Optimizing Fast Near Collision Attack on Grain Using Linear Programming

Abstract: In 2018, an attack named fast-near-collision attack (FNCA) was proposed, which is an improved version of near-collision attack (NCA) on Grain-v1, one of the three hardware-oriented finalists of the eSTREAM project. FNCA is designed as a key recovery attack and takes a divide-and-conquer strategy that needs a merging phase. We propose an improved FNCA where the merging phase is optimized by a linear programming based strategy. It decreases the candidates of the internal state vectors (ISVs) in each step of merg… Show more

“…The work also compares the proposed design with existing work with area and throughput improvements. Pan et al [15] explain the Grain based near collision attack (NCA) with fast optimization process using linear programming. The timing complexity is reduced to 27% by merging the internal states-a 79.4% reduction of theoretical timing complexity than conventional Grain v1 cipher.…”

An efficient Grain-80 stream cipher with unrolling features to enhance the throughput on hardware platform

“…The work also compares the proposed design with existing work with area and throughput improvements. Pan et al [15] explain the Grain based near collision attack (NCA) with fast optimization process using linear programming. The timing complexity is reduced to 27% by merging the internal states-a 79.4% reduction of theoretical timing complexity than conventional Grain v1 cipher.…”

An efficient Grain-80 stream cipher with unrolling features to enhance the throughput on hardware platform