Returning to Dominate The World With My Knowledge System
Chapter 57: Custom Computer Blueprint

Chapter 57: Chapter 57: Custom Computer Blueprint

[SYSTEM REWARD CALCULATION INITIATED]

Detected: Completion of a next-generation GPU using knowledge under [Computational Mathematics].

Scanning creation...

Name: Valkyrie-X

Type: High-throughput general-purpose GPU

Scope: Parallel computing, AGI-level inference operations, neural substrate emulation, advanced simulation rendering

Features:

Transistor Density: 800.3B (7nm scale)

Memory Bandwidth: 35 TB/s

Processing Power: 700 TFLOPS (peak 1500W draw)

Sub-nanometer lithographic precision (99.8% yield)

Auto-regulatory thermal map system (real-time nanosecond cycling)

Dynamic ion-beam doping logic (error margin <0.0002%)

Predictive etching with zero tapering loss

Embedded adaptive instruction routing for AI model scaling

Hostile hardware resistance protocols (fail-closed smoke-trigger verified)

....

[EVALUATION COMPLETE]

Earth Comparison Scale (ECS): Valkyrie-X exceeds global cutting-edge GPUs by ~2,300%.

System Standard Comparison (SSC): Grade S

Note: Valkyrie-X exhibits early signs of Tier-II fabrication logic. It qualifies as a prototype-level planetary asset. Integration with AGI systems is highly compatible. Detected structural pathways support future scaling to multi-core compute arrays and quantum-handshake hybridization.

....

[REWARD CALCULATED]

→ Reward: 7,500 SP

[System Reward Complete. Host has received 7,500 System Points.]

...

Tyler took his time to read through the system’s notification. There was a reason for this.

Even though Tyler was very aware of how good the GPU he created was, the system’s evaluation was very important to him.

Not just the evaluation but also the "Note" section as it gives more information on whatever he created.

And it didn’t disappoint this time as it gave him the exact information he wanted to see. And that was the part where it said, "Integration with AGI systems is highly compatible."

This was exactly what Tyler was looking for as it meant that the GPU can easily handle an AGI level AI.

Though even if it couldn’t handle an AI of that level, it wouldn’t exactly mean that he failed.

The truth was that Tyler actually outdid himself with the creation of the GPU. He really did. Even with the algorithms and the modifications he made to the equipments, achieving such a results was him milking the equipments for all they were worth.

"Success," Tyler sighed, with a bright smile on his face.

He was very happy with his achievements. It meant he was getting close to his goals.

With the successful fabrication and validation of the first Valkyrie-X chip, the fabrication floor slowly began to quiet down.

The high of the achievement still lingered in the air like electricity after a storm, but fatigue was setting in.

Tyler stood near the central workstation, arms crossed, his eyes now fixed on the final diagnostic screen even as it dimmed to standby.

Around him, the technicians were drained—mentally and physically.

They had accomplished something insane and unprecedented. But Tyler had made a promise.

No more late nights. And he was going to honor it.

"Shut everything down," Tyler said, his voice carrying across the quiet room. "Let’s resume tomorrow morning."

Some looked surprised—almost wanting to keep going. The adrenaline was still there, humming in their bones. But Tyler was firm.

"Go get some rest. You earned it."

David began organizing the return convoy, instructing the drivers and security to begin prep.

The workers filtered out slowly, some stretching, others still whispering about the chip they just witnessed.

Tyler remained behind, eyes still locked on the workstation.

For everyone else, the day was over. But for him, it was just beginning.

Now came the next phase—the true centerpiece of the operation.

He wasn’t building these GPUs to sell them.

He was building them to train an AI.

And not just any AI.

A peak-level construct. The kind of artificial intelligence that would make even the most advanced defense systems of 2025 look like calculators.

He needed 10 Valkyrie-X chips.

It might sound absurd, especially with how powerful just one chip was. 10 of it might be enough to rival national-scale data centers. But for what Tyler had in mind, it was the minimum requirement.

The AI wouldn’t just be powerful. It would be sovereign, untouchable and a digital entity capable of managing every aspect of his future empire—from assets to security to expansion. A near-omniscient construct tethered only to Tyler’s will.

That kind of intelligence needed a brain.

A physical one.

A custom-built supercomputer that could harness 10 Valkyrie-X units without melting itself into slag.

And that’s what Tyler needed to design tonight.

He walked into the private office adjacent to the main fabrication wing. The lights flickered on as he entered.

He sat at the desk, activated the monitor, and opened a clean workspace.

His mind was already running.

How do you build a supercomputer in 2010 that could handle a thousand 7nm monsters?

You don’t.

At least, not using anything that existed in 2010.

The best consumer PC specs available by August 2010 were laughable by Valkyrie-X standards:

Int Core i7-980X (6 cores, 3.33GHz)

24GB DDR3 RAM (rare, premium builds)

NVD GTX 480 GPU (1.5GB VRAM, ~1.3 TFLOPS)

128GB SSDs (still niche)

USB 3.0 was just emerging

Motherboards with PCIe 2.0, still transitioning from DDR2 to DDR3

Power supplies maxed at 1,200W for enthusiast rigs

Cooling was mostly air-based or basic water loops

Tyler scoffed internally.

Not a single spec could handle a fraction of what he needed. The Valkyrie-X chip couldn’t even be tested in a regular PC without frying it—and that was with just one chip.

He needed to tear everything down and rebuild it.

Every component had to be custom.

Power architecture. Memory channels. Voltage regulation. Motherboard bus width. Cooling. Storage. Even the casing. Everything had to be reimagined, including a BIOS and OS.

But Tyler wasn’t worried.

He had [Computational Mathematics].

He immediately started sketching, fingers flying over the digital pad.

First, the motherboard.

The foundation had to be something radically different. A hyperwide bus matrix designed specifically to integrate Valkyrie-X as embedded units. Not add-on GPUs—but as native cores built into the board itself.

Each Valkyrie-X would plug into a proprietary chamber—specially designed slots that distributed power, data, and thermal flow evenly. Not PCIe but something custom.

Tyler labeled it: "GPIC"—General Parallel Integrated Coreline.

Each GPIC lane would feature:

Direct connection to a multi-phase power gate.

An embedded liquid microchannel for heat transfer.

Multi-path data uplinks tied directly to neural routing chips.

He calculated spacing, bandwidth, and redundancy buffers. Then he added two master control cores, isolated from the GPU grid, responsible for AI monitoring and feedback override.

Next, he designed the RAM architecture.

Regular DDR3? Not a chance.

Tyler instead drafted a system using stacked DRAM towers—each tower housing up to 512GB of high-speed buffer memory. Custom address mapping and voltage distribution. Total RAM? 64TB minimum.

Then came storage.

Standard SSDs? Useless.

He created a layered optane-array hybrid, combining NVMe structuring with a 4D wear-leveling algorithm, extending data access life by 1,000x. It was less about space, more about speed and sustainability.

The cooling system was the hardest.

10 Valkyrie-X chips meant a heat output approaching 10,000W during sustained load. That was a lot

Tyler paused for a second, then he opened a fresh panel.

He’d need a closed-loop multi-phase cooling array. He calculated coolant volume, potential thermal expansion factors and emergency release valves for it.

And finally, power. He got to work immediately on that, trying to find a way to direct power to the system in a way that won’t cause it to crash due to power surge.

By the time he was done, it was well past midnight.

The schematics on the screen looked unreal—like something out of a futuristic science fiction movie.

He smiled in satisfaction as he zoomed out and saved the design.

Project Codename: Heimdall

Tyler leaned back and stared at the screen.

The Valkyrie-X was his sword and Heimdall would be the fortress that housed it.

"Ahhh... I should get back to the hotel and rest. Tomorrow’s going to be a long day."