Copyright (C) 2025 James Pacha. All Rights Reserved

Description

This is released under Non-Commercial. Non Derivative License and is licensed by James Pacha. Copyright (C) 2025 James Pacha. All Rights Reserved.

Videos at bottom showing this concept.

Ongoing:

This is a phtonic bit desgin. Each light pulse = 5 LED per Photonic Bit. These are Synced to Pulse at same time. 64 PhotoTransisters catch these signals and generate a unique 8-bit binary string. This Binary String is sent to the slave CPU (Teensy 4.1) for each path. At this point what all choose to do with is up to them. Not all need this many paths, Not all need as many total amounts I will be using. All paths can be mixed and switched in any maanner they wish. I chose this way to avoid making individual paths for all. Each the Teensy is a slave to the Anduino WiFi I am using and what each does is dependent on what I need it to do. The main point of these are to allow a single thing to represent multiple things at same time. How all use and make calculations from these are up to them. Please pay attention to wavelength and setup of sensors and lights. They must be matched so all are fully reactive. All can be made with different lights. I will be posting videos for this. As shown from light circuit i will be showing how lights can change color ad operate at different speeds. These are all controlable variables and allow for a deterministic approach to Multiple States at once.

Parts List: 

Kingbright APS3227SP1C-P22
https://www.digikey.com/en/products/detail/kingbright/APS3227SP1C-P22/8591560

Arduino® UNO R4 WiFi
https://store-usa.arduino.cc/products/uno-r4-wifi

QLSP05PCAD
https://www.digikey.com/en/products/detail/quelighting-corp/QLSP05PCAD/15848701

MLX75305KXD-AAA-000-RE
https://www.mouser.com/ProductDetail/Melexis/MLX75305KXD-AAA-000-RE?qs=%252BEew9%252B0nqrBfoNTqYVr37w%3D%3D

2N7000-G
https://www.digikey.com/en/products/detail/microchip-technology/2N7000-G/4902350

DEVMO 4pcs 8-Digit 7 Segment Module MAX7219 8 Bit Digital Segment Tube LED Display Module
https://www.amazon.com/DEVMO-8-Digit-Segment-MAX7219-Supports/dp/B0899XKY49

410-385
https://www.digikey.com/en/products/detail/digilent-inc/410-385/10287719

WWZMDiB 438 Pcs Electronics Breadboard Kit Beginner Starter Kit Compatible with Arduino,STM32,Raspberry Pi
https://www.amazon.com/WWZMDiB-Component-Beginner-Starter-Compatible/dp/B0B2HVCDJH

DC Power Supply Variable, Bench Power Supply with Encoder Adjustment Knob, Output Enable/Disable Button, Adjustable Power Supply with USB Quick-Charge, Short Circuit Alam (160V 2A Black)
https://www.amazon.com/Adjustment-Adjustable-Quick-Charge-160V-2A/dp/B0DC9RRQ8F

28370
https://www.digikey.com/en/products/detail/sparkfun-electronics/28370/26266438

Breakout Board Module with Pin Board for Teensy 4.1/3.5/3.6 Compatible with Arduino
https://www.amazon.com/Treedix-Breakout-Module-Compatible-Arduino/dp/B09NXYWYK7/ref=pd_lpo_d_sccl_1/136-0739842-7697013?pd_rd_w=TmhwY&content-id=amzn1.sym.4c8c52db-06f8-4e42-8e56-912796f2ea6c&pf_rd_p=4c8c52db-06f8-4e42-8e56-912796f2ea6c&pf_rd_r=P45NCDT9YBB87VDNYRDW&pd_rd_wg=yyUSm&pd_rd_r=65a7505b-5fa9-4f2b-8679-835cdbc68d9d&pd_rd_i=B09NXYWYK7&psc=1

Teensy 4.1 Development Board
https://www.amazon.com/PJRC-Teensy-4-1-with-Pins/dp/B08CTM3279/ref=asc_df_B08CTM3279?tag=bingshoppinga-20&linkCode=df0&hvadid=80401880071858&hvnetw=o&hvqmt=e&hvbmt=be&hvdev=c&hvlocint=&hvlocphy=94249&hvtargid=pla-4584001428065725&psc=1

Series information

First explanation video posted on youtube: 

Series information

I have added an interactive HTML file or you can use online https://www.justiceinilcourts.com/hym3-research/hym3-photonic-bits/   to use to simulate parts and the basic concepts to expand and how it would work with multiple wave lengths. HYM3_Designs.html The bit string is total possible combinations available. So the equation to decide  uniques possibilities is # of sensors multiplied by # of wavelengths. Each combination of sensors and wavelengths should be given unique binary strings to identify and use. So for a 64 sensor with 4 wavelengths is 256 different possibilities which is equal to a 16 bit string. Using one wavelength is equal to 64 possibilities and a 8 bit string. Square root of possibles is string length needed. I should also point out that the numbers are examples for point of concepts. For every color you add you double number of possible combinations. It should be 9 bit string with 2 colors, 3 colors would be a ten bit string and so on. When sensors can differentiate smaller frequency changes and light can be calibrated for these a single photonic bit multiplies exponentially. All bit combos should be hard coded prior to first slave chip. That slave chip performs the first calc and passes on.
THIS DEVICE is not any other hardware or software. All own and have your own rights. Software, Equipment, and hardware that work with this device is not this device. You all may decide what to do with anything you create to work with this. I personally believe personal knowledge and skills are yours. The only people who profit off something should be ones who create it. I personally also believe that if people want something they should have skills and knowledge to make it themselves. If someone can’t make this, they really have no need with it. Not everything can people go out and buy, and an AI can't build it for you. Any commercial AI can't be trained on this. I will remove the non commercial when we have global quantum security measures. At this point there are too many ethical concerns to give access to all. For this moment in time, we are not ready for these to be commercial. This said how all release your own work is up to you. Just post link to this device doi if it is too work with this. This covers all variations of this device and wavelengths and sizes. All who can build can use. These can not be bought or made for others for profit. Help friends for free sure. Not for profit. No Commercial AI may be trained on this or have use of this. This device will not be used in any commercial products. 

Now this is the most basic version posted. The one demonstrated and explained is for a single wavelength and a specific light. Now once people get comfortable with basics of programming and making these basic ones work together, you can change sensors and lights for multicolor where each wavength gets its own string. I started with 8 bit strings for basic understanding so all cna learn how these can run. Now with more advanced methods; sensors, lights, and other considerations, theses can contain longer binary strings associated to color or wavelength of light. So each 64 can be numerous versions. This is why in previous videos i stated we need new compilers new ways to mix and match and account for the unlimited different combinations.

Series information

For perspective: every sensor gets four paths off of it. Depending on color of light and sensor it will produce different outputs for each color. Depending on color the path it takes is based on output of sensor. Each of the 256 paths is assigned its own unique binary string. So each bit has the ability to be be all 256 combinations at once. Every red light pulse 64 unique bit strings are produced. Every blue light pulse a different 64 unique bit strings are produced. How they are mix and matched is up to all. Keep in mind this is a single bit. Combine 100, 1000, or a million. Every light pulse you are generating all possibilities every light pulse. Each bit can be unique colors for specific but strings. So if white sensor 1 on bit 1 is 0000000000000000001 and sensor 20 on bit 37 is 00101010000111101110 and you need to combine one and give you bit string you need. For simulations it can run every possible combination so it is not running only next but next and multiple after. Each bit can work independently, so bit 1 can be doing einstein field equations. Bit 2 can be doing magnetic field calculations, and bit 3 can be doing naviar stokes. All at same time. The security issue and ethical issue that needs to be addressed is this allows for brute force against things that were considered uncrackable. So before we break the old system we need to replace it. As such I will be removing commercial block from license when quantum security catches up. Using this for random combinations and longer strings and by adding a 2 factor so it gets linked with time and changes over time is one possible route. The concern with this is by time someone uses this to bruteforce a password the password has changed. This will make some sort of 2 factor authentication mandatory for everything that is currently 256 bit secured. It will also need to be jumped to 5k bit encrypted. Since this is clone-able, once commercial is involved a billion bit computer will happen relatively shortly. Our security will need to keep up with exponential growth. This must be a main focus moving forward.

Series information

Upcoming Releases - Frictionless Alternator, Photonics, AGI, Magnetics, Advanced Quantum Chips, etc

https://www.youtube.com/watch?v=8NQWyOMkk6A

I have many releases upcoming and explain delays and exact resons for all my releases. 

Series information

Version 4 I have updated Phyonic Base for use and to demonstrate Stable Room Temperature Quantum Computing and combining with photonics. All version are covered under this license. All are Not for Profit and Non-Commercial Licenses. I will be updating and demonstrating with videos, This design uses Electro Magnets, Laser, and Pyrolytic Graphite with Photonic Bit. This is a basic example and design. Updated Holes on Base.

Series information

In Version 5 I added the new Photonic Array and will explan and demonstrate this concept. I will show how reflecting a lazer off a pyrolytic Graphite that has a reflective layer added can be used to direct the laser off to the array, and the use of electro magnets controls spin and angles of the reflector which allows for immediate control of the photonic bit for individual computations. this give real time control of the data process and which sensors are being triggerred. Using electromagnet to control a flat 2d sheet we can direct light exactly where we need.

Series information

I have started explaining the process of how to use and how it works. 

 

https://www.youtube.com/watch?v=VZdd4FaCaZI