Blue Quantum Photon Optical

Transport System

# "Name your reward!"

## Photon Optical Transport System

#### There's a famous legend about the origin of chess and the power of an exponential.

When the inventor of the game showed it to the emperor, the emperor was so impressed by the new game, that he said to the man:

## The Qbit™ Engine

### This revolutionary breakthrough will allow Quantum processing on current server technology as a hard chip or added onboard WITHOUT the need for:

### No Supercooling Requirements

### No Massive energy consumption

### No overheating

### No large noise results

### No creation of extreme violation of local realism results

## Our Qbit™ engine is hybrid technology.

It is a combination of two disciplines.

Real Quantum dual state processing with allowance for classical data to be sent to a Quantum state, then back to Classical.

AMT Quantum processing development created a new Eigenstate condition, in which data can be both here AND not here, simultaneously.

### No Quantum Processors deconstruction

### Our breakthrough has produced 100% hardware resource allocation with HPE and HPC servers that become quantum emulation servers with quantum encrypted second state placement for data communications security, quantum speed results 70-300% faster solutions output.

### Our next planned release is quantum networking in fiber optic or laser transmission with Hyper Data 100TB single block movement within transit managed control and we have just begun.

### No shaky Qubits

We discovered a breakthrough

when we ask the question:

### Instead of us going to Quantum

###

### why can’t we bring

Quantum to today's systems?

### When testing the mathematical Quantum emulation we call Qbit™, the breakthrough occurred and THE WORLD CHANGED THAT DAY.

When we created and tested Qbit our quantum software processor what resulted was engagement with real quantum processes with our emulations, Qbit a near-perfect emulated design connected to real quantum processes creating a breakthrough we call second state placement or here/not here.

By fine-grain quantum algorithmic shifting, we take the classical server that evolves into quantum emulation servers. This is with our current HPE, HPC, CPU-GPU, and FPGA server systems, accomplished with firmware Qbit2 from AMT-USC, the quantum software processor. This is quantum use today.

# Solutions in Quantum Software

QUANTUM APPLICATION SOFTWARE INTEGRATED

WITH QUANTUM EMULATION SERVERS

### OUR BLUE QUANTUM SOLUTIONS SERIES:

The man responded:

"Oh emperor, my wishes are simple. I only wish for this. Give me one grain of rice for the first square of the chessboard, two grains for the next square, four for the next, eight for the next and so on for all 64 squares, with each square having double the number of grains as the square before."

The emperor agreed, amazed that the man had asked for such a small reward - or so he thought.

After a week, his treasurer came back and informed him that the reward would add up to an astronomical sum, far greater than all the rice that could conceivably be produced in many many centuries!

The number 64 doesn't sound that big, but two to the 64 is an enormous number, so that's why quantum technology is actually going to allow us to solve some of these problems we can't solve classically. Quantum technology is incredible because it's something that will change what can be practically computable, and this can change the Communications, Data Transmission, Big Data Analytics, Logistics, Behavioral Analytics, Pattern Recognition, Network Mapping, Cyber Defense and Security, as well as materials science, biology, medicine, agriculture, and the foundations of chemistry.

## We are all like the emperor in some ways - we find it hard to grasp how fast functions like "doubling" make numbers grow - these functions are called "exponential functions" and are actually found everywhere around us:

#### Compound Interest,

Inflation,

Moldy Bread,

Populations of Rabbits, and etc...

## It doubles the potential computing

## power of the machine.

### If we can overcome the challenges in developing practical algorithms, software, and machines, quantum computing could solve some problems where computation grows too quickly (exponentially in the size of the input) for classical machines.

Quantum technology will change the understanding of the sciences that fundamentally rely on understanding the behavior of electrons.

A classical computer uses an exponential number of bits (electrons) to model the positions of electrons and how they change. Classical computers have done amazing things like the Internet, but we don't often talk about all the things they can't do.

Maybe they can solve small versions of these problems, but when the problem gets big enough we just run out of COMPUTING HORSEPOWER.

### Quantum technology will speed up the learning process of Artificial Intelligence, reducing thousands of years of learning to mere seconds.

A good example is an optimization = “Find the best solution to a problem among many possible solutions”

Quantum technology will deeply help with problems related to optimization, which play key roles in everything from defense to financial trading, quantum sensing and metrology, networks and communications, which lead to revolutionary ways to share information.

It boils down to two fundamentally quantum effects.

## Hyper Data Movement

## Encrypted Data Communications

## Quantum Conversion Gate

## Anti-Crypto Counter-Attack Defense System

### The first 100% quantum secure transmission software that is

### unhackable.

### This allows for revolutionary change in communications, data centers, cloud storage, massively speed increased database solutions results, the rise of quantum networking in fiber optics with massive 100Tb data block movement, satellite to ground transmissions, planetary defense, and endless corporate and commercial use enhancements while maintaining the investment in infrastructure: Improved Use, Secure Communications and increased speed with Fiber Optic Networking.

By combining Qbit2, the world's first quantum software processor with QEC quantum encrypted data communications with second state compression, QFire a quantum distributed massive parallel processing with HPE and HPC server technology and QFiberLink for Quantum networking in Fiber Optic lines with Hyper 100Tb data block movement, we have taken processing speed, security, and networking to the next level. This is quantum software for use today….

## BLUE QUANTUM ENCRYPTED DATA

## COMMUNICATIONS DEFENSE SOFTWARE

## SOLUTION

AMT-USC Qbit was created with Toffali-gate quantum algorithms that implement quantum emulations in a coherent superposition with API integration with Microsoft API integration by use of MS-Q.

This new paradigm shift product allowed for the AMT-USC release of the world’s first Quantum application suite of quantum application software. Now offering QFire, QFiberLink, and QEC.

## Speed of Light data movement, sir?

In copper wires, data is transmitted digitally by 1 and 0 value bits.

In fiber optic cables, data is sent by photons transmitted by lasers.

*Copper-based transmissions currently max out at 40 Gbps (gigabits per second), where glass fibers can send up to 1014 bits of information per second (100 Tbit/sec), and copper wires up to 109 bits per second (1 Gbit/sec). ** *

Light can transmit information with a much higher information density (less error) than radiofrequency waves through copper.

In fact, the bandwidth limits imposed on fiber are mostly theoretical but have been tested to hundreds of terabits per second.

# BLUE QUANTUM

# HYPER DATA BLOC MOVEMENT

Moving large hyper blocks of data requires special preparation of the data itself, specifically built-in prediction, error correction, parsing along with compression, and encryption.

This is achieved with the AMT-USC fully integrated solution QFiberLink software for HPE, HPC, CPU-GPU, and FPGA servers.

Quantum "large data" bloc loading: The quantum analysis tells us how best to sort, time, and transmit our data, predicting the future by recognizing problems ahead. A single data block can be as large as 100Tb.

Then the data bloc is converted into individual photon formations that are entangled to the following photons to communicate intelligent formation flights.

We have developed an entanglement process that connects sets of photons by a coupled design resulting in a new type of transportation system.

The result is complete management with the data assembling, parsing, organizing, loading, managed transit to unloading for re-integration.

A complete process methodology workflow not achieved previously.

# BLUE QUANTUM

CONVERSION GATE

## The world’s first

## quantum artificial intelligent

## circuit

The need for this is in the interface from quantum true state to classical system conversions.

This allows for true quantum maximum speed results with HPE and HPC systems with 100% resource use while virtually eliminating heating thermal build-up and lower energy use.

The speed enhancement of the classical system is a significant result.

This is quantum use today on today’s technology process that has been designed.

### QIK

### Quantum Infinity Key

**A User Key Quantum Infinity Key Enhancement for QEC.**

# Blue Quantum

# Anti-Crypto Counter-Attack

# Defense System

A Guided Data in Transit Managed Transport Guidance system that is active in Hyper Data Block simultaneously managing the Quantum Lattice Network Vectoring interface.

While large-scale quantum attacks do not presently exist, they are considered inevitable.

Public key (PKI) data encryption is most vulnerable to quantum attacks to defeat the cryptography widely used for secure online transactions, communications, and algorithms DOD now employs on many systems.

Stacked-layered authentication systems such as dual log required today are equally vulnerable to attacks. Federated IDM centralizations of authentication and variety pack security log in diffraction will allow for single point quantum integrated dual to eight state-integrated systems brute force attacks.

While we do not know what kind of large-scale quantum computer might be employed, we suppose one exists of nearly limitless qubit power with features and capabilities as yet unimagined.