Meganet
Why do you need the world's strongest encryption?
YOUR DATA IS JUST A HACK AWAY. Hackers take website security measures as a challenge. They're stealing passwords and credit card numbers every day.
In January, 2000, hackers stole 250,000 credit card numbers from an online CD store. They tried to blackmail the store, and when the store didn't pay they published 10,000 of those passwords to the world. If they had encrypted their credit card number file with VME no hacker in the world could read it.
Security expert: E-commerce hacks happen all the time - PC Week Online January 21, 2000.
YOUR EMAIL IS AN OPEN BOOK. Anyone with an email "sniffer" program can jump into the flow of email traffic, targeting email with your name or your company's name.
You deleted your email so that nobody can read it? Bill Gates heard his email read out loud in open court.
Corporate espionage is going on world-wide. Governments are aiding their national corporations in this endeavor.
Governments are continually intercepting electronic communication all over the world, and sifting through it using a technology called Topic Spotting.
INTRODUCTION
We believe there is one very simple rule in encryption – if someone can encrypt something, someone else will be able to decrypt it. The idea behind VME is that the data is not being encrypted nor transferred. And if it's not encrypted and not transferred – there is nothing to break. And if there's nothing to break – it's unbreakable.
How does it work?
The basis of VME is a Virtual Matrix, a matrix of binary values which is, in theory, infinite in size and therefore contains no redundant values. The data to be encrypted is compared to the data in the Virtual Matrix. Once a match is found, a set of pointers that indicate how to navigate inside the Virtual Matrix is created. That set of pointers (which is worthless unless pointing to the right Virtual Matrix) is then further encrypted using dozens other algorithms in different stages to create an avalanche effect. The result is an encrypted file that even if decrypted is completely meaningless since the decrypted data is not the actual data but rather a set of pointers. Considering that each session of VME uses a unique Virtual Matrix, and that the data pattern within the Virtual Matrix is completely random and non-redundant, there is no way to derive the data out of the pointer set.
Stated simply, the content of the message is not sent with the encrypted data. Rather, the encrypted data consists of pointers to locations within a virtual matrix, a large (infinitely large in concept), continuously changing array of values. VME provides a data security method and apparatus that provides an exceptional degree of security at low computational cost.
VME uses a very large key of one million bits or more which creates a level of security much higher than any other existing method. The key is not transferred but is instead created from a file of any size that is available on both a computer used to send a secure message and a computer used to receive a secure message. A smaller, Specific Transaction Key is sent end-to-end and is used in conjunction with the very large key to avoid a security hazard in instances where the same file is used repeatedly to create the very large key.
A central Virtual Matrix algorithm is surrounded by a myriad of other algorithms. A single byte may be encrypted many, many times, each successive result being passed to another algorithm in what may be regarded as a random path determined by reseeding of a random number generator at various junctures using values from the very large key, the smaller key and various other user supplied parameters. These parameters include, for example, source user, destination user, file name, save-as file name, and description.
An optional higher level of security is available. If the message is secured using the same string as the file name and save-to file name, then when unlocking is attempted the first time, the original file will be overwritten, affording only single opportunity for the message to be unlocked.
A message may be secured in accordance with various options specifying an intended audience, including Global, Group, Specific and Private options. Global allows anyone having a copy of the data security software to decrypt the message providing that person has the correct keys and is able to supply parameters matching those with which the message was secured. Group allows the possibility of successful decryption by any of a number of users within a group identified by its members having copies of the software program with a common prefix. Specific allows only a user having a particular numbered copy of the software program to decrypt. Finally, Private allows decryption only by the same software copy used to secure the message originally. Without the correct keys and parameters, it is impossible for the message to be unlocked.
Security can be further enhanced by defining a date range wherein the data can be decrypted correctly, hence preventing lengthy efforts to break the code by brute computational force.
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