Extra.
Here are some of our extrasβ¦
True Crimeβ¦
Iβve written about the mental health services in more detail somewhere else.
In short, Iβve lost 13 years of my life due to the sadism of these mental health workers and the police.
Do not send your loved ones to the mental health services.
I have lost my life to these evil criminals, donβt loose yours.
'Perpetuality' - A step in engineering...
'Perpetuality' - A step in engineering...
Green energy?
An Electromagnetic Motor.
Our design.
So far...
TYRELL CHRISTIAN NILES
(10/10/23)
Our design started off simple. It was supposed to be a competition entry for www.arrow.com. A U.S components manufacturing company and the largest of the western countriesβ. We won the competition however did not receive the agreed funding as of yet. None the less; our innovation continued.
The design of our quantum computer is a parallel circuit hosting two electro-magnets, a solenoid and antennae, all comprising together to create a self sustained quantum computer. It has not been tested at our sites yet but we know that itβs capable of creating green energy and could be a key invention in the exploration of matter.
ββTuesdayβ
ββOctober 10th 2023β
ββIssue #01β
ββA Quantum Computer.β
ββOur thoughts on what could be a new quantum computer.β
ββTyrell Christian Niles.β
ββA Quantum Computerβ
-------------- βAS SEEN @ CULMINATION MAGAZINE [CULMINATING COGNITION/EXTRAS]β
ββA quantum computer is a type of computer that uses quantum bits, or qubits, to perform calculations. Unlike classical computers that use binary digits, quantum computers use the concept of superposition and entanglement to perform computations. This allows them to perform certain tasks faster than classical computers, such as factoring large numbers and searching through vast amounts of data. However, quantum computers are still in the early stages of development and are not yet widely available for practical applications.β
A quantum computer microscope is a new type of microscope that uses the principles of quantum mechanics to achieve unprecedented levels of precision and sensitivity. This type of microscope uses quantum bits, or qubits, to perform measurements that are impossible with classical computers. By harnessing the power of quantum entanglement, these microscopes can detect extremely small changes in the environment with high accuracy. These devices have the potential to revolutionize fields such as biology, chemistry, and materials science by allowing researchers to observe and manipulate individual atoms and molecules with unprecedented precision.
Visit the link below to buy shares into Culmination Magazine Ltdsβ technology subsidiary products and fund our idea. Receive a electro-magnetic motor in the year 2025 for Β£500 of funding:
https://www.indiegogo.com/projects/electro-magnetic-motor-shares?fbclid=IwAR1FrummE9q_tTpoqzGaBahlBigAt9FRa7w3ICpCtn4SVDoUMJoWDjwbZhc#/
[Quantum Computing.] Issue #2
Our design, understanding and efforts towards quantum computing.
[Tyrell Christian Niles.]
[16/10/2023]
[Culmination Magazine Ltd.]
www.culminationmagazine.com/extras
What is Quantum Computing.
What we know...
Quantum computing is a term used to describe computers that can imply superpositions of qubits in a two state system of yes or no. This is known in binary as an 1 or an 0. Quantum computers can perform tasks that enable the understanding of the scientific world. The two-state system, also known as the quantum computing system, is a revolutionary way of computing that uses the principles of quantum mechanics to process data. This system has the potential to revolutionize computing by allowing for faster, more efficient, and more secure data processing. The two-state system works by utilizing the principle of quantum entanglement, which allows for two particles, such as quantum particles, to become inextricably linked. This is accomplished by the system allowing for the two particles to be in two different states simultaneously, allowing for the two particles to interact without the need for physical contact. This enables the two particles to store data and interact with each other twihout having to be physically linked, thus reducing the amount of energy needed to complete a task. This also allows for faster, more complex calculations to be completed, as well as more secure data processing. The two-state system also allows for a greater level of accuracy and reliability due to its ability to process data in an extremely precise manner. This has a number of potential applications, from cryptography to medical applications. The two-state system is still a relatively new technology, and its potential uses are still being explored. However, it is already showing great promise, and could potentially revolutionize computing as we know it.
Quantum bits (qubits) encode information in systems that are the building blocks of computer chips, for instance.
Our Design.
We have two parallel circuits that host electromagnets on either side. In the middle is a solenoid with an antennae inserted, all on one PCB. The whole machine features USB, Self sustaining energy transfers, Ethernet and more.
We believe that we can send signals, create close circuit and open wave length communications whilst generating a perpetual force of electricity. By using two Raspberry PIs or our more powerful in house designs, you can use the system to imitate and create superposition.
Soβ¦ Iβm pretty certain that though nothing is ever invented in design and science, my efforts were tarnished by thieves. Stolen, rushed, and to the point- here is the unveiling of my design in someonesβ research labβ¦ I hope they are happyβ¦
October, 29th 2023.β
ββ# Issue 03β
ββSome thought on quantum computing and associated designs. β
ββTHE DIGITAL NEWSPAPERβ
ββSo far...β
Our thought on ideas for quantum computing.
-------------- βTYRELL CHRISTIAN NILESβ
Through abrasion in common scientific applications- we as scientists or explorers of the quantum realm- can easily detail a spin from a collection of electrons or binary output. This much is still considered by many as quantum computing however is the very most basic level of affectual science.
Electrons are comprised of many βorbitalsβ that are surrounding an innate force to the physical phenomena of an electron. In the British school system, we are taught that atoms are the smallest building blocks of existence though from more advanced research (but nothing too amazing) we know that electrons, photons and sub-atomic particles are really where the fabric of existence lies.
These orbitals are arranged in logical shapes that could be the result of discrete structures. By this I mean that the way in which the forces move around the centre of the electrons mass, means for esoteric however somewhat discrete mathematics. By logical- we can presume that the movement of forces around the centre mass of an electron is bound to rules such as minimal collision, collision to affectual outcome and dissemination of forces to unfilled space.
With quantum computing or more so quantum mechanics- different chemicals can be used as a lattice to control the abrasion of electrons and at a guess, this will affect orbitals.
Quantum micro-chips.
Quantum microchips, sometimes referred to as quantum processors or quantum integrated circuits, are a type of hardware designed to harness the principles of quantum mechanics to perform computational tasks. Unlike classical microchips, which use bits to represent information as 0s and 1s, quantum microchips use quantum bits or qubits, which can exist in multiple states simultaneously due to superposition. This property allows quantum computers to potentially solve certain problems much faster than classical computers.
Here are some key points about quantum microchips:
Qubits: Quantum microchips use qubits as the basic unit of information. Qubits can represent 0, 1, or any combination of both states (superposition). This property enables quantum computers to explore multiple possibilities in parallel, making them potentially powerful for specific types of calculations.
Quantum Gates: Quantum microchips employ quantum gates to manipulate qubits. These gates perform operations on qubits and can entangle them, which is another important quantum property. Entanglement allows qubits to be correlated in such a way that the state of one qubit depends on the state of another, even if they are physically separated.
Quantum Algorithms: Quantum microchips can execute quantum algorithms that take advantage of superposition and entanglement to solve certain problems more efficiently than classical computers. Examples of such algorithms include Shor's algorithm for factoring large numbers and Grover's algorithm for searching unsorted databases.
Error Correction: Quantum computers are sensitive to noise and decoherence, which can cause errors in quantum computations. Quantum error correction codes and techniques are being developed to address these issues and make quantum microchips more reliable.
Quantum Processors: Companies and research institutions have developed various quantum processors. These processors can be superconducting qubit-based, trapped ion-based, or rely on other quantum technologies. Some notable examples include IBM's Quantum Experience, Google's Quantum AI lab, and Rigetti's quantum computers.
Applications: Quantum microchips have the potential to revolutionize fields like cryptography, materials science, optimization, and drug discovery. They may be used for simulating quantum systems, solving complex mathematical problems, and enhancing machine learning tasks.
New Idea: Tech-Bomber.
ββQuantum computer deisgns. β
ββA criticism.β
-------------- βTYRELL CHRISTIAN NILESβ
ββ
β
β
βMaybe we are not smart enough...
β
β
βBut neither are the known methods of micro-chip development...
β
βTo create a quantum micro-chip, weβd pobably have to employ a microscopic level of chemistry and fuse it to mechanics to get the desired affect of super position or any quantum state other than abrasion.
β
βFurthermore, controlling the factors that could change the outcome of experimentation/utilisation, would be pretty much impossible on that microscopic scale. Perhaps these scientists have encapsulated chemical compounds on the plane of sillicon micro-chips but the chances of that are very improbable. To build this sort of technology you would need a quantum micro-scope and a βneedleβ, again made of quantum machinary to manipulate the basic shapes and furthermore, chemical structures. Photonic lasers could be the answer, by programming a βsextonβ laser and imprinting the chip with such technologies but as we have said, for the stated reasons, this method is flawed and almost impossible. Finally; the as stated the phenumenon of heat, short circuitry and more factors are almost inpossible to control.
β
ββ
So far the genral showcase of scientific talent revolves around quantum micro-chips. As we all know... micro-chips are sillicon based planes that contain a (usually) copper backing. These are known as integrated circuits. They are made by powerful photonic laser imprints and chemical processing.
The claim by most quantum mechanists is that they're experimenting on βquantum micro-chips" though, here at Culmination Magazine Ltd, we aim to test and challenge these claims. Thatβs not to say that we belive or are out right denying these claims validty, however; from our understanding... the quantum mechanics nedded for a more advanced affect- needs more then an integrated circuit.
Lets think, if the integrated cirucit (micro chip) entails some sort of flow of electrons or binary, then a change in material; but- and I could be getting a little finicky here- the design would be in fact a micro circuit and not a micro-chip. The specific claims of these scientists that experiment on βquantum micro-chips" are unknown and this is where our suspicion began...
I did some magick⦠Was promoted by god and then received a concept. The Tech-Bomber. A new technological vehicle concept.
On the basis of some issues we have with the liberty of the chief content creator for the magazine, with a lack of funding and respect from the armed forces, we here at Culmination Magazine Ltd, are not prepared to reveal the concept for this particular project. Itβs not wholly finalised and will need some experimentation for the ratios of the power supply, however; the boss thinks he has designed something new and something that would resemble the space ship that the Jetsons use to go to work.
By applying some physical principles and some new ideas, expect not to see a U.F.O flying through your air-zones in the next 10 years!
Coming soon; A PCB drawing but for now⦠some thought on design for the layout and software.
Graphics card project.
So here we have it⦠the second most challenging project; thought out.
There are some interesting things coming your way from Culminating Cognition. Here above and in the box to the left is some pre-requisite information about how to design a graphics card. What Iβm trying to do is create an effective graphics card design plan that will aid me for when I come to the drawing of the design. Itβs important to remember that though current designs are popular, one may possibly find a more simple way of achieving the same quality product.
Something Iβm not certain about is the use of wiring in this design. Solder could possibly compile and disorganise the binary and flow of sequencing. There is a way around this flaw however, maybe the characteristics of this could feature a benefit of authentic and undemanding work effort for artificial intelligence and along side some other software inscriptions- there should certainly be an amazing output!
CULMINATION MAGAZINE Ltd.
>>>CULMNATING COGNITION.
import tkinter from tkinter import * import os import sys
b = sys
def update_binary_display(): binaryvalue = format(int(decimal_entry.get('a')), 'b') binary_label.config(b=binaryvalue)
return ('a')
a = os
return ('a')
def send_value_to_window(value): route = tk.TK() label = tk.label(route, text=value) label ("update_binary_display")
route.mainloop()
open and print(tk.TK)
window = tk.TK() tk.TK = mainloop() window.title("Binary Program") window.geometry("300,300,300") tk.TK.mainloop()
Code for the machine script.
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Join our group and benefit from returns. Join us from just Β£9.99 per monthβ¦
Coding/ Programming; Games Graphics.
To begin with, I recall some efforts of my nursery teacher enthusing the class to generating points on a screen that repeated with a regular space between them and after, teaching us to connect these points on a screen. From what I can remember it looked almost 3Dβ¦
Here I will try to throw up some ideas for the journey of coding and programming games graphics for one commercial product named: βT-Ware.β βA console like no otherβ¦β
So basically; When connecting any output to a screen- the process that occurs to show an image of any type is a resistance of electricity and electro-magnetic display of spectrum created in various ways on different materials. For the glass screen that an old school T.V would be made of; higher amounts of electricity are needed and Iβm guessing that these screens either are layered in electro-conductive materials to harness the effect of spectrum or are treated lightly with polarised fluids that harden, making them lesser an LED screen but belonging to the same family of technology. This spectrum none the less, contains an impression of code that I refer to as binary. In the weightier form of an old school T.V, the current would (as said) be much heavierβ¦
In the modern day without the competition of classist agenda, the lack of materials and obviously with a lot of know-how, Iβd prefer to use superior technologies making for more pristine graphics but with this being said, the mathematical functionality of an old school T.V screen would perhaps be better though this βmathematicsβ can all be done in the background on the PCB or computer of the technology. Distilling the correct binary for a particular colour takes a keen attention to the binary but this method of isolating patterns is repeated throughout technological development of computer systems if it be software or graphics and so from now, Iβd suggest to myself that Iβd better be working on my binary counter!
TBCβ¦
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COD: Modern Warfare, Warzone Screenshot.
Gamer-tag: Light Cognition.
To begin with we suggest that itβs better to start with a recon mission by landing directly on the symbol thatβs indicating a flag. The more fo these your team start and complete, the quicker you can fortify in the final safe zone.
By quickly getting a helicopter, one can transport their team to various recon locations - quickly and effectively. The helicopter can be flown almost until being out of range from most assault rifles and RPGs however the tracking system explosive projectiles such as the stinger will hit you! Your team mates can shoot from the side of the helicopter. Once achieving approximately 4-6 recon secure points; itβs a good idea to buy a load out drop and having a thermal sniper class, perks and weapons via buying a load out in the shop. Now youβve located the final closing permater, regroup or casually defend the L-Z.
- Tyrell Christian Niles. (London)
After handing on the Essex name, I won a few battle royales on MW2.
[D4RK COGNITION]