Quantum Computing (Part 1 of 4 + Addendum)
Is the mysterious world of superposition a gateway to the demonic realm?
DISCLAIMER: The following is my opinion, based on my research and the research of others. I am not an authority on such matters. But I am concerned. Take what you see with a grain of salt and seek the guidance from others more qualified that myself.
Notes from Scott
After doing a 4-part series on AI and why I don’t believe demons can inhabit an LLM, we turn our attention to recent developments in quantum computing. There is a reason why. Yes, we’ve heard some evil things come out of AI, but in my opinion, the fundamentals of the way AI neural networks operate negate the possibility. Now, quantum, on the other hand, is a lot more fascinating. Why? Because it has the same “physics defying features” as CERN (here). What I mean by that is it generates such enormous energy in the Large Hadron Collider that very strange things happen when particles collide. It’s the same with quantum computing. And so that’s what we’re going to explore here.
From the feedback I got from the AI series, I will likewise take this opportunity to lay down some basics of quantum computers because—just like AI—there is a new vocabulary to learn and strange sounding concepts to get your head around. It’s likely this will be a 4-part series, plus an addendum. The basics in parts 1, 2, 3, and 4, followed by the strange reports of what just happened at Google in the addendum. But, we can only delve into that after a certain amount of ground work has been laid.
Understanding Quantum Computing: The Basics
Introduction to Quantum Computing
Imagine using a powerful new kind of computer that doesn’t follow the rules you're used to seeing with laptops or smartphones. Instead of working the way normal computers do, quantum computers use something called quantum mechanics—a special set of rules that describe how really tiny particles, like electrons, behave. Unlike classical computers (the ones we use every day), quantum computers can handle certain types of problems much faster because they operate on completely different principles. Classical computers use bits, represented as either a 0 or a 1. Think of bits like tiny switches—either off or on.
Quantum computers, on the other hand, use quantum bits, or qubits. These qubits have some fascinating abilities—like being in two states at the same time, or staying connected even when they are very far apart!
NOTE: It’s the ability to represent an “in-between” state that is ground breaking. And as we’ll see, the concept of quantum entanglement has jaw dropping implications. You may have heard
talk about this a few weeks ago (here)! Here is a definition (here). You might already see why extreme physics (just like at CERN) plays a role. How can matter be between 0 and 1? How can a quantum state be the same over vast distances? This is the very strange nature of our universe that few see. The LORD created our Universe and pre-existed it because He is outside time/space. So, in essence, we are taking a rare glimpse into His creation. I can confirm we don’t have the brain capacity to fully understand how it works. And for the record, no scientist on Earth has the ability to understand it, either…despite how confident they may sound.So, why should we care about quantum computing at all? The answer lies in its incredible potential. Quantum computers could solve problems that traditional computers struggle with, or even find impossible. For instance, in medicine, quantum computing could help design entirely new medicines by analyzing billions of possibilities simultaneously. In finance, it could quickly sort through massive amounts of data to predict trends and make better investment decisions. And perhaps most importantly, in cryptography—the art of keeping information secret—it can either strengthen current security measures or break them entirely [Pay attention to this. Quantum computers can fly through huge prime number problems until they crack the encryption algorithms used. This is an extreme threat to us]. Quantum computing is fascinating, powerful, and potentially disruptive technology in the very near future.
NOTE: When paired with AI, quantum computing is a massive threat to ALL privacy. If you saw my updated presentation (here) describing the beast system from a systems (computer) point-of-view, you will have heard me talk about the interoperability of AI + quantum.
Qubits and Superposition: Quantum Computing’s Secret Ingredient
The key to quantum computing’s power lies in something called qubits. Remember, in a traditional computer, everything is represented by bits, which are like little light switches—they can be either “on” (1) or “off” (0). But a qubit is different—it’s more like a spinning coin that's tossed in the air. When the coin is spinning, it’s not just heads or tails; it's actually both at once until it lands and you look at it. This unique ability of a qubit to be in multiple states simultaneously is called superposition.
Let's unpack this coin analogy further to really grasp the idea of superposition clearly. Imagine flipping a coin and covering it up immediately after it lands, so you can’t see whether it’s heads or tails. In this hidden state, we can think of it as being both heads and tails at the same time—at least until we uncover it and take a look. Quantum bits work similarly. A qubit can represent a combination of 0 and 1 simultaneously, allowing quantum computers to explore many possibilities all at once.
This is why quantum computers can potentially be incredibly fast at certain types of calculations. Where classical computers would check every possible solution one by one (like opening many doors sequentially to see what’s behind them), quantum computers use qubits to explore many doors simultaneously, dramatically cutting down on the time it takes to find the correct answer. The magic of superposition unlocks immense computational power by essentially doing multiple calculations at the same time.
Entanglement: A Quantum Connection
Another mind-bending property quantum computers use is called entanglement. Entanglement occurs when two or more qubits become linked together in such a way that the state of one instantly influences the state of the other, no matter how far apart they are. It's as if these qubits have a mysterious invisible connection. [NOTE: This is almost beyond belief…but is the property that is the most alarming! If you have one state in one part of the universe at any given point in space/time, where do you think the “other side” is? Hmm, sounds a lot like a potential demonic portal to me. You will see me providing you much more information on this in the next few articles.]
So, to better understand quantum entanglement, imagine you have two toy cars connected by an invisible thread. No matter how far apart you pull them, as soon as you move one car forward or backward, the other car instantly moves too, mirroring the action—even though nothing visible connects them. This connection is instantaneous, meaning there's no lag, no matter the distance between the two cars.
In quantum computing, this connection between entangled qubits allows information to be processed and shared incredibly efficiently. This instant connectivity makes quantum computers uniquely suited for problems that require rapid synchronization and communication between different parts of the computation. It’s as if quantum computers have a secret telepathic power, connecting their qubits in a way classical computers simply can't replicate.
Summary
Quantum computing harnesses the strange laws of quantum mechanics to process information in a fundamentally different way from classical computing. Rather than simple bits (which can only be a 0 or a 1), quantum computers use qubits, which benefit from two powerful quantum principles: superposition and entanglement. Superposition allows a qubit to represent both 0 and 1 simultaneously, while entanglement allows multiple qubits to connect in a special way so that changing one instantly affects the others.
Quantum computing isn't just theoretical or limited to science fiction—it's a promising and quickly developing technology. Scientists and engineers around the globe are racing to unlock its full potential, and each discovery brings us closer to solving problems currently deemed impossible.
In my next post, we’ll dive deeper into how quantum computers actually carry out computations using special tools known as quantum gates, and we'll explore a few fascinating quantum algorithms.
I trust that handling these complex topics are beneficial. I myself do not fully understand all these terms or even the theory behind the physics. Just to tell you where I’m at with this, I have noticed a concerted and systemic push to continue inventing new lies to explain the Lord’s Universe, His Creation, and His authority over all of it. My journey had some surprising insights that helped me surface some of these lies by stumbling on videos from Creation Astronomy (here). As an amateur Astro Photographer myself (see my Facebook profile for pictures!) I have a much better perspective after watching this excellent series “What You Aren’t Being Told About Astronomy series”.
What I learned is that scientists will not acknowledge the Lord, so they make stuff up. It’s ridiculous. Lie after lie after lie, trying in ever more absurd ways to find reasons why there is no God. Incredibly sad; please pray for Scientists worldwide.
So, as members of the Watchman Community, we’re going to be very focused on the deceptive narrative around quantum computers. Such as linking computational power in labs in Mountain View where Google is headquartered to other quantum computers operating in an infinite multiverse. See the problem here? And later when we talk more about what happened at Google, you’ll see why I’m concerned as we explore this topic. Ultimately, I want you to UNDERSTAND what is happening here from a Biblical Worldview to the best of my ability!
#Maranatha
YBIC,
Scott
Scott, thank you so much for this great article! You explained things very well so that I was able to comprehend, appreciating the coin analogy. You are a great Watchman! I thank you for your insight and for your diligence in educating us as we await the Rapture. Come, Lord Jesus. God Bless you, Scott. 🙏🏻
It seems clear that the lawless one will need these capabilities—or rather the Enemy will need to use these capabilities. Thank you, Scott, for taking on the challenge.