An Efficient Method for Comparing Numbers and Determining the Sign of a Number in RNS for Even Ranges

Tchernykh, Andrei; Babenko, Mikhail; Shiriaev, Egor; Pulido-Gaytán, Bernardo; Cortés-Mendoza, Jorge M.; Avetisyan, Arutyun; Drozdov, Alexander Yu.; Kuchukov, Viktor

doi:10.3390/computation10020017

Cited by 6 publications

(3 citation statements)

References 25 publications

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“…Formally, for a given set of primes 𝒫 , there exists two distinct integers, x and y , such that − N < y < 0 < x < N , yet x mod 𝒫 = y mod 𝒫 . To tackle this sign issue, we follow [6,31], and use an additional bit. This extra bit can be employed as a sign bit, ensuring that x mod 𝒫 and y mod 𝒫 possess unique representations.…”

Section: System Description and Empirical Evaluationmentioning

confidence: 99%

“…Despite this, due to the modulo operations inherent in our system, our value image range is confined to [0, N − 1], where N is the product of all primes used. Formally, for a given set of primes P, there exists two distinct integers, x and y, such that −N < y < 0 < x < N , yet x mod P = y mod P. To tackle this sign issue, we follow [6,31], and use an additional bit. This extra bit can be employed as a sign bit, ensuring that x mod P and y mod P possess unique representations.…”

Section: System Description and Empirical Evaluationmentioning

confidence: 99%

See 1 more Smart Citation

Privacy Preserving Epigenetic PaceMaker Stronger Privacy and Improved Efficiency

Goldenberg,

Mualem,

Shahar

et al. 2024

Preprint

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DNA methylation data plays a crucial role in estimating chronological age in mammals, offering real-time insights into an individual’s aging process. The Epigenetic Pacemaker (EPM) model allows inference of the biological age as deviations from the population trend. Given the sensitivity of this data, it is essential to safeguard both inputs and outputs of the EPM model. In a recent study by Goldenberg et al., a privacy-preserving approach for EPM computation was introduced, utilizing Fully Homomorphic Encryption (FHE). However, their method had limitations, including having high communication complexity and being impractical for large datasets Our work presents a new privacy preserving protocol for EPM computation, analytically improving both privacy and complexity. Notably, we employ a single server for the secure computation phase while ensuring privacy even in the event of server corruption (compared to requiring two non-colluding servers in Goldenberg et al.). Using techniques from symbolic algebra and number theory, the new protocol eliminates the need for communication during secure computation, significantly improves asymptotic runtime and and offers better compatibility to parallel computing for further time complexity reduction. We have implemented our protocol, demonstrating its ability to produce results similar to the standard (insecure) EPM model with substantial performance improvement compared to Goldenberg et al. These findings hold promise for enhancing data security in medical applications where personal privacy is paramount. The generality of both the new approach and the EPM, suggests that this protocol may be useful to other uses employing similar expectation maximization techniques.

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Section: System Description and Empirical Evaluationmentioning

confidence: 99%

Section: System Description and Empirical Evaluationmentioning

confidence: 99%

Privacy Preserving Epigenetic PaceMaker Stronger Privacy and Improved Efficiency

Goldenberg,

Mualem,

Shahar

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…The architecture of computing systems operating in RNS generally consists of forward conversion of positional numbers into RNS [3], computation of the main problem using modular addition [4], multiplication [5], number comparison and sign determination [6] operations, reconversion from RNS to positional number system [7][8][9][10][11][12][13][14]. Furthermore, if addition, subtraction, multiplication in RNS have a parallel structure with numbers of small dimensions, then the operations of sign determination, comparison, conversion from RNS to the positional number system require the calculation of the positional characteristic of the number, which is computationally complex.…”

Section: Introductionmentioning

confidence: 99%

Performance Analysis of Hardware Implementations of Reverse Conversion from the Residue Number System

et al. 2022

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The Residue Number System (RNS) is a non-positional number system that allows parallel computations without transfers between digits. However, some operations in RNS require knowledge of the positional characteristic of a number. Among these operations is the conversion from RNS to the positional number system. The methods of reverse conversion for general form moduli based on the Chinese remainder theorem and the mixed-radix conversion are considered, as well as the optimized methods for special form moduli. In this paper, a method is proposed that develops the authors’ ideas based on the modified mixed-radix conversion and reference points. The modified method based on the mixed-radix conversion in this case makes it possible to replace the operation of finding the residue of division by a large modulo with the sequential calculation of the residue. The method of reference points allows to reduce the size of the stored information compared to the use of ROM to store all the residues of RNS. The application of this approach makes it possible to find a balance between the speed of the calculation and the hardware used, by varying the number of moduli of one method and the other.

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Modification of the Projection Method to Correct Errors in RNS

Shiriaev

Kuchukov

Kucherov

2023

Lecture Notes in Networks and Systems

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An Efficient Method for Comparing Numbers and Determining the Sign of a Number in RNS for Even Ranges

Cited by 6 publications

References 25 publications

Privacy Preserving Epigenetic PaceMaker Stronger Privacy and Improved Efficiency

Privacy Preserving Epigenetic PaceMaker Stronger Privacy and Improved Efficiency

Performance Analysis of Hardware Implementations of Reverse Conversion from the Residue Number System

Modification of the Projection Method to Correct Errors in RNS

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