Single Mother of a Werewolf Baby

Chapter 153: The Kola Peninsula Industrial Campus

While Anastasiya was reflecting on her recent life choices and absentmindedly fiddling with a folder, Eleanor entered the dining room and took a seat across from her.

"When did you come?" she asked, adjusting her chair.

"Not long ago. Here... I came to give you this," Anastasiya said, immediately sliding the folder across the table toward Eleanor.

"This is the final plan for the Kola Peninsula Industrial Campus. Miss Kournikova said this will serve as our base blueprint moving forward. Some minor components may still need adjustment, and the actual costs could exceed twenty billion during implementation, but overall, the project will remain more or less the same," Anastasiya explained.

Eleanor picked up the folder and took out a stack of papers bound together. She glanced over the summary page first, then asked, "Did Teresa and Lily approve this project plan?"

Anastasiya replied, "Yes. They were both present at today’s project team meeting."

Eleanor nodded. "Can you give me a brief overview of the project? I don’t want to go through all the details right now."

Anastasiya nodded and said, "Okay, I can do that."

Inwardly, she knew Eleanor was testing her... gauging how much she had learned in the meantime.

in

cards, full telemetry and guidance logic boards for satellites, flight control computer modules for both LEO and GEO orbits, edge-processing boards for drone swarms and autonomous surveillance towers, and cryptographic authentication chips for secure military infrastructure. We’ll sell them to the Russian government and also use them in our other

near Murmansk, because the deep-water harbour there remains ice-free year-round thanks to the North Atlantic Current. This will ensure uninterrupted arrival of chemicals and the smooth departure of

said, "The campus will be fully autonomous. Its independence is anchored by a private, heavy-fuel-oil thermal power plant with a capacity of 180 megawatts. The plant will be outfitted with three high-efficiency, low-emission combustion turbines and a closed-loop steam recovery system to maximize thermal output and ensure year-round energy stability. It will operate with full redundancy, incorporating dual fuel feed systems and maintaining a 90-day on-site reserve of low-sulphur fuel oil, stored in Arctic-hardened containment tanks to withstand extreme conditions. To stabilize demand and

links to the 1.76-gigawatt Kola Nuclear Power Plant, which will remain

by in-house generators for liquid nitrogen, argon, and hydrogen to supply essential process gases. A seawater desalination and de-ionization train will provide ultrapure water for fabrication use. To complete the system, a full-cycle

the autonomous process. Tell me

terminal, where Karelia quartzite, Norilsk matte containing nickel, cobalt, and copper, as well as concentrates bearing platinum-group and rare-earth elements are received and siloed. Russia’s position as the world’s second-largest ferrosilicon producer will allow continuous rail

battery grade and electrolytically plate high-purity copper and nickel interconnect stock. This process will depend on how much cobalt we can secure from Kola MMC’s annual capacity of three thousand

continued, "The crystal warehouse will feed three front-end fabs. The first is a rad-hard CMOS line, qualified at 180 to 90 nanometers, for satellite control ASICs and radiation-tolerant microcontrollers. The second dedicates its clean bays to silicon

copper damascene plating, atomic-layer deposition ovens using titanium and hafnium precursors

interposers. Finished die stacks will then proceed to a board-assembly hall, where surface-mount robots install memory modules, secure boot managers, and radiation-hardened regulators onto carbon-fiber PCB panels. This produces complete graphics cards capable of sixteen tera-operations per second inference at 120 watts, designed for low-Earth-orbit edge processing. Each board will undergo approximately a forty-hour thermal-vacuum and total-ionizing-dose

finished, Eleanor asked, "Tell me

her

(EDA) servers and an AI-accelerated digital twin system. This digital twin creates

then continued, "By mirroring all production parameters... such as temperature, humidity, ion dosage, and etching precision... the system enables predictive maintenance, capable of anticipating and preventing equipment failures, thereby minimizing downtime. It also facilitates