Getting a Technology System in Modern Day-Chapter 844: Migration

Three days later.

With only six hours remaining until the scheduled update of the quantum communication network protocol, the deployment process had finally begun in full force. Ships carrying the newly manufactured Quantum Communication Satellites launched from multiple locations and bases, dispersing throughout the solar system. Production of these satellites had not been centralized in a single facility but instead took place across various massive industrial hubs spread throughout the system. This decentralized approach allowed for a more efficient rollout, ensuring that each satellite would be delivered to its designated position before the update went live.

With each passing minute, more satellites reached their assigned locations, immediately deploying upon arrival. The ships responsible for their transport wasted no time—they would confirm successful data transmission from the satellites before swiftly moving on to the next location.

As soon as each satellite settled into its designated orbit around the sun and completed its final diagnostics, the true nature of the Solar System Batch of satellites revealed itself. Unlike their counterparts in Proxima Centauri, which didn’t have the new devices, the satellites built in Sol had already been fully equipped. As soon as they became operational, the devices at their centers activated, and one by one, every single satellite vanished from all known sensors.

This unprecedented disappearance was the result of cutting-edge imperial stealth technology, now fused with Shadari cloaking advancements. Together, they had created a system so refined that, for any civilization at Tier 1 or lower, these satellites were effectively undetectable—rendering the empire’s new communication network nearly invisible to all but its own.

At the very core of the newly installed device, nestled within its intricate framework, was a seemingly unremarkable marble-sized object. However, beneath its unassuming exterior, an extraordinary phenomenon was unfolding. A steady stream of mana—converted from the electricity generated by the satellite’s onboard fusion reactor—was being funneled directly into this tiny sphere, setting into motion a process that defied conventional understanding.

If one were to peer beyond its surface, shrinking their perspective down to the atomic scale, they would uncover something unprecedented. But stopping at atoms wouldn’t be enough—zooming in even further, past the subatomic realm, past the level where quarks and gluons danced in chaotic harmony, and beyond even the boundaries of known quantum fields, one would finally arrive at the Planck scale—the very foundation of reality itself.

Here, in this infinitesimally small domain, the smooth and predictable nature of space-time collapsed into a chaotic, shifting landscape. This was the realm of quantum foam, where the very fabric of existence fluctuated wildly. Tiny, transient structures—virtual particles, mini wormholes, and space-time bubbles—constantly blinked in and out of existence within the unimaginably short span of Planck time.

And within this chaotic sea, the emperor’s greatest innovation had taken root—an invention that had been nearly twenty years in the making, a culmination of both imperial ingenuity and Lab City’s relentless pursuit of the unknown. It was a device so advanced that, if the physicists of old could witness what was occurring within that tiny marble, they would likely perish from sheer disbelief.

At first, the formation and dissipation of mini wormholes within the quantum foam occurred in a purely random fashion—just as expected at the quantum level. This chaotic, fleeting nature was simply how things functioned in such an extreme environment. However, as each second passed in the real world, a remarkable shift began to take place. The once-random appearances and disappearances of these wormholes started to exhibit a pattern, a controlled rhythm emerging from the disorder. Discover more content at novelbuddy

Approximately a googol of these quantum-scale wormholes now flickered into and out of existence in staggered intervals, ensuring that at any given moment, at least a hundred quindecillion of them remained stable. This meticulous synchronization was no accident—every aspect had been calculated beforehand to exacting precision. The process was anything but simple, requiring extreme levels of energy and precision to manipulate these ephemeral structures.

Then, at the critical moment, the next stage began. The quantum foams within each satellite’s marble core started an intricate process of entanglement, linking themselves to one another across the solar system. This phase required an enormous energy input, as well as near-flawless coordination, but once completed, a fundamental shift took place—every new wormhole that formed within these quantum foams would automatically become part of this entangled network. The need for continuous recalibration was eliminated, marking a breakthrough in stable quantum-linked communication.

With the network of entangled quantum foams successfully established, the fusion reactors within the satellites continued generating energy, but now that energy was redirected toward a new task—the initiation of a wormhole connection with the Proxima Centauri satellites.

On the Proxima side, each satellite activated its magnetic drive, a specialized system designed to maintain absolute positioning in space. Stability was crucial—this initial connection attempt demanded precise, unwavering coordinates to successfully establish the wormhole link. With both ends of the network now actively engaged in this synchronized effort, the true test was about to begin.

After about ten minutes of retries and adjustments, the quantum communication network finally established its full set of connections. A few initial failures had required the process to restart multiple times, but with each attempt, the system refined its calibration until a stable link was achieved. With the entanglement-based wormhole connection now fully operational, all satellites immediately began running rigorous data transfer tests, exchanging packets of information in a high-speed ping-pong to verify the integrity and reliability of the network.

Unlike the previous system, where distance significantly impacted energy expenditure, the newly established connection eliminated most of those limitations by drastically reducing energy costs. While the energy required to open a wormhole still increased with distance, the wormholes themselves existed at the Planck scale, making this expenditure almost negligible. As a result, the network could establish connections regardless of the distance between satellites. With test data now transferring instantly, it was clear that the major hurdles of quantum communication had finally been overcome.

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As these tests continued, the fusion reactors, which had been running at maximum capacity to establish the entanglement process, gradually reduced their output to normal operational levels—just enough to sustain routine data transmission without excess energy waste.

Now, distance no longer mattered. As long as an individual was near a quantum communication tower, they could establish an instantaneous connection with any other point within the empire, no matter how many light-years separated them.

By the time all final calibrations and stability checks were completed, the long-awaited moment arrived. The transition to the new quantum network was seamless—there was no need for a manual activation or system reboot. The handover process had already been pre-programmed, allowing the new network to take over automatically without a single disruption to ongoing data transfers.

The previous network, rather than shutting down, entered a low-power standby mode, remaining fully functional as a backup. If any of the new satellites encountered a failure or were destroyed, the backup network could immediately shoulder part of the load, ensuring redundancy and system resilience.

Without anyone noticing a difference, the Imperial Communication Network had crossed a threshold—one that would make future expansion effortless. With its most significant technological bottleneck now resolved, the empire’s ability to project influence, coordinate operations, and explore new territories had just taken a quantum leap forward.

…………..

{Sir, the migration is completed safely,} Nova reported her voice echoed in the room.

Aron barely acknowledged the update, his focus locked onto the massive holographic construct before him. The intricate circular structure that had once been the initial foundation was now visibly transformed—additional layers had been carefully stacked on top of it, like Lego pieces expanding upon a core design.

"Good," he responded absentmindedly, his eyes never straying from his work.

He had expected the migration to proceed smoothly. After all, he had personally contributed to its design and construction, ensuring that the network had undergone rigorous testing before deployment. Every conceivable failure scenario had been pushed to its limits, breaking the system repeatedly in controlled environments before resolving each weakness.

Still, in his mind, he mentally checked off the task as complete—one step forward. But the list in his thoughts remained incomplete, a few crucial objectives still left unchecked. Even the complex structure he was currently working on was just one piece of the greater whole.