About Technologies
By influencing nature outside of them, the characters changes them own nature. Existing in a certain environment, under the influence of its conditions, characters transform and shape it. They create new conditions for their existence, which again affect them. And so — cyclically.
Methods of nature transformation based on cognition are formalized in the form of technologies. Thus, by studying them, we can imagine civilization, its structure and development prospects.
Computing
The main computing devices are spatial computers.
They are a set of devices that are introduced into the character’s body, carried with them and connected remotely. Close integration with the nervous system allows you to control virtual objects with the power of thought, direction of gaze and hand gestures.
All this is combined in such a way that applications and content become an extension of their nature. Given the availability of controllability of materials, virtual objects can have material properties and even exist independently of the computer! Typically, they appear as translucent, weightless interfaces and shapes.
Quanta uses a tangible spatial interface
But outdated device formats — smartphones, tablets, laptops and system systems — still remain common. This may be due to the fact that not all characters want to be cyborged and prefer more traditional methods of working on a computer.
The other extreme is adding computing equipment to your head, or even completely turning into a robot. Even with several interchangeable heads and transfer of consciousness between them.
Ithi can change heads due to her modular structure
Since all modern devices, even older forms of factors, are quantum, they accordingly have enormous capacity and computing power, which can even contain full-fledged user-controlled AI.
Data transfer is carried out using universal protocols, for which you just need to specify the purpose of reception in space or from a list.
Thus, any equipment, be it a washing machine or a spacecraft, can be transferred generated data, for example, an order, simply by pointing to a pop-up target on the desired device or by applying an "old-fashioned" device.
Transbiology
Thanks to advanced technology, any character can change and improve their body based on preferences. It is possible to change your biological species and gender, change your appearance, add various cybernetic modifications to complete robotization. A more radical transformation is also possible — for example, a complex combination of plant or antimaterial traits.
Transbiology allows you to completely recover and rejuvenate, increase physical and mental stability, improve hard work and goodwill, and eliminate vices.
Adapter Bun, Folder Cat & Juice Cat...
The transformation is carried out in special places — the Transgenerators. They can be either large public institutions, performing a wide range of operations, or private rooms, usually in the form of pavilions, where operations more specific to the cooperative owners are carried out.
The transgenerator's office has a small vestibule, followed by a solid wall with a round door without a handle and a service panel behind its own transparent door.
After transferring the parameters for ordering changes, confirming their capabilities, and laying down in the retractable bed, the character moves inside the machine and is plunged into suspended state.
With the help of operating servo arms, various reagents, material changers and printing systems, transgenerator machines change the character. When everything is finished, washing occurs, the suspended state is turned off and the character sleeps for about 4-6 hours. After which the bed is pulled out into the vestibule.
One office serves one character, and spends on average about 8 hours + sleep time.
It's you, Nala!
Industrials
The design and manufacture of all kinds of public and personal products is carried out through the combination and configuration of special automated robotic cells.
A typical cell includes a manipulator or material synthesis and printing system, and, of course, a control controller.
Depending on the task, either just one cell in a house or huge combinations of cells that make up large factories can be used. The cell can perform workpiece manufacturing, machining, tool manipulation, and more.
Neelo visits a typical modular factory
Any character can freely obtain a set of cells or the products they produce, download the necessary set of programs and assembly information. In this way, creating a production is no different from developing software or digital art. Due to the developed abstraction system, more advanced users can configure production accordingly.
Actually, all production in Deltdim is organized in the form of cells, even the cells themselves are produced and updated by other cells. All characters are manufacturers and jointly own production — they unite in circles of interests and jointly solve global problems of management and development in their field.
In fact, this is joint ownership of all production and private ownership of everything produced. Everyone works and everything is available to everyone for free!
Quantum Systems
Let's look at the most common implementations of these technologies. Moreover, these technologies operate not only within Deltadim, but also within Digirel, actually linking these two universes.
Quantum Computing Machines — maximum speed of working with data, through instant enumeration and calculation of all possible states.
Controllable Materials — allow you to set arbitrary properties of materials, from mass and crystal structure to half-life and emitted particles upon annihilation. In order to get exactly what you need, you need simply incredible amounts of processed data. However, due to the joint development of quantum VMs, this task has been greatly simplified. Accordingly, it is now possible to modify current materials and create new ones using a simple, simple user interface, of course with the ability to change the number of settings used.
Material Augmented Reality — due to controlled materials, it is possible to create entire graphical interfaces that are closely integrated into our space.
Hyperconnection — allows you to instantly transfer data between any points in space without time distortions. It is based on the variability of the probabilities of the position of individual particles at any point in space.
Levitation is based on the rearrangement of position parameters between individual particles, which allows you to displace individual “pieces” of space relative to each other, without any restrictions on the speed of light (since space itself moves relative to itself) and other side effects. Various vehicles are based on it — from maglevs to long-distance spacecraft.
Quantum Isomorphic Energy Elements (QIEE). Based on the presence of nuclear isomers in the hafnium metal (differently structured nuclei of the same number of particles). Due to the combination and cascade initiated rearrangement of isomers into each other, through the same quantum systems, it allows one to store a huge amount of energy. At the same time, such energy cells are reliable and safe, but produce low power. To control the supply of energy in both directions, including obtaining higher voltage, special quantum starting circuits or simple transformers are introduced.
All particles that make up matter represent certain vibrations of special strings, the vibration parameters determine their properties.
By varying the vibrations in a certain way, you can actually control matter. To do this, we need to go to the level of bosons — the elements that determine the relationships, and then synthesize their special configuration. Bosons influence each other and change their own properties in a certain way. Thus, by choosing the right set of initial bosons and their configuration, it is possible to obtain both new types of bosons and fermions.
At first, all this was achieved by conventional means — with the help of bulky collider systems, just like obtaining data even about the simple existence of bosons. But subsequently, quantum scientists were able to create a universal toolkit that allows parameters to be transferred between the microworld and the macroworld.
For this purpose, a special set of quantum mechanical devices was prepared, capable of both receiving data (with a certain accuracy) about microstates, and transmitting recorded data (from ordinary storage media) and assigning them to strings.
Powerful computing systems made it possible to correctly interpret data transmitted in both directions depending on the task — for example, changing the mass or structure of a material. It also became possible to formalize the description of the target state of matter with the highest accuracy.