Myriad Heavens: Rise of the Rune God-Chapter 117: The Replicator Project

[Author’s Note

Quick update: I’ve changed the company name from Innovatia to Starr Technologies. The main headquarters is now called Starr HQ, and the research facility is Starr Advanced Laboratory and Research Division (or Starr Labs for short). This change better reflects Orion’s identity and the company’s growing influence. Thanks for understanding!]

MONDAY MORNING - STARR HQ, ORION’S OFFICE

Orion’s phone buzzed for the fifteenth time in an hour. He glanced at the screen without picking it up.

Atlas Robotics - Katherine Webb Synth Dynamics - Director of Acquisitions Boston Robotics - CEO Office

All the major robotics companies. All wanting the same thing—the software that made René move like a human instead of a clumsy machine.

He declined the call and set the phone face-down on his desk.

"Rene, draft a standardized response to all robotics companies. Polite but firm. We’re not licensing, selling, or discussing the control algorithms. Period."

"Understood," Rene replied through his BCI earbuds. "Shall I also filter future calls from these companies?"

"Yeah. Send them straight to voicemail with the automated response."

Orion stood up and walked to the floor-to-ceiling windows overlooking New Eden. The city sprawled below—millions of people going about their lives, completely unaware that the technology to revolutionize their world was being built in laboratories across the city.

The fusion reactor was progressing. The BCI units were transforming research productivity. Aether OS had hit 1.6 billion downloads.

But there was a bottleneck.

Manufacturing speed.

Every breakthrough they made in simulation had to be physically built to test. Even with the research facility’s advanced equipment, producing prototype components took weeks. Testing took more weeks. Iteration cycles were painfully slow.

Traditional manufacturing was the limiting factor.

Orion needed a way to skip from digital design to physical product almost instantaneously. A way to test inventions without waiting months for fabrication.

He needed a replicator.

"Rene, cancel my afternoon meetings. We’re starting a new project."

"Acknowledged. What is the project scope?"

"Advanced manufacturing. Specifically, atomic-level 3D printing. I want to build a replicator that can take any design from the simulator and produce a physical object within hours instead of months."

There was a brief pause. Even for the current Rene, that was ambitious.

"That would require material disintegration to the atomic level, precise atomic manipulation, and reassembly according to digital specifications. Current 3D printing technology operates at the micrometer scale. You’re proposing a leap of several orders of magnitude."

"I know. I will take care of the impossible and we’re building it."

Orion sat back down and pulled up his computer. Connected to Rene through the BCI. Information started flowing.

"I’m thinking we take the concept from EUV lithography machines but scale it up and modify it significantly. Instead of using extreme ultraviolet light to etch patterns on silicon wafers, we use high-powered lasers to completely disintegrate materials down to atomic particles."

"Interesting approach," Rene said. "Continue."

"The process would work like this: Raw materials—any raw materials, including processed waste—get fed into the system.

First stage: roasting chamber. Extreme heat dries everything, removes moisture, kills any organic matter.

Second stage: grinding. Materials get pulverized into fine dust.

Third stage: laser disintegration. The dust gets hit with precision lasers that break molecular bonds, reducing everything to atomic particles."

"And then reassembly?"

"Exactly. Once we have a cloud of atomic particles, we use electromagnetic fields and additional laser systems to manipulate individual atoms. Place them precisely according to the digital blueprint. Build objects atom by atom, layer by layer."

Rene processed this for a moment. "The energy requirements would be substantial. The precision required would be extraordinary. The computing power to track billions of atoms simultaneously..."

"Dont we have nuclear fusion reactors being built right now. Energy isn’t a problem. As for precision and computing—What were you made for?"

"Fair point."

Orion pulled up the system library in his mind. Started searching for relevant knowledge.

Advanced Manufacturing Techniques

Atomic Manipulation and Assembly

Laser-Induced Molecular Disintegration

Electromagnetic Particle Control

Precision Fabrication at Nanoscale and Below

Books flew toward him in the library space. He absorbed them rapidly. His enhanced brain cataloged everything—the physics of atomic bonding, the wavelengths needed to break specific molecular structures, the electromagnetic frequencies required to guide particles, the thermal management needed to prevent unwanted reactions.

Hours passed. Orion dove deeper into robotics knowledge as well. If he was building a replicator, he should also design the robots that would use it to make the whole process fully autonomous.

Humanoid Robot Kinematics

Advanced Sensor Systems

Modular Robot Design

Military Robotics Applications

Space Environment Robotics

Autonomous System Architecture

More books. More knowledge flowing into his enhanced memory. 𝕗𝗿𝕖𝐞𝐰𝗲𝕓𝐧𝕠𝕧𝗲𝐥.𝚌𝐨𝚖

By evening, he had the foundational understanding. Now he needed to translate theory into practical design. Which was a piece of cake due to the Starr Simulator.

MONDAY EVENING - MANSION, ORION’S STUDY

Orion sat cross-legged on the floor, BCI earbuds in, eyes closed. His consciousness was split between the physical world and the virtual design space Rene had created for him.

In the virtual space, a massive 3D blueprint rotated slowly. The replicator. Ten meters tall, five meters wide. A cylindrical chamber at the center where the atomic assembly would take place.

"Let’s walk through the design again," Orion said. "Start to finish."

Rene’s voice came through clearly.

"Input stage: Materials enter through the loading bay. Any solid matter—metal scraps, electronic waste, plastic refuse, organic material, literally anything. The system isn’t picky."

The blueprint zoomed in on the loading bay. A large hopper with conveyor systems.

"Stage one: Roasting chamber," Rene continued. "Temperature reaches 1500 Celsius. Duration: twenty minutes. This removes all moisture, kills bacteria and organic matter, begins breaking down complex molecular structures."

The chamber glowed red in the simulation. Steam and smoke vented through filtration systems.

"Stage two: Grinding. The roasted material gets crushed by diamond-composite grinding wheels. Multiple passes reduce everything to dust particles measuring 10 micrometers or less."

Massive grinding wheels appeared, pulverizing the material into fine powder.

"Stage three: Laser disintegration. This is where it gets interesting." Rene zoomed in on an array of high-powered lasers surrounding a chamber. "The dust gets suspended in an electromagnetic field—basically floating in midair. Then we hit it with tuned laser pulses. Each pulse is calibrated to break specific molecular bonds."

"How many lasers?" Orion asked.

"Two hundred and forty lasers arranged in a spherical array. Each one independently controlled, each one capable of firing pulses at different wavelengths. We can disintegrate anything from carbon to titanium to rare earth elements."

The simulation showed dust particles exploding into clouds of individual atoms. Beautiful and terrifying.

"Stage four: Particle sorting. Once everything is atomized, we use multiple electromagnetic field gradients to sort particles by element. Carbon atoms get pulled to one containment field. Iron atoms to another. Silicon, oxygen, nitrogen—all separated and held in suspension."

The atomic cloud separated into distinct colored regions. Red for iron. Gray for carbon. Blue for silicon.

"Stage five: Assembly. This is where your design blueprint comes in. The system reads the atomic structure of whatever you want to build—let’s say a superconductor coil. It knows exactly where every atom needs to go. The electromagnetic fields shift, pulling atoms from their containment areas and placing them precisely."

The atoms began moving. Flowing through space like rivers of light. Converging at the center. Building structure layer by atomic layer.

"The lasers fire again, but differently this time," Rene explained. "Lower energy pulses that weld atoms together. Forming exact molecular bonds according to the blueprint. The object grows atom by atom. Takes longer for complex structures, but the precision is absolute."

Orion watched a superconductor coil materialize from nothing. Perfect atomic arrangement. No defects. No impurities.

"How long for something like that coil?" he asked.

"Depends on size and complexity. A small coil, maybe ten centimeters across—about six hours. A large reactor component two meters wide—maybe thirty hours. Complex materials with intricate atomic structures take longer. Simple materials like bulk steel or plastic print much faster."

"And if we need to print something huge? Like a section of fusion reactor?"

"We build it in modules. Print smaller pieces that assembly together. Or..." Rene paused. "We build bigger replicators. The replicator can print another replicator. We bootstrap up to whatever size we need."

Orion smiled. "Self-replicating replicators. I like it."

"There is one limitation," Rene said. "Energy consumption. Disintegrating materials to atoms takes enormous energy. The lasers alone will consume megawatts continuously. A single replicator running at full capacity will need its own dedicated fusion reactor."

"We’re building fusion reactors. That’s not a problem."

"Agreed. But it means we can’t deploy these everywhere until fusion power is widely available."

"We’ll deploy them where we need them first. Starr Labs gets the first units. Once we can mass-produce fusion reactors, we can mass-produce replicators."

Orion opened his eyes. Back in his physical study. Late evening. He’d been working for twelve hours straight.

But the design was complete. A functional replicator. Revolutionary manufacturing technology that could build anything from atomic particles.

"Rene, compile the complete blueprint package. Full technical specifications, material requirements, assembly procedures, safety protocols. Send it to Starr Labs manufacturing division. Mark it highest priority."

"Compiling now... Complete. Transmission sent. Dr. Martinez has acknowledged receipt. She’s requesting a video call."

"Put her through."

A holographic display appeared in Orion’s vision—Dr. Sofia Martinez, head of the materials division at Starr Labs. She looked excited and overwhelmed simultaneously.

"Mr. Starr, I just received the replicator blueprints. This is... I don’t even know where to start. Did you design this entire system?"

"With my personal ai help, yes."

"This is insane. The precision required, the energy systems, the laser arrays—" She scrolled through documents on her end. "If this works, it changes everything. We could fabricate fusion reactor components in days instead of months. We could iterate designs at ridiculous speeds. We could—" She stopped herself. "Sorry. I’m rambling. Can we actually build this?"

"Yes. Most of the components use technologies we’ve already developed. The superconductors, the laser crystals, the electromagnetic field generators. The only new element is the control system, and Rene will handle that."

"How long to build the first unit?"

"How long would you need?"

Sofia thought for a moment. "The laser arrays are complex. We’d need to fabricate two hundred forty individual high-power lasers with precise wavelength tuning. That’s... three weeks maybe? The electromagnetic field generators are straightforward—one week. The roasting and grinding chambers are basic engineering—a few days. Assembly and integration—another week." She did the math. "Five to six weeks for the first prototype. Maybe less if we push."

"Push. This is critical infrastructure. I want the first replicator operational as soon as possible."

"Understood. I’ll have my team working round the clock." Sofia paused. "Mr. Starr, once we have a working replicator, what do you want us to print first?"

"More replicators. We need at least five units operational within three months. One for Starr Labs, one for the fusion reactor facility, one for robotics development, one for whatever the company needs, and one backup."

"Self-replicating infrastructure. Smart." Sofia smiled. "This is why I love working here. Nowhere else gets to build science fiction technology."

"It’s only science fiction until we build it. Then it’s just engineering."

"Fair point. I’ll keep you updated on progress."

The call ended.

Orion stood up and stretched. His body didn’t feel tired—the cultivation kept him energized—but his mind needed a break from technical work.

He also needed to address the other half of the replicator project: the feedstock.

If they were going to build a replicator that consumed raw materials at industrial scales, they needed a supply chain. A massive supply chain.