International Association for Cryptologic Research

International Association
for Cryptologic Research


Paper: Bit Security as Computational Cost for Winning Games with High Probability

Shun Watanabe , Tokyo University of Agriculture and Technology
Kenji Yasunaga , Osaka University
DOI: 10.1007/978-3-030-92078-4_6
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Presentation: Slides
Conference: ASIACRYPT 2021
Abstract: We introduce a novel framework for quantifying the bit security of security games. Our notion is defined with an operational meaning that a $\lambda$-bit secure game requires a total computational cost of $2^\lambda$ for winning the game with high probability, e.g., 0.99. We define the bit security both for search-type and decision-type games. Since we identify that these two types of games should be structurally different, we treat them differently but define the bit security using the unified framework to guarantee the same operational interpretation. The key novelty of our notion of bit security is to employ two types of adversaries: inner adversary and outer adversary. While the inner adversary plays a ``usual'' security game, the outer adversary invokes the inner adversary many times to amplify the winning probability for the security game. We find from our framework that the bit security for decision games can be characterized by the information measure called the \emph{R\'enyi divergence} of order $1/2$ of the inner adversary. The conventional ``advantage,'' defined as the probability of winning the game, characterizes our bit security for search-type games. We present several security reductions in our framework for justifying our notion of bit security. Many of our results quantitatively match the results for the bit security notion proposed by Micciancio and Walter in 2018. In this sense, our bit security strengthens the previous notion of bit security by adding an operational meaning. A difference from their work is that, in our framework, the Goldreich-Levin theorem gives an optimal reduction only for ``balanced'' adversaries who output binary values in a balanced manner.
Video from ASIACRYPT 2021
  title={Bit Security as Computational Cost for Winning Games with High Probability},
  author={Shun Watanabe and Kenji Yasunaga},