Road to Yotta 2027!

Road to Yotta 2027!

US $250-$10,000 Yotta! SP-CIG 3 Goal

ONE ROUTE 

A $10,000-$50,000 Yottabyte Supercomputer 

Processing + Memory & Energy Technology 

Piston-Punch Energy 

Mixing 90's - Y2K vintage with modern in size reduction utilizing modern micro & regular disc efforts for memory & advancing upon minimal material process speed advancements 

Less is more. Path of least resistance. Equivalence

COMPACT YOTTABYTE STORAGE 

Nanometer laser to 100-1000+ layers of data onto an optical disk with each tier separated by just 1 or less micrometer

A three-dimensional stack of data layers capable of holding a whopping 1 petabit (Pb) of information — that's equivalent to 125,000 gigabytes

The same petabit of information would require roughly a six-and-a-half foot tall stack of HHD drives — if you tried to encode the same amount of data onto Blu-rays, you'd need around 10,000 blank ones to complete your (extremely inefficient) challenge.

1 Yottabit = 1,000,000,000 Petabits

We are able to stack 1 Billion micro-discs into a compact Piston-Punch Energy Stationary Plant configuration effectively using a scale-life effort cutting overall installation & operating then maintenance costs creating an efficient industry equivalent option with a compact overall size with a goal for a 10x10x8 size option which between 2025-2027 will be 40x40x8 rather than compact into our goal of a micro-room Yottabyte option for Storage & Processing from perpetual motion Zero Emissions Energy  

The long-term usability of the Discs over 25-50+ years & Solid State HHD integrated 

IN COMPARISON TO AI TRENDS INTERNATIONALLY 

Sad Planet OS - AI AGI developments 

Abilities - Capabilities 

1. Downloads or copy & pastes data then analyzes as part of memory

2. Creates data & content

3. Can auto code & conduct research

The international Earth's history of ancient - vintage - modern dictionary & thesaurus uses with the AI AGI ability to knowledge then use different scenarios in order to analyze & effectively use with style using social trends between advanced vast data analysis through database memory umbrellas - trees as storage access to communicate with

This allows the AI AGI to perform any task a PhD level human being in all fields could incredbaily fast & efficiently

With these growing advancements the AI Virtual Assistants & AI FleshBot Humanoid Robots will teach themselves & exponentially grow while we shrink - transfer hardware & expand as they do while we direct them for our social - financial benefit 

Our basic K-12 & University-College then industry spec specialization & knowledge becomes that of a directors while the AI Virtual Assistants & AI FleshBot Humanoid Robots carry out everything for us 

INCREASING THE WATCH MAKERS DREAM EFFORT TO LOWER MATERIAL COSTS 

Micro compact Yottabytes 

Main two variables 

Storage - Processing Speed  

Optical Disc Petabye Breakthrough 

Popular Science points out that for encoding data, "optical disks almost always offer just a single, 2D layer — that reflective, silver underside."

"If you could boost a disk's number of available, encodable layers, however, you could hypothetically gain a massive amount of extra space..."

Researchers at the University of Shanghai for Science and Technology recently set out to do just that, and published the results earlier this week in the journal, Nature. Using a 54-nanometer laser, the team managed to record a 100 layers of data onto an optical disk, with each tier separated by just 1 micrometer. The final result is an optical disk with a three-dimensional stack of data layers capable of holding a whopping 1 petabit (Pb) of information — that's equivalent to 125,000 gigabytes of data...

As Gizmodo offers for reference, that same petabit of information would require roughly a six-and-a-half foot tall stack of HHD drives — if you tried to encode the same amount of data onto Blu-rays, you'd need around 10,000 blank ones to complete your (extremely inefficient) challenge.

To pull off their accomplishment, engineers needed to create an entirely new material for their optical disk's film... AIE-DDPR film utilizes a combination of specialized, photosensitive molecules capable of absorbing photonic data at a nanoscale level, which is then encoded using a high-tech dual-laser array. Because AIE-DDPR is so incredibly transparent, designers could apply layer-upon-layer to an optical disk without worrying about degrading the overall data. This basically generated a 3D "box" for digitized information, thus exponentially raising the normal-sized disk's capacity.

INCREDIBLE BREAKTHROUGH 

Lowering 2024 costs of installation from US $1-5 Billion substantially on a Yotta Super Computer or Data Center 

US $250-$10,000 Yotta! SP-CIG 3

Micro-Super Yotta Challenge 

https://thesheild2035.blogspot.com/2025/02/micro-super-nano-yotta-challenge.html

LOW COST YOTTA IS NUMBER 1

Low Cost Yotta allows for everything to work together well on an international level with Zero-Emissions Energy technology. Everything CIG 3 is working on from a Financial perspective requires low cost Yotta 

This creates control variables & we can advance upon by building more & more then interconnect to solve advanced concerns with advancing AI AGI

Super Computers are used for a lot including Data Centers - cloud storage - cloud computing - external processing speeds - external storage 

From basic Machine Learning. Python to real extended life ages 110-220+ for 2027 onward for human beings in Earth!

https://thesheild2035.blogspot.com/2025/02/the-lungs-are-air.html

CIG 3