In case you are saying EVE cannot handle 6 clients on its own : i am saying the same.
EVE is more caring about the low end of graphics cards. That is focus.
You need a foto of red eyes to understand what red eyes are ?
No i donāt need pictures for the red eyes. I was just wondering. The internet was a bit inconclusive from: you need to lubricate your eyes more and blink more on long session to low FPS can cause it when objects move fast. So whatever, it is unfortunate that you experience this.
Also i canāt give you any more advice for your FPS problem. I also have three screens but each screen is driven by single computer so this canāt be compared. Maybe others with an RTX 4080 Super and multibox setup on one machine can give you some advice what to expect from this card FPS wise and if three monitor on said card is not overload.
Not easy. I see.
Just because you research a little bit on something, doesnāt mean you actually find something. 20 years is NOTHING in research. Atoms from original small unbreakable spheres to consist of small parts took about 2000 years for the entire worlds combined researchers.
Feel free to research time from first LED to first Blue LED, and that is AFTER knowing the fundamental of the technology, just need a tiny change in wave length.
When they talk about research time, and just āsolving a problemā its nonsense.
The first need to prove there is a qubit involved. No one has yet.
And all you people trolling this for them, how the F***? can you take them serious when they just say āWe solved a problem that takes a normal computer 5 million years.ā.
WHAT PROBLEM?
WHAT IS THE SOLUTION?
And for making it believable that it MIGHT have been run on a Qubit, How did they read the qubit output? (notice here HUGE difference on āmaking it believableā and āprovingā).
And of course, the code.
You give me time indexes for this information, I might bother looking at the link at all.
You seem to make the assumption that because a quantum computer can rapidly solve one very specific kind of puzzle that this is applicable for EVE as well.
Itās like asking if a dishwasher is good to do your laundry because it can do dishes much faster than doing the dishes by hand.
Itās a different kind of computer and is not going to let EVE run better.
And again, if your FPS is bad it wonāt help your FPS if the server gets an upgrade. Your client (your machine) needs an upgrade, not the server.
This is is an article of an science institute solving real world problems with this quantum computer 
EVE is not a quantum problem though, and this computer wonāt likely be able to run it, let alone faster than a regular computer.
@Gerard_Amatin True. The quantum computer might be bored with EVE.
But @Laubrani is doubting at all that a quantum computer already exists on earth.
And this thing is working and now just needs apps.
Apps? Research you mean.
I compare it to the first personal computer produced and sold.
There were no existing apps IBM had for it.
Then Bill Gates was so friendly to create an app for IBM.
But he kept the rights of windows.
I am sorry to say this, but your knowledge is so limited that it doesnāt even make sense to start a discussing any points in any way. In both the topics of quantum computing and what you uttered about āappsā and PCs.
Also you didnāt understand or maybe did not read at all what has been tried to explain to you in the thread above. Especially the part where each quantum computer can be seen as a module controlled by a classic computer. A quantum computer will not run an operating system, not do anything by itself and therefore will not have āappsā as you called it.
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Canāt respond to troll by quotes on these forums, so some text.
@Power_ArmorI just learned a quantum computer needs no apps.
@Laubrani You are unable to read links and want me to quote my links ?
Since you seem not not know the difference between an operating system, an app, an algorithm or an API, please try to start at Wikipedia or somewhere else to get into basic concepts and donāt ālearnā from forum posts or in a forum of an online game where people - me included - are maybe also trying to play you.
Try to acquire some basic media competence please.
Yes, social contact is difficult. Especially being as dumb as me.
I asked admins to delete this thread.
Do you know the Dunning Kruger effect ?
@Power_Armor but to your most recent post : when a quantum computer never ever gets apps it will probably also never ever get an operating system.
Am i right ?
Especially when a quantum computer has sooner or later the size of a personal computer ?
Sighā¦a quantum computer is like a chip doing a CUDA or OpenGL computation an deliver you the result. It is not running an operating system nor apps nor driving you monitor. You need a seperate computer for that.
What the future research will develop of course nobody knows. I describe the current state and would think this is a given at least until both you and me donāt exist anymore.
Here take additional description from any AI you could also have asked a dozen times in the meantime:
A quantum computerās structure involves multiple layers, including a classical computer for control and interface, a quantum processor with qubits, and the supporting hardware for maintaining quantum states. These components work together to execute quantum algorithms by manipulating qubits through quantum gates, ultimately enabling complex calculations beyond the reach of classical computers.
Hereās a breakdown of the key structural components:
- H A quantum computerās structure involves multiple layers, including a classical computer for control and interface, a quantum processor with qubits, and the supporting hardware for maintaining quantum states. These components work together to execute quantum algorithms by manipulating qubits through quantum gates, ultimately enabling complex calculations beyond the reach of classical computers.
Hereās a breakdown of the key structural components:
- Host Processor Layer (Classical Computer):
A quantum computerās structure involves multiple layers, including a classical computer for control and interface, a quantum processor with qubits, and the supporting hardware for maintaining quantum states. These components work together to execute quantum algorithms by manipulating qubits through quantum gates, ultimately enabling complex calculations beyond the reach of classical computers.
Hereās a breakdown of the key structural components:
- Host Processor Layer (Classical Computer):
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This layer acts as the user interface, receiving instructions and sending them to the quantum processor.
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It handles tasks like algorithm compilation, error correction, and data input/output.
- Control and Measurement Layer:
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This layer bridges the classical and quantum parts, controlling the quantum processor and measuring qubit states.
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It includes classical electronics for managing the qubits and reading their values.
- Quantum Processor Unit (QPU):
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The core of the quantum computer, containing the physical qubits and the structures to maintain their quantum states.
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QPUs implement quantum algorithms by applying quantum gates to qubits.
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Different technologies are used to implement qubits, including superconducting circuits, trapped ions, and photons.
- Quantum Layers:
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These layers are responsible for creating and maintaining the quantum states of the qubits, which is crucial for quantum computation.
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They include the physical qubits themselves and the systems to control their quantum properties.
- Supporting Hardware:
- Cryogenic System:
Many quantum computers, especially those using superconducting qubits, require extremely low temperatures to maintain qubit coherence, necessitating sophisticated cooling systems.
- Quantum Error Correction:
Quantum information is fragile, so quantum computers need robust error correction mechanisms to mitigate the effects of decoherence and other errors.
- Quantum Interconnects:
These are specialized connections for transferring quantum information between different parts of the system.
In essence, a quantum computer is a complex system with a classical component for control and interface, a quantum processor for performing computations, and supporting hardware to maintain the fragile quantum states of qubits.
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This layer acts as the user interface, receiving instructions and sending them to the quantum processor.
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It handles tasks like algorithm compilation, error correction, and data input/output.