The benchmark result on STM32F4 Discovery board equipped with 32-bit ARM Cortex-M4 microcontrollers shows that the entire key encapsulation over p434 takes about 326 million clock cycles (i.e. 1.94 seconds @168MHz).
May 22, 2019
Oct 11, 2019 · The proposed library introduces a new speed record of SIKE protocol on the target platform. We achieved this record by adopting several state-of ...
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Apr 13, 2020 · The proposed library introduces a new speed record of all SIKE Round 2 protocols with reasonable memory consumption on the low-end target ...
In comparison to the most of the post-quantum candidates, SIKE requires an excessive number of arithmetic operations, resulting in significantly slower ...
Abstract. We present the optimized software implementation of Super- singular Isogeny Key Encapsulation (SIKE) round 2, on low-end 32-bit. ARM Cortex-M4 ...
Oct 25, 2019 · We present the first practical software implementation of Supersingular Isogeny Key Encapsulation (SIKE) round 2, targeting NIST's 1, 2, ...
SIKE Round 2 Speed Record on ARM Cortex-M4_발표자료.pdf. Top ...
Oct 25, 2019 · We present the first practical software implementation of Supersingular Isogeny Key Encapsulation (SIKE) round 2, targeting NIST's 1, 2, ...
SIKE Round 2 Speed Record on ARM Cortex-M4_논문.pdf · File metadata and controls · Footer.
Sep 8, 2021 · The paper shows that an ephemeral key exchange. (i.e., SIDHp751) on a 32-bit ARM Cortex-M4@120 MHz requires 18.833 seconds to perform - too slow ...