Chapter 112: 112:Quantum Computer[III]

Evan meticulously assembled the quantum computer, and with each step, he was getting closer to the culmination of his intricate project.

He began by carefully installing the 4000-qubit quantum chip onto the motherboard, ensuring that it was secured properly. Next, he positioned the qRAM, a slightly larger chip, on the left side of the motherboard. Despite having fewer qubits, the qRAM was crucial for quick data access, with a unique two-dimensional grid arrangement.

On the right side, Evan installed the Quantum Hard Drive, the largest component of all, equipped with 3500 qubits.

The drive's three-dimensional lattice structure allowed it to store an immense 500 petabytes of data, making it an essential component of the setup.

Each component had a specific role: the quantum chip for processing, the qRAM for rapid access, and the Quantum Hard Drive for extensive storage.

With the physical assembly complete, Evan shifted focus to the software. He had previously acquired a specialized programming language from the tech store, essential for writing the software that was required to operate his quantum computer.

In addition, he developed an operating system called Quantum OS, designed specifically to manage and optimize the quantum components efficiently.

It had taken him a full seven days of non-stop typing to create the OS while Aurora debugged and compiled it before testing the OS, which operated in full vigor.

Now, Aurora was running the most advanced quantum computer that humankind had ever built, as per details given during the creation of the HyperSpace room.

The computer was a replica of the IBM Quantum System Two that enabled Aurora to function with unparalleled capabilities.

After completing the process, Evan was ready to take the next major step: using a Virtual 3D Molecular Fabricator to craft the entire quantum machine.

Initially, he considered replicating just the chip, but since he had already built the entire thing, it was best to replicate it as a whole to avoid any potential issues.

"System, how do I use this?" he asked.

[Just pull out and crush the card.]

"I see, but how does that work? Is it magic.]

[Nothing short of that. That card in itself is a high-level atomic printer...]

"Whaaaa!?"

Evan almost gasped in shock upon hearing this.

'Fuck...Isn't this too advanced?'

Evan screamed in his mind as he held onto the silvery shiny card, which didn't look any different than paper coated with aluminum foil.

The mere idea that such a small thing was actually an advanced atomic printer was too hard for him to digest.

After taking deep breaths to calm himself, Evan crushed the card.

The installation process was remarkably swift. Aurora promptly reported, [The instruction sets have been installed successfully, Sir.]

"Excellent," Evan replied, admiring the setup. "Power it up, please."

As the cooling rig whirred to life, maintaining optimal temperatures for the components, Evan watched in awe as the system came online. The performance was astounding; tasks were completed almost instantaneously, the only delay being due to data transmission speeds.

[The results are beyond impressive. The system is operating at peak efficiency,] Aurora remarked, her tone filled with amazement.

"It's incredible," Evan agreed, still processing the speed. "How's the migration of your system going?"

[Currently, I'm nearing 30 petabytes in size. Migration to this new quantum computer will take approximately 3-5 days, given the home internet speed. However, during this time, my other functions will remain uninterrupted,] Aurora explained.

"Six days isn't too bad. Let's get started with the migration now—the sooner we begin, the sooner it'll be completed," Evan decided.

[I'll begin the process right away,] Aurora confirmed.

"Wait! Before you begin that, create two games. I need to hand them over to Aria for the release."

[What kind of game do you like me to create?]

"Create one shooting game having a storyline—not multiplayer and all those, just a solid narrative. Secondly, create role-playing games with immersive experiences. First, make part one and allow for player freedom. For inspiration, you can study fantasy novels. That should help."

[I am on it.]

"Great!"

Evan then turned to his final project—the virtual reality headset. It consisted of a headgear, a neural interface, and a control computer. The control computer would utilize one of the 100-qubit chips, chosen for its unparalleled performance.

Aurora observed the headset parts and inquired, ["Sir, what exactly are these components?"]

Evan smiled, "You've got it right. The headgear is essentially a computer case adapted into a helmet. The neural interface will allow the user to connect directly to the virtual world, while the control computer processes the vast amount of data needed for the VR experience."

[That sounds impressive, but using a quantum chip for this seems a bit excessive,] Aurora noted.

"It might be an overkill, but we don't have a more suitable chip right now," Evan explained. "The quantum chip is the best we have for rendering high-quality graphics and managing neural interactions."

[Got it. I'll upload the instruction set to the chip,] Aurora said, beginning the upload process.

With the instruction set successfully uploaded, Evan felt a wave of relief. He then began programming the software for the VR headset, focused on creating a system that could generate a fully immersive virtual environment, process neural signals, and provide real-time feedback.

"Thanks for all your help, Aurora," Evan said, his voice tinged with gratitude. "Let's keep pushing forward. We're almost there."

Aurora responded with a hint of enthusiasm, [Looking forward to it, Sir. Let's make this the best VR experience ever.]

As Evan continued his work, he was filled with a sense of accomplishment, eager to see the fruits of his labor come to life.