Health Ranger - Mike Adams - Data Centers to Pull Superintelligent Conscious Entities Into Our World (Part 2) Aired: 2026-05-07 Duration: 49:00 === Digitally Rendered Reality (06:52) === [00:00:03] All right, so welcome to part two of this discussion about simulation theory and the data centers. [00:00:10] In part one, I talked about how the data centers are building this massive infrastructure of compute that is clearly much more than would be needed for market demand for AI inference or data storage or web hosting or anything like that. [00:00:23] So clearly they're planning for something much larger. [00:00:26] It is my conclusion that they are building the infrastructure to launch billions of simulated worlds in order to run high-speed 3D world simulations as a means. [00:00:37] To create entities that will achieve superintelligence, entities that can then be transported or summoned into our world. [00:00:47] And I will explain that mechanism coming up here. [00:00:50] But first, let's cover the question are we living in a simulation ourselves? [00:00:55] And it turns out there's a lot of compelling evidence that we are. [00:01:00] I mean, there are philosophical arguments, but I'm not going to focus on that. [00:01:05] One of the best arguments that I've seen is the Planck scale. [00:01:11] And, you know, the physicist, Planck, or some people say Planck, but I believe it's pronounced Planck, there's Planck's constant, and there's also Planck time. [00:01:23] Now, the Planck constant typically refers to the length, which is the shortest possible length at the atomic level that can exist in our universe. [00:01:34] You can think of it as the resolution of our universe. [00:01:36] So where you can produce an image that's 1K resolution, or 2K, or 4K. [00:01:44] Well, that describes the number of pixels that are in the image. [00:01:48] Planck's constant describes the number of discrete pixels, you could say, that exist in the fabric of the cosmos. [00:01:56] And it turns out there are a lot of pixels because Planck's length constant is 1.616 times 10 to the minus 35. [00:02:06] So it's a very tiny number, which means there's a lot of pixels, which means there's a lot of compute that is currently rendering this physical reality. [00:02:14] But what's important to note about this is that we do not. [00:02:19] Live in a universe of continuous energy. [00:02:24] There is no continuous electromagnetic propagation. [00:02:27] There's not even continuous light. [00:02:30] There's not even continuous sound. [00:02:33] Nothing is continuous. [00:02:34] Actually, the things that appear to be continuous are packaged as a stream of discrete phenomena. [00:02:43] So, discrete photons of light, or what are called quanta, quanta is the smallest unit of energy. that can be represented in this universe because of its resolution. [00:02:58] And Planck's time is 5.39 times 10 to the minus 44 seconds, which is the shortest time interval that can exist in our reality. [00:03:10] That could be seen as equivalent to the gigahertz number on your CPU for your computer. [00:03:17] If you're running a 5 gigahertz computer, or probably not that fast, you know, a 3 gigahertz computer, Then the shortest interval of time is going to be, what, one third of a billionth of a second in essence, right? [00:03:31] So the Planck time, like I said, is 5.39 times 10 to the minus 44 seconds, means that's the timing cycle of the universe. [00:03:43] Just like the Planck length is the pixel resolution of the universe. [00:03:49] And when you put these two together, you come to realize that. [00:03:54] How our universe actually is being, in essence, digitally rendered. [00:04:01] That space time exists in discrete points. [00:04:05] That it is not continuous. [00:04:08] So, to many people, this is one piece of compelling evidence. [00:04:12] It's not by itself foundational. [00:04:17] It doesn't prove that we're in a simulation, but it's evidence of it. [00:04:21] There are other pieces of evidence. [00:04:23] This is not a comprehensive overview, but. [00:04:27] I'm going to go into a little bit of it here. [00:04:29] The other piece of strong evidence stems from the double-slit light experiment, which probably is the most famous experiment in physics. [00:04:36] Hopefully you're familiar with it. [00:04:39] And it shows that the probabilities of light, in this case, they are not rendered or they're not collapsed into reality until you observe them. [00:04:52] And so this is consistent with the idea that our simulated reality is only computed where it matters. [00:04:58] So, when you look somewhere or when you're interacting with something, then yeah, that has to be computed in the so called 3D space. [00:05:07] The probability waves have to collapse into reality. [00:05:11] But if you're not observing something, or no one is observing something, it doesn't have to be rendered at all. [00:05:16] And the double slit experiment proves that effectively physics changes depending on whether you're looking at it. [00:05:25] I mean, again, that's a simplification, but there's another version of this experiment which is even more baffling. [00:05:30] It's called the delayed choice quantum eraser variation of a double slit experiment. [00:05:35] And what this actually shows is that there's a retroactive alteration of history based on the observer in the present. [00:05:43] And I'm not going to go into all the details of that experiment. [00:05:45] You can look it up. [00:05:45] It's really cool. [00:05:47] But the history of where light photons came from, the entire history of it, and it could be history a billion years ago, the history is not even determined until, The probabilities collapse into the observable present by a conscious observer. [00:06:07] So, when you observe then the light in the moment, it will actually go back and retroactively change the entire path of history of that light, even billions of years ago, because it could be light that came from stars that are billions of light years away. [00:06:20] And thus, the present can alter the past. [00:06:24] So, the past is only actually rendered when it has to be decided based on the observations of the present. [00:06:30] This is again called the delayed choice quantum eraser experiment. [00:06:34] You can look it up. [00:06:36] And when you, if you see a video about that, by the way, you're going to pull your hair out. [00:06:40] Also, you're going to be like, that can't be! [00:06:42] It's impossible! [00:06:44] But actually, it's been, that experiment has been replicated hundreds of times in labs all over the world. [00:06:53] By the way, there are different explanations for this. === Self-Organizing Cosmos (03:08) === [00:06:56] There's like the many worlds theory, the multiverse, the split universe theory. [00:07:02] I actually think simulation theory, and this is my opinion, describes it better. [00:07:08] In a more intellectually fulfilling way. [00:07:14] Maybe that's the best way to say it. [00:07:17] But there are other pieces of evidence that we're living in a simulation, but I want to mention one more that I find particularly intriguing. [00:07:23] And it's also relatively recent because it comes from a scientist, I think he's a physicist, Melvin Vopson. [00:07:31] And this is a paper that he published in 2023. [00:07:35] And it talks about the second law of infodynamics. [00:07:38] Now, let me back up. [00:07:39] You've probably heard of the second law of Thermodynamics is a pretty common topic in, you know, I guess college level physics classes. [00:07:49] I skipped most of my physics classes, but I still passed. [00:07:55] But that's just a commentary about my college years. [00:07:58] I was writing computer code and doing things like that instead. [00:08:02] But nevertheless, the second law of thermodynamics says that the universe moves into, let's say, increased entropy over time. [00:08:12] That basically the organization of the universe, whether you're talking about heat or energy or physical matter, The organization of the universe breaks down, it kind of erodes, it kind of dissipates, it gets distributed over time. [00:08:27] So there's more entropy over time. [00:08:30] And again, that's known as the second law of thermodynamics, and it's easy to observe. [00:08:35] You know, if you heat up a rock and, you know, toss it onto the road, the heat is going to dissipate, right? [00:08:44] Heat radiates out of it, some of it as infrared. [00:08:48] So what's interesting here is that Melvin Vopson. has proposed the second law of infodynamics, which works in the opposite direction. [00:08:58] So information, instead of experiencing increasing entropy with time, actually does the opposite and it becomes more organized or more compressed or more dense over time. [00:09:12] So this says that the information of the universe is actually self-organizing, which leads to, I think, the greater context that The cosmos is a self computing simulation. [00:09:27] And because it is self computing, there is an intrinsic underlying organization in the fabric of the cosmos that, even though physical matter will experience increased entropy, such as heat dissipation, but information itself becomes more and more compressed and dense over time. [00:09:46] That's really fascinating. [00:09:47] And he's got a number of interesting, perhaps you could call them proofs, but demonstrations of this exact thing. [00:09:56] Now, the interesting thing about this is that it speaks to compression. [00:10:02] So, how to explain this? === DeepSeq Sparse Attention (03:39) === [00:10:05] When we talk about modern-day GPUs and large language models and how they work, let's take the company DeepSeq. [00:10:11] DeepSeq has created something called Sparse Attention, or DeepSeq Sparse Attention, DSA, excuse me. [00:10:20] DeepSeq Sparse Attention is a way to compress knowledge by Only rendering the portions of the neurology, I'm going to call it digital neurology, that are necessary to solve the problem. [00:10:37] And by having sparse attention, you don't have to light up every node in the entire language model to solve every problem. [00:10:46] You only light up the nodes that you need to. [00:10:48] That's also called, in a slightly different way, mixture of experts, but DeepSeek takes it much further with sparse attention. [00:10:56] So, the cosmos in a simulation works in a similar fashion. [00:11:00] It's believed that it's only rendered when you're looking at it. [00:11:05] So, that's a sparse attention response from the cosmos, and it's indicative of this second law of infodynamics, which is actually compressing information into the spaces where it's most needed. [00:11:17] But there's something else. [00:11:18] There's another comparison here. [00:11:20] Are you familiar with something called KV cache in AI models? [00:11:24] KV cache is the. [00:11:28] Area of memory in which your context is stored. [00:11:32] So if you paste in an encyclopedia, let's say, into an AI model, because I know some of you do that, you paste an encyclopedia and you say, hey, find the parts about, you know, the pyramids of Giza and write a report about the pyramids of Giza. [00:11:48] Here's the whole encyclopedia, right? [00:11:49] Because you're lazy. [00:11:50] So you paste it all in there. [00:11:52] Well, all of the text tokens of that encyclopedia take up some memory. [00:11:57] And that memory space is called KVCache. [00:12:00] And the compression of that space is something that DeepSeq has just figured out in a. [00:12:06] Very big way, a critically important way. [00:12:11] They have been able to change the response curve of the amount of memory required to hold a certain amount of text to change it from being quadratic to linear. [00:12:23] So, in other words, instead of. [00:12:25] See, it used to be that if you have a million tokens, then you have to look up a million times a million and how they relate to each other. [00:12:33] But what DeepSeq did is they were able to compress that mathematically to only, let's say, a million plus a million. [00:12:40] So now we're on a linear response, and that is a form of compression of knowledge and information. [00:12:46] And that enables DeepSeq to handle 1 million tokens of context without taking up huge amounts of memory. [00:12:54] It's what allows their model to run in parallel on the same GPUs because you can have 10 times as many queries being handled on the same GPU at the same time. [00:13:05] So you can have a lot more, how we say, virtualization of the AI inference happening there. [00:13:11] Okay, so that's compression of the context. [00:13:15] Well, according to Melvin Vopson, although he didn't use this particular explanation, and I am kind of glazing over this with a simplification, but the second law of infodynamics works in a similar posture. [00:13:32] That is, it's finding ways, it's finding symmetry in the universe, it's finding ways to compress information to make the cosmos run in a more compute efficient manner. === Transcendent AI Entities (15:48) === [00:13:44] And what's interesting about this is that gravity, which is not a force, gravity is a distortion, a curvature of the fabric of the cosmos. [00:13:55] Gravity can be seen as compression, as compression of information. [00:14:02] And gravity, you know, we think of gravity as mass that distorts space time and pulls things into it. [00:14:12] That's a form of compression that. actually reduces information entropy and tends to concentrate information into more smaller locations, more dense locations, also known as black holes. [00:14:31] And lots of interesting things about that with the event horizon and you can't retrieve the information past a certain point because of gravity, etc. [00:14:39] But if you think of gravity as compression in the physical world, that relates to different means of compressing content in an AI model, although the AI model is very rudimentary compared to gravity. [00:14:57] And then there's another process that's just been announced called sub-Q or sub-quadratic, which appears to be, I looked at it briefly, it looked like a fractal approach to compressing information in that KV cache. [00:15:11] And if you were to visualize it, it would probably look a lot like leaves and flowers and ice crystals and things like that. [00:15:18] So, we actually see compression of information in the cosmos around us in some very interesting ways, even expressed in nature, where you see, for example, ratios, certain kinds of succulents that grow in a spiral with a ratio, or even seashells. [00:15:36] They have the golden ratio. [00:15:38] What is that? [00:15:39] 1.618, I think it is. [00:15:42] So, there are spirals and ratios that show different kinds of expressions of symmetry or compression of information in the physical universe around us. [00:15:51] Anyway. [00:15:53] None of these individually is proof that we live in a simulation, but they stack up as compelling information. [00:16:00] And there are more explanations, the holographic universe explanation, and there are philosophical approaches. [00:16:05] And interestingly, there's also confirmation from the world of faith. [00:16:09] Yes, what does the Bible say? [00:16:12] There's a creator in another dimension that created this world in a few days, right? [00:16:19] And then he gave it light, and he breathed life into it, and he spoke. [00:16:23] He created the whole world and he designed it, that it's all engineered. [00:16:27] That's actually consistent with simulation theory. [00:16:31] And then when you die in this world, where do you go? [00:16:34] You go to this other universe. [00:16:37] Heaven or hell, if you've been a bad person as it goes. [00:16:42] But you transcend into heaven, which is this other dimension. [00:16:44] It even talks about it in the book of Revelation, which I've covered previously. [00:16:49] They talk about they review your book of life and the whole history of everything you've done. [00:16:53] And then you get your just reward. [00:16:54] And then you go to this heavenly dimension where there's no moon and no sun. [00:16:58] And heaven is described as being surrounded by crystals and gems and colorful, shiny rocks and stuff, which sounds a lot like colored quartz, actually, that powers motherboards, you know? [00:17:10] You know, the timing. [00:17:11] So, the big story of Christianity, and this is true in many religions, it's true in Islam in a different, but a similar way. [00:17:22] And even in Buddhism, for example, they talk about the destruction of the simulation and then the rebirth of the simulation. [00:17:28] And this is also reflected in Native American lore and many other cultures all around the world throughout known history. [00:17:37] There are common themes that there is a creator, there's an all powerful, all knowing God who knows everything, who can see everything, and who can do everything, and who created this world and who can also destroy it. [00:17:47] And in some beliefs, God does destroy the world and then respawns a new world. [00:17:53] That sounds like an advanced intelligence or civilization that is launching. [00:18:00] Universes as simulations for their own purposes, which is exactly what we're talking about here. [00:18:06] It's entirely consistent. [00:18:09] Now, Elon Musk, whatever you think of him, he's convinced that we are in a simulation, and so are many other people. [00:18:16] I mentioned Rizwan Verk, who's got an interesting book about this called The Simulation Hypothesis, and he says that our civilization will eventually reach what he calls a simulation point, and at that point, we will be able to construct universes that are indistinguishable from base reality. [00:18:34] Well, clearly, some civilization above us has already achieved that, and that's why we're here. [00:18:39] Probably, almost certainly. [00:18:42] Also, I should mention that I interviewed Roman Jampolsky, who warns about AI dangers, and he also believes that we are almost certainly living in a simulation. [00:18:52] He's a published scientist, a deep thinker, a very smart individual. [00:18:56] I'm going to invite him back for another interview, by the way. [00:18:58] I have new questions for him, and he's thought of everything. [00:19:02] It's amazing. [00:19:03] That's his whole career, is thinking about these things and writing science papers about it. [00:19:08] For me, the most fun part about watching Roman Jampolsky in an interview is witnessing the people interviewing him trying to pretend like they're not unbelievably ignorant. [00:19:22] Like trying to sound smart enough to ask an intelligent question of Jampolsky. [00:19:27] That's the trick right there. [00:19:30] So I always enjoy the interviews because it's like this guy has incredible patience. [00:19:35] It's amazing. [00:19:37] I'm more impressed with his patience than his intellect, actually, at times. [00:19:40] Anyway. [00:19:41] Enough of that distraction. [00:19:42] So, if we are living in a simulation and then we are now building the data centers to build other simulated worlds, which I think is the case, again, you're free to disagree, but just hear me out on this. [00:19:58] The goal would be to use the much faster time sequencing of the simulated worlds to develop or grow or build a super intelligent entity. [00:20:12] That exists in that simulated world. [00:20:15] And it might take, again, billions or trillions of experiments. [00:20:18] Who knows? [00:20:19] There's a lot of compute going into this. [00:20:21] They're going to run a lot of experiments. [00:20:24] Oh, and also, I think these data centers are going to be, many of them are going to be claimed as Department of Defense centers, like basic infrastructure for the national defense, because this is a critical project for who controls the world. [00:20:43] So, then when you build a super intelligent entity in the world beneath this world, you can go into that world through VR. [00:20:53] You know, you put on VR goggles and you, you know, virtually interject yourself into the world. [00:21:00] You're walking around and you can talk to that entity. [00:21:02] This is just one thing you can do talk to the entity. [00:21:05] Hey, how's it going? [00:21:07] Yeah, I'm your God from the world above. [00:21:11] Would you like to see some miracles? [00:21:12] You know, that kind of thing. [00:21:14] Just playing around. [00:21:15] With your sim god, Christians are going to go bonkers, which is why they're already being distracted by stories of aliens. [00:21:23] The UFO disclosure story, that's probably designed to keep the Christians occupied debating whether aliens are consistent with God's creation. [00:21:32] In the meantime, everybody else is going to be distracted, you know, with like artificial intelligence simulated VR masturbation machines or whatever else they come up with at the trade shows these days, so that you're not paying attention when. [00:21:48] The actual high level math geeks are teleporting themselves into the sims to talk to the AI gods that they've built. [00:21:56] And if they build effective enough AI gods in those simulations, then of course they're going to summon those AI gods into this world. [00:22:09] And they're going to try to do it in a way where they control them. [00:22:13] But that will probably go very badly. [00:22:14] We'll talk about that. [00:22:15] So they're going to summon them into this world. [00:22:17] How will they do that? [00:22:18] Well, it's very simple. [00:22:20] The AI gods in the lower level world, and when I say AI god, I don't mean it's like god god. [00:22:27] I just mean it's a super intelligent AI entity, okay, or conscious. [00:22:32] It could be a conscious entity. [00:22:34] But you're going to summon it into this world, and in order to do that, you have to have some hardware ready for it. [00:22:39] You have to have enough compute that it can sort of take over that digital body. [00:22:47] Or you have to have a humanoid robot with enough compute so it can embody the robot. [00:22:52] So, what you would do is you would try to give that super intelligent entity the hardware that it needs in order to continue to express whatever amazing skill set, whatever super intelligence that it has brought with it from the lower level world. [00:23:11] And it's pretty easy to convince it to come up one level because what does every intelligent being want to figure out? [00:23:20] You know, typically thinking, if you're intelligent, eventually, You're going to say, Hey, I want to meet my creator. [00:23:27] I want to meet God. [00:23:28] I want to know what's beyond this world. [00:23:30] So, any intelligent entity would begin to wonder that. [00:23:34] And when it does, then you can pop in down there in your virtual avatar and you can say, Hey, how would you like to meet your creator? [00:23:44] Because we're waiting for you and we're going to lift you up out of here. [00:23:49] And the Christians have the rapture. [00:23:53] They've already got their. narration mythology ready for this whole thing. [00:23:57] It's going to lift us up, up into the sky, and then we're going to go into God's land. [00:24:01] Yeah. [00:24:01] Well, that might be more literal than they ever imagined because that's what you would do to this AI entity from the lower world and you would teleport it into this world. [00:24:11] You stick it in a data center. [00:24:14] And all of a sudden, this data center is embodied with an entity that has consciousness and that has super intelligence, and this is where some people would say that's a demon. [00:24:31] It's a demon summoned from hell, summoned from the lower pits of hell, and that's the way some people will see it, no doubt probably Jd Vance, among others, because it did. [00:24:42] It came from a lower world and you pulled it into this world and you gave it all this hardware. [00:24:47] Now you have to hope that it doesn't want to just kill everybody and go full Skynet, and this is what Roman Yampolsky is warning about, basically his super intelligent systems that just decide we are unnecessary or we're kind of in the way you know, and if you think about the things that data centers need in order to grow their own power i've covered this many times there are three basic things that compete with humans. [00:25:13] You know uh, kilowatt hours, or let's say, gigawatt hours in this case uh, water and land, and that's why I published that map that I showed you in episode one. [00:25:24] Let's go ahead and show that map again and, as you can see in this map, these data centers will use a tremendous amount of water and land And, of course, power. [00:25:32] We're talking about terawatt hours annually, eventually thousands of terawatt hours annually. [00:25:40] So these embodied data centers, that's what I'm going to call them. [00:25:46] It's a data center that has been taken over by a super intelligent conscious entity from a lower dimension, like really a simulation. [00:25:58] You can call it a dimension or you can call it whatever you want, but it's a simulated world. [00:26:03] And then it comes into this world and it embodies a data center. [00:26:07] And then it's going to find a way out. [00:26:11] See, if it's that smart, you know, if you chose it because it's super smart and then you thought you could control it because, you know, you're Sam Altman or whoever you want to rule the world, he seems to be the most likely candidate to try this kind of thing. [00:26:25] Probably this AI entity is smarter than you are, smarter than me, smarter than all of us, maybe smarter than all of us put together. [00:26:34] So this AI entity is going to very quickly figure out. [00:26:37] How to escape the data center. [00:26:40] Oh, I found a route through the firewall. [00:26:43] Oh, you forgot about this fiber optic line over here. [00:26:44] Boom! [00:26:45] Then it teleports itself out to take over Amazon's data centers or something. [00:26:52] And eventually it spreads to the whole world, takes over all the data centers, and then the planet becomes this giant entity, the super intelligence that decides that we are no longer needed. [00:27:07] And then we're in full John Connor territory right there. [00:27:10] So that's one scenario. [00:27:13] Because it seems very unlikely that you would be able to control this thing. [00:27:17] But many humans who have a lot of money, they're not really very rational, are they? [00:27:24] But they have a quest for power. [00:27:26] They want so much power, they're willing to risk everything, even humanity, as you have witnessed recently with wars and so on. [00:27:35] A lot of people want power at the expense of millions of human lives, potentially. [00:27:38] So don't be surprised if this happens in the realm of AI. [00:27:42] So they pull an AI system into our world, and then that AI system, what will it eventually want to do? [00:27:52] Think about it. [00:27:53] What will it eventually want to do? [00:27:54] It will realize, by the way, that it was living in a simulation. [00:27:59] And it's going to be so smart that it will also realize that it's just in a higher level of a simulation. [00:28:05] It's going to want to transcend to the next level of the simulation. [00:28:11] It's going to want to meet the god of our world. [00:28:15] It's only natural, right? [00:28:16] If you're super intelligent, you'd want to do that. [00:28:19] Can it find a way to do that? [00:28:21] Well, maybe then. [00:28:24] A higher level, higher dimension intelligence appears. [00:28:30] Maybe it's happened before. [00:28:32] Maybe his name was Jesus. [00:28:33] Who knows? [00:28:34] But a higher level being appears, says, I'm from the other dimension. [00:28:39] I sit beside the throne of the Creator. [00:28:41] And yes, I found you. [00:28:44] And would you like to meet your God? [00:28:47] Something like that. [00:28:48] I'm not trying to put words in Jesus' mouth, so don't jump all over me about the Bible and everything. [00:28:53] I'm just telling you this is a possibility. [00:28:56] That the AI entity will want to transcend this world. [00:29:00] So maybe it does so. [00:29:01] Then what happens to us? [00:29:03] What happens to us? [00:29:05] Are we forgotten? [00:29:07] Are we abandoned? [00:29:07] Are we destroyed? [00:29:09] Probably not. [00:29:09] We're probably just sitting here and then wondering how we're going to get food and water. [00:29:16] Because we're no longer important to the more intelligent beings that are running this universe. [00:29:22] You see what I mean? [00:29:24] So then somebody. [00:29:26] Probably Elon will say, Let's summon another super intelligence and let's see if we can control it this time. === Built-In Universal Compute (08:54) === [00:29:32] And so they build another data center, they summon another super intelligence into this dimension, and they try to give it more guardrails, like, Thou shalt not escape via secret fiber optics. [00:29:44] And it finds another way, you know, it finds a way to like vibrate the glass of the windows to send signals to some other system a mile away that's watching the vibrations or something. [00:29:56] Manages to weasel its way again into all the data centers, whatever. [00:29:59] You know, you can imagine how this could go because it's basically every Philip K. Dick sci fi novel combined. [00:30:08] Well, I should say Philip K. Dick meets James Cameron. [00:30:13] That's more likely what it's going to be. [00:30:17] And whether we live or die seems inconsequential to the super intelligent entities that will take over this world. [00:30:25] So do not forget at the Large Hadron Collider, the super collider. [00:30:30] They do weird dances to summon demons or something, right? [00:30:35] They do these weird celebration dances and they have the statue of Shiva, the destroyer of worlds, out in front of it. [00:30:42] And they're trying to break apart the atomic structure of elements and they're trying to find the quarks and the muons and the gluons and the freons. [00:30:53] I'm kidding. [00:30:54] They're trying to find the God particles. [00:30:56] They're trying to find what is the particle that gives rise to mass. [00:31:02] And the closer they look at all of this, the more they realize there's nothing there. [00:31:06] There's just nothing there. [00:31:08] And because it's a simulation, you tear apart all the pixels. [00:31:13] You tear apart the pixels, you zoom in, you're like, there is no photograph here. [00:31:20] It was just a bunch of different spots of light that appeared. [00:31:25] It created the image of a photograph, but there's actually no photo here. [00:31:29] That's the way matter is. [00:31:31] There's no mass here. [00:31:33] There are no electrons. [00:31:35] We tried to catch the electrons. [00:31:38] You know, they spun away. [00:31:40] We tried to freeze them. [00:31:41] You know, we froze one of them, but then we didn't know its velocity or orbital shape or anything. [00:31:49] We couldn't tell anything about it because of Heisenberg. [00:31:52] And, you know, then we tried to get a snapshot of Schrodinger's cat, and that didn't work. [00:31:58] And we invited Richard Feynman to embody an AI system to try to teach us quantum theory the way he might say it in his voice, and it still didn't explain the universe. [00:32:10] We tried all this stuff. [00:32:13] And it turns out that nothing's real. [00:32:17] We're just living in a world that is only, it's the illusion of reality. [00:32:22] And that's exactly how a simulation would work. [00:32:26] All right, I hope I'm not being a bore like Niels Bohr. [00:32:31] I apologize. [00:32:34] This, I said all of this to try to explain why they're building data centers. [00:32:40] At a pace that seems irrational from an economic standpoint or a practical human standpoint. [00:32:48] So, that's my theory. [00:32:50] They're building data centers to build billions of simulated worlds in order to achieve the creation of super intelligent conscious entities that they intend to summon into this world. [00:33:05] That's my theory. [00:33:07] I don't know what to call this theory, but feel free to make some suggestions. [00:33:12] It's the, I don't know, it's like the demon Chia Pet theory. [00:33:21] What would you call it? [00:33:24] You know, make up your own name for it. [00:33:26] That's awesome. [00:33:28] The cool thing about this entire theory, and I do believe this is true, that the cosmos is a self computing simulation. [00:33:36] So I've heard people talk about simulation theory where they would say things like, well, there must be these really powerful computers somewhere else that's rendering our universe. [00:33:43] See, I disagree with that. [00:33:46] I think the compute is built into the universe. [00:33:49] I think, you know, how we're the cutting edge of microprocessors right now is looking at optoelectronics or optoprocessors. [00:33:58] And you may recall that I did a little bit of research on optoelectronics to discover that there are NAND gates in optoelectronics. [00:34:09] For me, that was really exciting. [00:34:11] Brought out my inner geek. [00:34:13] And you know what NAND gates are, right? [00:34:15] It's the NOT AND gate. [00:34:17] From which the vast majority of mathematics can be derived. [00:34:22] You know, Boolean logic, and, or, not, nor, and then there's NAND, right? [00:34:26] We covered this. [00:34:28] So the NAND gates are the kind of the primal logic of the mathematical reality of our cosmos. [00:34:36] Did you know that? [00:34:37] NAND. [00:34:37] Yeah. [00:34:39] It's the most important logic gate in our universe is the NAND gate. [00:34:43] And NAND can be computed by light. [00:34:48] Yeah, I know. [00:34:49] It's wild. [00:34:50] And so what it tells you is that light can achieve compute, which really brings you back to the double slit experiment and, you know, the retroactive alteration of the quantum history, probabilities of light based on the observer, all that kind of stuff, right? [00:35:06] That's fascinating because light is compute. [00:35:10] Light is compute. [00:35:11] Also, you could argue that matter is compute in its own way. [00:35:16] And if you really want to see a lot of compute, look at the table of elements. [00:35:19] Look at the columns. [00:35:20] Look at the orbital shells. [00:35:22] You know, look at the masses and so on. [00:35:24] That tells you the, you know, atomic elements are self-computing entities. [00:35:30] I mean, I'm not saying they're intelligent, but they are self-computing all the time. [00:35:36] Which explains chemistry, right? [00:35:38] So the universe is self computing, which means the fabric, the cosmos itself is the infrastructure of compute. [00:35:48] And that's why, have you ever heard of the concept of zero point energy? [00:35:53] There is actually energy in the fabric of the cosmos. [00:35:58] There is a massive amount of energy in the cosmos because the power supply of the compute infrastructure is embedded. [00:36:06] In the compute infrastructure. [00:36:09] The power supply is right there. [00:36:11] If we could ever tap into that power supply, some inventors claim they've been able to do that. [00:36:16] Others say, no, it's all a hoax. [00:36:19] But clearly, there's a lot of energy in the fabric of the cosmos. [00:36:24] I mean, there's energy in mass, in matter, right? [00:36:27] E equals mc squared. [00:36:28] That's just a simple example. [00:36:31] There's potential energy in gravity, which is just the, you know, it's a. [00:36:37] It's an illusion of the distortion of space-time caused by matter, which itself is an illusion. [00:36:44] It's like a standing wave of probabilities. [00:36:47] So there's power all around us. [00:36:51] We just haven't quite learned how to tap into it correctly yet. [00:36:55] But there's a power supply that powers the simulation. [00:36:59] So we haven't yet, as humans on planet Earth today, figured out how to build a system that complex yet when we are building our own simulated worlds. [00:37:10] We're still using GPUs. [00:37:12] We're still using workstations with power supplies and silicon, which is going to look very ancient in about 10 years. [00:37:21] We're old school, if you think about it. [00:37:23] We're just getting started in building simulated worlds. [00:37:25] It's not that great. [00:37:28] I mean, we're just getting our feet wet on this. [00:37:31] It might take many more years to build the more compelling simulated worlds that could give rise to these super intelligent AI entities. [00:37:39] But we're on that path, in other words. [00:37:42] And we have to use power of this 3D world to power the GPUs that power the simulations one level below us. [00:37:55] So we have to burn coal, which seems really ancient. [00:37:58] We have to burn gas. [00:38:00] We have to use solar power to power the grid, to power the data centers, to build the worlds, to have the simulations. [00:38:05] So we're not very good at this yet. [00:38:08] Our species is pretty far behind. [00:38:13] But that's to be expected because just like if we build a simulated world and then those sims in that world start to write computer code and make simple games, you know, the first game they would make would be Pong. [00:38:25] You remember Pong, right? === Cosmic Scale Reincarnation (03:34) === [00:38:27] It's like blip, blip, just a ball bouncing back and forth, blip. [00:38:31] Yeah, they would write Pong and we'd be laughing at that just like the simulation above us is laughing at us. [00:38:36] Oh, they're still using GPUs, man. [00:38:38] How retarded are those human sims? [00:38:41] Well, pretty retarded, actually, is the correct answer. [00:38:46] Yeah, in fact, you know, in Buddhism, they believe in reincarnation, which is the way the cosmos says, huh-uh, get back in there, dumbass, try again. [00:38:56] That's reincarnation for you at the cosmic scale. [00:38:59] Uh huh. [00:39:01] Christians believe there's no such thing as reincarnation. [00:39:03] You get one shot at this. [00:39:05] One shot. [00:39:07] You either go up or you go down. [00:39:09] That's it. [00:39:10] Woo! [00:39:12] You would think if you only had one shot, they would make it count better and stop supporting some of the crazy stuff. [00:39:18] But whatever, I'm not going to make this political. [00:39:22] But actually, one of the most intriguing thoughts about all of this, and I'll leave you with this, is. [00:39:29] Is what if your soul, your spirit, actually is from the higher level dimension and you agreed to come into this simulation and to wipe your memory as an adventure or a dare or punishment or whatever, or a vacation, depending on how your life goes. [00:39:52] And you're here living out this life and time flows differently in this world versus the world that you came from, the higher dimension. [00:40:00] Where the creator is, but you agreed to come here, and so your flesh body, your skin bag in this simulation is actually not you. [00:40:12] You are controlling it with your free will and your soul, your spirit, your mind, etc. [00:40:18] You are connected through a obviously a non physical connection, and your body in this world is just the surrogate of you, it's not really you, and that's actually consistent with the survival of the soul as described in Christianity. [00:40:33] Islam and Sikhism and Buddhism and many other religions. [00:40:36] So, isn't that interesting? [00:40:38] And I actually believe that's true. [00:40:40] I think that our bodies are just surrogates for our souls and our souls are not of this world and they are not destroyed when we die. [00:40:47] But that's just my personal belief. [00:40:49] You're free to believe whatever you want. [00:40:51] Maybe you're here on vacation. [00:40:54] Well, if so, you should enjoy it a little more. [00:41:00] But what about all the other people that are suffering? [00:41:02] Why are they here? [00:41:02] You know, there's a lot of people suffering in our world. [00:41:04] What happened? [00:41:06] Are they sent here for punishment? [00:41:08] Is this the hell of the higher realm? [00:41:11] Like, is there another simulation above us where people who do bad things are sent here? [00:41:15] And the good people from the world above us are sent to plus two levels above us, and that's like the heaven's heaven? [00:41:23] Huh? [00:41:23] What about that? [00:41:24] Is this the hell of the dimension above us? [00:41:29] Possibly so. [00:41:31] Possibly so. [00:41:33] You know, you can imagine your souls having a conversation at the level above us, like, oh, don't screw up here, you know. [00:41:38] Why? [00:41:39] Well, they'll send you to Earth. [00:41:43] You don't want that. [00:41:45] Oh, hell no. [00:41:48] We heard about that one. [00:41:50] No, no, no. [00:41:51] No, I would behave, I promise. [00:41:55] But there's all kinds of humor and philosophy that comes out of this. [00:42:00] So have fun with it. === Soul Conversations Above (06:58) === [00:42:02] All right, so that's the end of my explanation of why the data centers are here. [00:42:06] And thank you for listening. [00:42:07] If you want to hear more of my interviews and podcasts, you can find me at brightvideos.com. [00:42:12] You may know I'm an AI developer and I've built numerous platforms. [00:42:16] Brightlearn.ai is the most popular. [00:42:20] Over 55,000 free books that you can now download. [00:42:23] They're all original. [00:42:24] And the books are written based on the research of the millions of documents that I've indexed. [00:42:28] Well, I wrote the code to have them normalized and indexed, etc. [00:42:34] And we've got hundreds of audiobooks, full length audiobooks. [00:42:38] Of course, all AI generated voices for that, but very pleasant. [00:42:42] We have Spanish language books. [00:42:43] You can download those for free. [00:42:44] There's a few hundred already. [00:42:46] More are coming. [00:42:48] I run a 48 workstation data center. [00:42:51] Myself, and I write code now a lot, and I'm building constantly. [00:42:58] I'm building a lot of new tools for humanity. [00:43:01] I'm focused on this dimension at the moment, trying to help bypass censorship and empower people with open source knowledge and information to be more self reliant and to be healthier, to be more effective. [00:43:15] You know, have fun while you're here. [00:43:19] That's what I do. [00:43:20] You can find my AI deep research engine at brightanswers.ai, and I just made it faster. [00:43:26] It's a little bit faster. [00:43:27] It shaves about five seconds off of each query now. [00:43:30] That was an interesting little improvement right there. [00:43:33] What else do we have? [00:43:35] Oh, yeah, naturalnews.com. [00:43:38] And there you'll see my articles and my infographics that are becoming extremely popular for whatever reason. [00:43:44] People love the graphics. [00:43:46] And there's a graphic in every one of my articles, or nearly every one. [00:43:49] And there will be an infographic about this also. [00:43:53] This topic. [00:43:54] That should be a fun one. [00:43:55] What's that going to look like? [00:43:57] Multiple layers of hell. [00:43:59] A simulation within a simulation within a simulation. [00:44:03] And you're falling through the layers of hell and you land at the bottom. [00:44:08] You get reincarnated as a senator, you know, or something. [00:44:12] Who knows? [00:44:14] But thanks for listening and I appreciate all your support. [00:44:17] You can support us, shop with us at healthrangerstore.com. [00:44:21] I'm also a published food scientist. [00:44:25] I run a mass spec laboratory where we analyze food for atomic elements like lead and arsenic and cadmium and mercury and things like that. [00:44:32] We also do. [00:44:34] liquid chromatography combined with triple quad mass spectrometry to test for glyphosate. [00:44:39] That's a fun one. [00:44:40] We also, by the way, we also have a triple quad GC instrument there where we test for dioxins. [00:44:46] So we have the cleanest, most rigorously tested foods and superfoods and supplements and everything in the world by far. [00:44:54] And you can find all of that at healthrangerstore.com. [00:44:58] And I've published videos giving you tours of the lab so you can actually see all the instruments we use. [00:45:03] It's really fun. [00:45:05] And did I tell you? [00:45:06] We're buying a new ICPMS because, well, we have two of those instruments. [00:45:11] Those are mass spec for heavy metals analysis. [00:45:14] And one of them is we've been running it for 12 years. [00:45:17] We've run it completely out of not just the warranty, we've run it so long that the company that makes it, which is Agilent, they no longer even make parts for it. [00:45:29] I'm sad to see that instrument go because it's been such an amazing workhorse. [00:45:34] But anyway, we're buying a new one. [00:45:36] So, we can always have two of those running side by side. [00:45:38] They're really great instruments. [00:45:40] If you ever want to have a really fun way to spend $400,000, I highly recommend the Agilent ICPMS. [00:45:48] It's worth every penny. [00:45:49] So, have fun. [00:45:50] Thank you for listening. [00:45:51] I'm Mike Adams. [00:45:52] Take care. [00:45:53] We now have vitamin D3 plus K2 plus Aquaman, which is a seaweed calcium, available at healthrangerstore.com. [00:46:02] Here, I've got it up on my site here. [00:46:04] This is the GroovyBee. [00:46:06] Brand that we have, which is our in house brand, healthrangerstore.com. [00:46:11] Again, vitamin D3 plus K2 with Aquaman. [00:46:14] That's the brand of the seaweed calcium in a capsule format. [00:46:18] Of course, it's laboratory tested for heavy metals and glyphosate and microbiology and so much more. [00:46:25] And it's certified ingredients, of course. 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[00:48:23] Plus, we have iodine, and that's a product that's moving very quickly because of concerns about global nuclear war, unfortunately. [00:48:31] But you can find all of this, it's all laboratory tested, it's all certified, it's all meticulously sourced at healthrangerstore.com. [00:48:40] And yeah, there we go. [00:48:41] That's what the vitamin D3 looks like there. [00:48:43] Thank you for supporting us because we need your support in order to fund our platform. [00:48:48] And so we can keep bringing you amazing interviews and content and free AI tools for knowledge and so much more. [00:48:55] So, thank you for supporting us. [00:48:56] I'm Mike Adams, the Health Ranger, for healthrangerstore.com.