|
|
| Enigma, JN-25, Purple, DES, WEP, A5/1, A5/2 have all been broken. Isn't it time for something truly ultimate? |
|
PMC is the inventor of Polymorphic Encryption, a unique technology that compiles conceptually different and ultra-secure ciphers from the key. We thus take advantage of something truly ultimate: more algorithms than there are atoms in (known parts of) the universe. Nobody has yet been able to formulate anything that might even look like an attack. Ten years after creating the first Polymorphic Block Cipher, PMC Ciphers now comes up with a Polymorphic Block cipher with a fully variable block size. Block size can vary between 16 bytes to hundreds of megabytes. Each bit in a block depends on each other bit. The concept is more ultimate than ever.
+++ IMPORTANT NOTICE +++ PMC Ciphers use new e-mail addresses. Click here for more info +++
|
|
|
The Polymorphic Cipher and the Giant Block Size Polymorphic Cipher -
PMC Ciphers is the inventor of truly ultimate data encryption
|
Feature
|
|
Giant Block Size Polymorphic Cipher
|
|
AES
|
|
Block size
|
|
128 bit ... > 100 megabit
|
X
|
only 128 bit
|
|
Key size
|
|
1024 bit, 6144 bit or more
|
X
|
only 128, 192, 256 bit
|
|
SAC
|
|
every bit in a block depends on every other bit
|
X
|
only for the first 128 bit
|
|
Block length
|
|
totally variable: 16, 17, 18, 1059, 1156723 byte, etc.
|
X
|
128 bit granularity
|
|
High speed
|
|
1.5 gigabit/s (64 bit C++ code, Intel Core i950, 3.06GHz
|
X
|
33% slower on same CPU
|
|
Key setup
|
|
very time consuming =>time-consuming to attack
|
X
|
good for codebreakers
|
|
Design
|
|
totally variable (polymorphic)
|
X
|
fixed cipher
|
|
Special
achievements
|
|
Cipher holds world record for biggest block size ever. Biggest single block so far realized: 2 gigabit
|
X
|
128 bit block size
|
|
Code breaking machines that contain 1000 silicon wafers with over a million AES blocks per 8'' wafer each being able to try at least one million keys per second, can try 86.400.000.000.000.000.000 = 8.64*1019 key combinations per day !
That might be the reason why the AES cipher is so heavily promoted by government organizations that are in place to spy on citizens of other countries (and sometimes on their own compatriots).
PMC Ciphers is all about REAL data encryption. This means that we make it ultimately hard for people who want to break the codes of our customers.
This is how it's done:
Unlike conventional ciphers, the n bit long encryption key (that is entered by the user) is used to compile one out of 2n equally probable encryption algorithms. In contrast to this do conventional ciphers like AES or DES use a fixed algorithm, which opens all doors for applying cryptanalysis to try and break the cipher. For DES, which only lasted for approximately 20 years, it was sufficient to run a bunch of code breaking chips in parallel to break the cipher in 1998. The enigma cipher machine used by the German military during world war 2 was also broken mainly by trying different key combinations. What worked then may also work today (it did several decades later with DES although all so-called "experts" said that this was impossible). So why not hardening ciphers against this kind of attack? The attack, which works for all ciphers regardless of their underlying construction is called "Brute Force Attack".
Our latest development, the Giant Block Size Polymorphic Cipher has the potential to redefine the entire encryption technology. Not only is the revolutionary concept of using an almost arbitrary number of ciphers that are selected by the key implemented, but also a totally arbitrary block size! There is no need for using a small cipher in CBC (Cipher Block Chaining) or XTS (XEX-based Tweaked CodeBook) mode or whatever method to fix the obvious shortcomings of AES that is in fashion this year, while still having to pad data blocks with zero bytes. A 1256 byte long TCP data packet is still 1256 bytes long after encryption using the Giant Block Size Polymorphic Cipher. Block size is in this case exactly 1256 bytes. When encrypting a photo with 120 kbyte size, block size is 120 kbyte and not a single byte needs to be padded. Even more stunning is the capability of the Giant Block Size Polymorphic Cipher that each bit in a block depends on any other bit. Yes, even if a block is 1 megabyte in size, each bit depends on each other! In contrast to AES operated in any mode, all bits in a (let's say) 1256759 byte block depend on each other. The new cipher thus perfectly satisfies the Strict Avalanche Criterion (SAC), which cannot be met by any conventional cipher as AES, Twofish or DES for data packets exceeding the block length of only 16 bytes (8 bytes for DES). Please click here to read more.
In the case of the 1024 bit Polymorphic Cipher that is implemented in the new TurboCrypt On-The-Fly Disk Encryption software, your key compiles into one of 1.79769323486*10308 equally probable ciphers! Currently there exists nothing as powerful as Polymorphic Encryption. You're cordially invited to read more about Polymorphic Encryption and to use TurboCrypt for free!
|
|
A Polymorphic cipher is basically a "Cipher of Ciphers". The following links contain a good explanation of what this unique technology is all about:
The Giant Block Size Polymorphic Cipher offers maximization of the attack security by providing huge and variable block sizes, massive avalanche effect, bit independence and nonlinearity:
Conventional ciphers like AES exhibit no avalanche at all for the typical block sizes of internet data packets (17 .. 1492 bytes). Popular block ciphers feature tiny block sizes of typically 16 bytes (128 bits). This is almost nothing compared with the size of today’s user data packets and text- or multimedia files. With increasing block size, the number of bytes to pad increases as well, especially for data that is exchanged through the internet with comparably small MTU sizes. Please follow the links below to learn more about the new cipher:
| ‘Type 1’ 1024 bit Polymorphic Cipher with giant crypto context and extra-long crypto context setup running natively on 32 bit and 64 bit microprocessors. The paper contains all details about the underlying construction of our new flagship cipher. This 1024 bit block cipher features a 1024 bit S-Box and thus outperforms AES Rijndael with its comparably small 128 bit S-box by 20% in terms of encryption/decryption speed on modern 64 bit microprocessors while preserving the capability to resists to all kinds of attack, including Power Attacks, where AES demonstrably fails. The encryption algorithm is designed for use in the TurboCrypt OTFE (disk encryption software) and similar applications tolerating long key setup time and excessive use of hardware resources. For more detailed information, please click here to read the paper (PDF). |
|
|
TurboCrypt is our flagship disk encryption product outperforming the competition in terms of data security. The following links are available:
Download and purchase TurboCrypt directly here:
TurboCrypt is the only commercially available disk encryption software that is immune to Mount Control Code Attack and Backup Attack.
It is further the only commercially available disk encryption software that allows for totally secure password entry. The built-in Trojan-Horse-proof Virtual Keyboard prevents malicious software like Trojan Horses and Computer Viruses from reconstructing user entry from mouse movements and screen logs.
In addition to FIPS-197 compliant AES encryption using four separate 256 bit AES engines users have the ultra-high security 1024 PMC encryption at their disposition. Polymorphic Encryption is a former state secret of Germany. Since its invention in the late 90's we've further improved the principle. There exists NO attack on this class of ciphers.
|
|
|
|
|
|