On The Road with Michael McKibben and Douglass Gabriel

On The Road with Michael McKibben and Douglass Gabriel as they launch the
The MySQIF™ Privacy App™

Polymorphic Encryption
Protect yourself from public & private predators who violate your God-given rights.

MySQIF™ Privacy App™ uses polymorphic encryption that generates tens of thousands of one-time, unclonable keys for a single encrypted file. These one-time key clusters or "shards" are based upon unique hardware fingerprints on the sending and receiving devices.

MySQIF™ Privacy App™ keys dissolve after one-time use. Hypothetically, in the unlikely event that the master key was somehow intercepted in the split-second it exists, decryption can only occur on the sender's and receiver's devices.

Most encryption systems generate a static public key and a static private key to encrypt data. They promise privacy, security, safety, and trust as the lure, but then are easily cracked or contain backdoors in collusion with predatory, government and private entities. These dishonest people use "national security" as their threadbare excuse to violate privacy, steal property, launder money, enslave, brainwash, and poison your body.

A Fujitsu simulation showed that it would take approximately three (3) seconds to break AES-256--the current gold standard for encryption. Further, they estimate that military-grade AES-2048 would take about 104 days to crack. Clearly, AES is susceptible to quantum attack.

However, quantum computers do not change the mathematics of information theory. Shards, the minute (prounounced "my-noot") sub sections of the encrypted ​MySQIF™ file do not contain enough information to be broken by either classical or quantum computers.

QUANTUM-PROOF

MySQIF™ Privacy App's polymorphic encryption is quantum-proof. To date it has not been broken by quantum approaches. We can say confidently that quantum computers are not able to crack a MySQIF™-encrypted file within many lifetimes.

The problem a quantum challenger has is time and money. Quantum computers are time consuming and expensive, and they have limited output. A quantum project manager must ask: "Is it worth it to use my powerful but limited quantum computing power on an experiment to crack ​MySQIF™ since the output might simply be a cat picture--and take years, decades, centuries, lifetimes, or millenia to accomplish?!"

Mathematically, "average" encryption being cracked on a powerful computer takes about 10 to the 300th power in seconds -- just 5-10 minutes at best. AES-256, the current gold standard, takes several seconds.

By comparison, a MySQIF™-encrypted file takes 10 to the 1500th power seconds --three lifetimes of the universe. The way MySQIF™ works mathematically, backdoors are impossible.