i cant reproduce it on real silicon wafer by now because
it is very complex and i cant afford it even on larger transistor size
like 500 nm or 1 micrometre, I'm from Brazil
what do you think i could improve or remove?
here is his UA-cam channel
ua-cam.com/channels/MhAPoyZcQk0kDzLS7zZs3Q.html
@@MichaelsHardware if you can, then i accept it. i will make a youtube video about it.
hp : 1
I like your handle @CMOSTheBattery it’s nice
Can we request songs?
yeah i guess so but only memes and or or old video game songs
Shooting stars
@@MichaelsHardware Going to request the title theme of Flash Gordon by Rob Hubbard