DBpedia – Linked Data Fragments

Matches in DBpedia 2016-04 for { ?s ?p "Lane is a cryptographic hash function submitted to the NIST hash function competition; it was designed by Sebastiaan Indesteege with contributions by Elena Andreeva, Christophe De Cannière, Orr Dunkelman, Emilia Käsper, Svetla Nikova, Bart Preneel and Elmar Tischhauser. It re-uses many components from AES in a custom construction. The authors claim performance of up to 25.66 cycles per byte on an Intel Core 2 Duo."@en }

• Lane_(hash_function) abstract "Lane is a cryptographic hash function submitted to the NIST hash function competition; it was designed by Sebastiaan Indesteege with contributions by Elena Andreeva, Christophe De Cannière, Orr Dunkelman, Emilia Käsper, Svetla Nikova, Bart Preneel and Elmar Tischhauser. It re-uses many components from AES in a custom construction. The authors claim performance of up to 25.66 cycles per byte on an Intel Core 2 Duo.".
• Q6485339 abstract "Lane is a cryptographic hash function submitted to the NIST hash function competition; it was designed by Sebastiaan Indesteege with contributions by Elena Andreeva, Christophe De Cannière, Orr Dunkelman, Emilia Käsper, Svetla Nikova, Bart Preneel and Elmar Tischhauser. It re-uses many components from AES in a custom construction. The authors claim performance of up to 25.66 cycles per byte on an Intel Core 2 Duo.".
• Lane_(hash_function) comment "Lane is a cryptographic hash function submitted to the NIST hash function competition; it was designed by Sebastiaan Indesteege with contributions by Elena Andreeva, Christophe De Cannière, Orr Dunkelman, Emilia Käsper, Svetla Nikova, Bart Preneel and Elmar Tischhauser. It re-uses many components from AES in a custom construction. The authors claim performance of up to 25.66 cycles per byte on an Intel Core 2 Duo.".
• Q6485339 comment "Lane is a cryptographic hash function submitted to the NIST hash function competition; it was designed by Sebastiaan Indesteege with contributions by Elena Andreeva, Christophe De Cannière, Orr Dunkelman, Emilia Käsper, Svetla Nikova, Bart Preneel and Elmar Tischhauser. It re-uses many components from AES in a custom construction. The authors claim performance of up to 25.66 cycles per byte on an Intel Core 2 Duo.".