Sad Planet OS - Experimental

 

Sad Planet OS - Experimental  

YOTTABYTE - DATA CENTER + COMPUTERS

1000 x 1000 x 1000 x 1000

A compact micro-Piston-Punch hybrid LPT Anti-Pollution Yotta Bastard. Advanced computing for AI & Virtual worlds

We will be working in Brontobyte (BB), Geopbyte (GPB) size options at a low cost - low maintenance cost

MEASUREMENTS

The sizes of measurement and memory for the use of binary system from the smallest unit "byte" to the large units, including byte (B), kilobyte (KB), megabyte (MB), gigabyte (GB), terabyte (TB), pegabyte (PB), Exabyte (EB), zettabyte (ZB), yottabyte (YB), brontobyte (BB), Geopbyte (GPB) & beyond

After petabytes comes exabytes. In the order of data storage units, a petabyte is followed by an exabyte, then a zettabyte, and finally a yottabyte

Peta - means 1,000,000,000,000,000; a Petabyte is 1,000 Terabytes

Exa - means 1,000,000,000,000,000,000; an Exabyte is 1,000 Petabytes

Zetta - means 1,000,000,000,000,000,000,000; a Zettabyte is 1,000 Exabytes

Yotta - means 1,000,000,000,000,000,000,000,000; a Yottabyte is 1,000 Zettabytes

A ON-GOING PROCESS 

As per my plan to transfer files & operations into smaller & smaller higher capacity sizing with back ups to archive safely then spread geographically for back ups in the event of a natural or man-made disaster or hazard 

As technology capability shrinks in size & costs lower we transfer & build upward 

Previous materials repurposed for new advanced alternatives in the "shrink"

Building from raw materials. Repurposed materials achieving equivance 

- Dr Sydney Nicola Bennett 

TRADITIONAL APPROACH 

Features of a supercomputer

Let’s have a common ground to begin this tour through the most powerful supercomputers in the world. In general terms, these are the standard features that make supercomputers so special.

Use of parallel processing

Parallel processing is a computing method in which multiple processors (CPUs) work on different segments of a specific task or computation simultaneously. Each processor is in charge of a computation’s portion to solve it much more quicker.

Use of Linux operating systems

Many supercomputers run with Linux-based operating systems (OS) because they have proven to execute instructions more efficiently and they are available for everybody (open-source software).

High-speed calculations

Supercomputers perform billions of computations each second. Their performance is measured in FLOPS or Floating-Point Operations per second and even exaFLOPS for the fastest supercomputers.

A lot of RAM memory

These supersystems have multiple nodes and each of them has its memory addresses; altogether they can reach several petabytes of RAM.

High accuracy level in the resolution of problems

Supercomputers have the technical capabilities to process big volumes of data and make calculations with speed and accuracy. They can solve any logic or numerical issue, execute several repetitions of a problem and answer in a fraction of a second.

AVERAGE COST - PRICE ESTIMATE AT PRICE 

2025 International Average 

High-end supercomputers: The current top contenders cost upwards of a billion dollars. For example, Fugaku, the current leader in the TOP500 list, reportedly cost around $1 billion to build. These behemoths offer unparalleled computational power for complex scientific simulations and demanding AI applications

CIG 3 expects to drive costs downward between 2025-2030 to under $50 Million on a compact Yottabyte Computer entry 

Material alternatives to achieve equivance 

SUPERCOMPUTER - REFERENCE 

Fugaku is a supercomputer in Kobe, Japan that is used for research and social applications. It is the fastest supercomputer in Japan and has been used to study the coronavirus, climate change, and more. 

How it works:

Fugaku is a petascale supercomputer with 160,000 nodes and 8 million CPU cores. 

It is made up of 432 computer racks, each weighing 1.73 tons. 

The racks are connected by cables to create the supercomputer system. 

What it's used for: 

Fugaku is used to run simulations for climate change, economic modeling, neurological research, and nuclear science.It has also been used to simulate how respiratory droplets move through the air in different settings.

Who developed it?

Fugaku was developed by RIKEN and Fujitsu, and completed in 2021. 

It was named after an alternative name for Mount Fuji.

What's next? 

Fujitsu is developing FUJITSU-MONAKA, an Arm architecture CPU that will be based on the technology used in Fugaku.

It has a total of 7,630,848 computing cores and is capable of performing 442 quadrillion calculations per second (442 petaflops). Fugaku has a memory capacity of 32 petabytes (32 million gigabytes) of RAM, which is significantly higher than most computers available to the general public.

FACT NOT ASSUMMED AGAINST 

Fool me once. Take an inch. Take a mile. You cannot fool me again!

North Bay + Area. Publicly Exposed with Ottawa for their 2012-2025 rape-torture & terror attacks from the NB-OT Labs dating back before 1999 & 1993 then everything leading up to 2011-2012. West Ferris Secondary School 1997-2004 students caught involved with others & specifics. The great Trojan mind fu*k. A fall back & waiting our time in life isolating + discrediting them holding down wirelessly! 25 or more or so years ago. 2012-2025 attacks & home wreckers destroying adult families!  Brains & bodies

CIG 3