Skip to main content

The supercomputer and cryptology.

 

The supercomputer and cryptology.

It's not the same who owns the most powerful supercomputers.

--------------------------------------------------------------------

The model of using an encryption algorithm

1) The computer calculates the list of the quantum-prime numbers

2) Those numbers are saved to the list

3) The encryption computer selects the number from the list by using the random number.

4) Then, the decoding system requires the place of the prime number of that list. The thing that can make the encrypting and decrypting process safer is that the list would not use successive numbers.

The beginning number can be 61 and the numbers of that list can be randomized. The requirement is that those lists are filled with identical numbers, what are in identical places, and the points, where those numbers are the same.

One tip for people who are using the encryption programs is that when the program is taken into use the program calculates the prime numbers. The time, what the program uses in that process is directly proportional to the length of the list of the prime numbers. So if the user of the program lets the computer calculate the prime numbers longer time, that will increase the data security.

---------------------------------------------------------------

Supercomputers are the ultimate tools for many types of calculations, and things like cryptology require extremely long calculations. The modern cryptological programs use Riemann's Conjecture for calculating the extremely long prime number or decimal prime numbers, what are calling quantum prime numbers. The quantum prime numbers mean the decimal numbers, where are billions of numbers, and what are division only by themselves and one.

The prime numbers are used to multiplicate the ASCII-codes, and powerful computer systems can calculate more of those quantum-prime numbers in a short time. The quantum prime numbers that the computer is calculating is forming the list, and then the computer randoms the number from those lists that it uses in the multiplication. The thing is that the faster computer can calculate more quantum prime numbers than slower ones. Faster computers can easily break codes that are made by using the elder computers.

There are computers in the world, what mission is to calculate quantum prime numbers. The other computers would pick the needed quantum decimal prime-numbers from that list using the random numbers, and then the message is easy to encode. But how to decode the message? The answer is that the receiver must just division the ASCII-codes of the messages by using the same prime numbers that are used for the multiplication of the ASCII-codes in the encoding process.

There is one weakness in this kind of system. That weakness or vulnerability is that the number is used in the encryption of the message and decoding the message must be the same. So the computers, what is operating as pairs must use the same prime numbers in the process, and there are two ways to make sure that the prime numbers are the same. The first way is to take the number from the list.

If encryption keys renewing automatically that means that the certain date would mean a certain number in the prime number list. And the problem is that the list has limits. Another problem is that in highly secured data transmission the prime numbers must change after each message, and that means that the end of the list will come sooner or later.

The other way is that those systems must send the key prime number in the message. That thing can cause a catastrophe if the prime number, what is sent goes to the wrong hands. Quantum computers allow researchers to calculate many times more prime numbers than the regular computer can, and that means all cryptological algorithms which are made for old computers are easy to break by using quantum computers.

The quantum computer would just calculate the extremely long list of prime numbers, and then type every single prime number from that list to the captured messages. The level of secrecy can rise by using the series of calculations, where the ASCII-codes of the message will multiply, addition, and subtract in the series of calculations.

Cryptology is one of the purposes, where the quantum computer can use. The other thing is that the highly complicated artificial intelligence algorithms can run on the quantum computing platform. And the things like automatized robot submarines and large-scale robot warships require high powerful computers for artificial intelligence that can control those systems. But of course, artificial intelligence can control the protein simulations, what are the most complicated simulations in the world.

Image: https://cfotech.com.au/story/80-of-australian-companies-think-cybersecurity-investments-failing

http://curiosityanddarkmatter.home.blog/2020/12/05/the-supercomputer-and-cryptology/


Comments

Post a Comment

Popular posts from this blog

When robots are laughing and crying.

When robots are laughing and crying.  Does the AI have feelings?  Does the AI have feelings? Or can it be emphatic? The fact is this program code that controls the AI determines if it can give empathic reactions. The problem with the human nervous system is that we don't make a difference in the writing of empathic letters or telling empathic stories human or AI. Our nervous system is not adapted to AI yet. And that's why we cannot separate text written by AI from text that made by humans.  What does somebody make with AI that can emulate feelings? The fact is that the cyborgs are useful tools for infiltration operations. The human-size robots can have WLAN/6G connections with the central computers. Or they can form a neural network that shares information between all group members. The robots can also act as walking neural network-based supercomputers. That can make complicated solutions.  In those networks, each member shares information and their data-handling capacity all o
Post a Comment
Read more

Earth 2.0 has been caused discussion about the possibility to find another civilization

    Earth 2.0 has been caused discussion about the possibility to find another civilization The Earth 2.0 or officially Kepler-452b is locating extreme log distance from Earth(1).    A new Earth-type planet has been found near the star, which is similar to our own Sun. The journey to that planet would take 1400 years, even if the spacecraft will reach the speed of the light. The planet has been found in the year 2008, but the confirmation of the existence of that planet has been taken time, but in 2015 the confirmation has been got, and Earth 2.0 has turned true.  The mass of that planet is 1,9 times Earth and the temperature is excellent if we are thinking about liquid water, but the journey to that planet will take so long, that we cannot ever go in there by using regular rockets and technology. The thing is that this kind of planets are the most interesting if we are looking for the lifeforms, which are similar to us, and the problem with that kind of things is that the communicatio
Post a Comment
Read more

Tunguska meteorite and the natural nuclear fission

  Image I Tunguska meteorite and the natural nuclear fission 1) Tunguska UFO-theory  Tunguska meteorite is the mystery, that has been solved once, but then the case has been open again because Lake Cheko was not suitable for an impact crater. That lake has been introducing as an impact crater of the Tunguska meteorite. But the problem is that the shape of that lake is like a swimming pool. And that means it cannot form by a meteorite. So the mystery remains.  Meteorites can launch the natural nuclear fission if they hit the uranium ore, and transfer the impact energy to that ore. And is the thing that the famous "Tunguska" meteorite caused that kind of effect? There is also a theory that some "UFO" explode in that area, but the thing is that it is only theory, but interesting topics for some TV-series.  So I will begin this text by handling that theory, which is one of the incredible and outstanding theories in the world. Officially there is no physical evidence of
Post a Comment
Read more