DiceLock Security Blog

Once the change performed as explained in post Modified bit level of CryptoRandomStream namespace to match needs of DiceChecker and HashDigester products has been made and frequency test has been verfied, new verfications of AES 256 (Advanced Encryption Standard) with OFB mode in order to generate randomized encrypted sequences are made.

Continuing with Approximate Entropy random number test at a 99,9% conffidence level executed with ApproximateEntropyTest class implemented in DiceChecker product we can see that it generates random encrypted sequences with a great confidence …

Click here if you want to read more on … AES 256 (Advanced Encryption Standard) in OFB mode generates randomized encrypted text checked with approximate entropy random number test at 99,9 per cent confidence

As performance execution is an important issue to encryption we need to know time performance relation between Ripemd 128 hash algorithm and the cipher algorithms implemented in DiceLock. We’ve got hash algorithm time relation with bit stream length.

To perform the analysis we’ve used our future product DiceLock cipher and CounterTime class (counterTime.h and counterTime.cpp files available at our Knowledge site) of DiceLockTime DLL

We’ve checked that a linear regression formula with great confidence has been computed which will allow us to extract DiceLock components relations.

Click here if you want to read more on … Established Ripemd 128 hash algorithm execution time relation with bit stream length

Once the change performed as explained in post Modified bit level of CryptoRandomStream namespace to match needs of DiceChecker and HashDigester products has been made and frequency test has been verfied, new verfications of AES 192 (Advanced Encryption Standard) with OFB mode in order to generate randomized encrypted sequences are made.

Continuing with Approximate Entropy random number test at a 99,9% conffidence level executed with ApproximateEntropyTest class implemented in DiceChecker product we can see that it generates random encrypted sequences with a great confidence …

Click here if you want to read more on … AES 192 (Advanced Encryption Standard) in OFB mode generates randomized encrypted text checked with approximate entropy random number test at 99,9 per cent confidence

As performance execution is an important issue to encryption we need to know time performance relation between SHA 512 secure hash algorithm and the cipher algorithms implemented in DiceLock. We’ve got hash algorithm time relation with bit stream length.

To perform the analysis we’ve used our future product DiceLock cipher and CounterTime class (counterTime.h and counterTime.cpp files available at our Knowledge site) of DiceLockTime DLL

We’ve checked that a linear regression formula with great confidence has been computed which will allow us to extract DiceLock components relations.

Click here if you want to read more on … Established SHA 512 secure hash algorithm execution time relation with bit stream length