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Title:
MacaKey: Full-State Keyed Sponge Meets the Summation-Truncation Hybrid
Authors: Charlotte Lefevre, Mario Marhuenda Beltrán
Abstract:The keyed sponge construction has benefited from various efficiency advancements over time, most notably leading to the possibility to absorb over the entire state, as in the full-state keyed sponge. However, squeezing has always remained limited to blocks smaller than the permutation size, as security is determined by the capacity c, the size of the non-squeezed state. In this work, we present Macakey, an improved version of the full-state keyed sponge that not only absorbs over the entire state but also squeezes over the entire state. The scheme combines ideas of the full-state keyed sponge with those of the summation-truncation hybrid of Gunsing and Mennink. We demonstrate that, with no sacrifice in generic security and with only using c bits of extra storage, Macakey can significantly boost performance, particularly in scenarios requiring large amounts of output. For example, using the 320-bit Ascon permutation with a 256-bit capacity, Macakey outputs five times as many bits as the full-state keyed sponge.
ePrint: https://eprint.iacr.org/2025/893
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