Blog Posts - Virtual Memory



Top AIX UNIX Performance tracking commands every Linux admin / user should know

Though IBM AIX is basicly UNIX OS and many of the standard Linux commands are same or similar to AIX's if you happen to be a Linux sysadmin and you've been given some 100 AIX servers,  you will have to invest some time to read on AIX, ho...

Speed up WordPress / Joomla CMS and MySQL server on Linux with tmpfs ram file system / Decrease Website pageload times with RAM caching

As a WordPress blog owner and an sys admin that has to deal with servers running a lot of WordPress / Joomla / Droopal and other custom CMS installed on servers, performoing slow or big enough to put a significant load on servers and I love...

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Camellia 192 and IncreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Camellia 192 and DecreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Camellia 256 and IncreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Camellia 256 and DecreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Serpent 128 and IncreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Serpent 128 and DecreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Serpent 192 and IncreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Serpent 192 and DecreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Serpent 256 and IncreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Linux C++ test driver program, CheckDiceLockIVIndexed-OFB-x, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockIVIndexed, output feedback OFB, Serpent 256 and DecreaseBase0IndexModifier 6.0.0.1

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Nov 13, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedFull, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Camellia 192 and DecreaseBase0IndexModifier 6.0.0.1 working over full plaintext

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedSector, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Camellia 192 and DecreaseBase0IndexModifier 6.0.0.1 working over storage sector length

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedFull, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Camellia 256 and IncreaseBase0IndexModifier 6.0.0.1 working over full plaintext

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedSector, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Camellia 256 and IncreaseBase0IndexModifier 6.0.0.1 working over storage sector length

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedFull, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Camellia 256 and DecreaseBase0IndexModifier 6.0.0.1 working over full plaintext

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedSector, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Camellia 256 and DecreaseBase0IndexModifier 6.0.0.1 working over storage sector length

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedFull, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Serpent 128 and IncreaseBase0IndexModifier 6.0.0.1 working over full plaintext

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014

Windows C++ test driver program, CheckDiceLockXTSIndexedSector, and test vector files to verify DiceLock 9.0.0.1 architecture: DiceLockXTSIndexed, Serpent 128 and IncreaseBase0IndexModifier 6.0.0.1 working over storage sector length

DiceLock cipher architecure presents multiple possible configurations, for this reason DiceLock implementation verification has been splitted into different sets. This verification set selection is based on DiceLock main class options, DiceLockIndexe...
by DiceLock Security Blog on Oct 24, 2014


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