Once upon a time, a group of cosmic beings created an entire cluster of universes to run the entire internet on. The beings in those universes live, warring among themselves, and unaware that they are part of a simulation—or rather, not even a part, but an anomaly living within bits. According to some sources, this is precisely what the Sene-Hiris Universe Kilogroup is. Just think about it, all these galaxies and universes... but don't be afraid, since no one mentions it because of secrecy, I, the TOG with the nickname notysun, will open your eyes.
bits[]
bit = 750 km, a dark matter object represents a zero, and an ordinary matter object represents a one. In fact, the universe is teeming with dark matter, but it's simply inaccessible to beings of ordinary matter; they simply pass through it. All objects are a byproduct that shouldn't exist, or at least serve purpose. Unless living organisms evolve to the point where they can create or destroy data, in which case they'll be considered viruses, and reality itself will attempt to destroy them. More precisely, individual programs/websites, if they have protection. However, such viruses are difficult to remove, as they are essentially more fundamental than zeros and ones. At least, most representatives of advanced civilizations are less than 75 km tall, and therefore, conventional methods do not work against them. Usually, in such cases, "data cleaners," also known as black holes, are added to places where data changes have been noticed.
bytes[]
Byte = 6000 km in size. Planets are small files that are not part of the programs, but rather the simulation itself. Unlike the system 32 folder on regular computers, they are hidden throughout the simulation, making it impossible for the average user to find all the files, or even just one among a stream of others datas. In messengers, user messages are usually encrypted, which is why instead of planets flying out of stars, we see solar flares, which are then transformed into dark matter messages aka another user massages. By the way, this also plays a role in the fact that this method replaces the code that helps the user in the interface distinguish between their messages and the messages of their interlocutor
kilobytes[]
Kilobyte = 6 million km in size. These are essentially small files, utility programs in the form of stars that are not hypergiants. These could be individual interface programs, game mechanics, videos, articles—various important things that form connections between themselves in the form of subsequent clusters, nebulae, and galaxies. Our sun represents a user who enjoys playing various games and watching funny videos. He sends his data to other servers on the cosmic internet, trying to access various websites or doing something that triggers solar flares. It's something like a "Google account."
megabytes[]
megabyte = 6 bilion km. Hypergiants and red hypergiants are the largest auxiliary files in existence. They are often systemically important components of large programs or advanced security systems. Black holes are obsolete data that has become so corrupted that they contaminate other data, making it part of themselves. However, they are often used as useful tools, such as virus cleaners, when they are far from vital files. Supermassive black holes can be a problem, weighing over a megabyte, but never exceeding 750 MB, but even this size is extremely rare, and they are such a rare exception that they become internet property and are encoded into websites where users, at their own risk, explore junk data on mini-VMs while their mini-VM is consumed by this data. Mini-VMs, also known as extremely lightweight operating systems, are designed for very specific tasks, and this is one of them. A mini-VM should weigh no more than 1-5 MB. Some of the most visited black holes are S5 0014+81 and TON 618, although they are not the largest. TON 618 weighs 650 MB, and S5 0014+81 weighs 400 MB. There are also small clusters of stars that represent primitive games like chess with a bot or games similar to ours from the nineties.
gigabytes[]
gigabyte = 6 trillion kn or 0.6 light years. These could be full-length films, games, websites, operating systems. Most often they are nebulas, for example, Helix, which weighs about 4 GB and is a movie "The Sixth Xenoverse War". Headhorse Nebula is a game that weighs about 12 GB and is a kind of space CSGO where space guards exchange attacks between world-devourers. Here, it is not the weapons that change, but the characters, who have unique attacks. Eagle Nebula is a website that is a small collection of extensions and tools to make life easier.
Terabytes[]
terabyte = 600 light years. These could be large programs or applications. More precisely, according to the logic of the universal network, a program or website weighs as much as an archive, which is why giants like Spotify don't have apps, only sites, because to download Spotify, you'd have to install every song available on it. Yes, gentlemen, we're already approaching the level of archives, which are popular sites here. Archives are galaxies, and the conditional largest films and games, as an exception, can still be nebulae. The Tarantula Galaxy, 1862 light years across and weighing approximately 3 TB, is the largest game in history called "endless tetra world™". Sleeping Beauty Galaxy is the likesney+ archive, a local analogue of the Disney+ archive, 54,000 light years in size and 90 terabytes in weight. The Milky Way, 105,000 light years in size and weighing 176 terabytes, is the site Game Steam, which contains all existing games. Andromeda, 220,000 light-years sized and weighing 366 terabytes, is the entirety of Raktop (the cosmic equivalent of TikTok). All the quick videos featuring cosmic-divine trends are collected there.
petabytes[]
petabyte = 600000 light years. Just more, larger archives, I guess. CI 1101 is a hypergalaxy 6 million light years across and weighing 10 petabytes, making it one of the largest known video archives. Virgo, a galactic supercluster 110 million light years across and weighing 110 petabytes, is a cosmic Twitch that contains all the recordings of streams made by cosmic beings. The Laniakea galactic supercluster, 500 million light years across and weighing 833 petabytes, is the cosmic equivalent of the Common Crawl web.
exabytes[]
exabyte = 600 million light years. These are the largest archives of the most popular sites like Spotify, YouTube, and so on. Imagine the largest archives on the internet—they're likely measured in exabytes. These aren't just archives, but entire chunks of the internet, albeit small ones. The Hercules–Corona Borealis Great Wall, 10 billion light years across and weighing 16 exabytes, is the cosmic equivalent of YouTube, which is actually smaller than the regular YouTube weighing 100 exabytes, but the fact is that YouTube is not able to monopolize its niche in the cosmic internet and actively competes with other video hosting sites.
zettabytes[]
1 zettabyte=600 billion light years or one universe. These aren't archives anymore; they're full-fledged chunks of the cosmic internet, connected at most by search engines that are actually universes. Yes, the cosmic internet has a small problem: it's decentralized, so each universe, which is a search engine, has completely different content. These universes are called "mini-internets," and deservedly so. Different mini-internets are created for different types of devices, making it all seem even more decentralized. However, cosmic beings have long planned to create ports to other search engines and combine them into one larger one. This would create a very large universe. The entire cosmic internet weighs 458 zettabytes because, if you haven't forgotten, it's Sene-Hiris Universe likogroup Kilogroup .