@techreport{oai:ipsj.ixsq.nii.ac.jp:00235051,
 author = {Iu-Iong, Ng and Iu-Iong, Ng},
 issue = {4},
 month = {Jun},
 note = {In this paper, we calculate the upper bound on quantum space complexity of the quantum algorithms proposed by Biasse and Song (SODA'16) for solving class group computation and the principal ideal problem using the reductions to S-unit group computation. We follow the approach of Barbulescu and Poulalion (AFRICACRYPT'23) and the framework given by de Boer, Ducas, and Fehr (EUROCRYPT'20) and Eisentrger, Hallgren, Kitaev, and Song (STOC'14)., In this paper, we calculate the upper bound on quantum space complexity of the quantum algorithms proposed by Biasse and Song (SODA'16) for solving class group computation and the principal ideal problem using the reductions to S-unit group computation. We follow the approach of Barbulescu and Poulalion (AFRICACRYPT'23) and the framework given by de Boer, Ducas, and Fehr (EUROCRYPT'20) and Eisentrger, Hallgren, Kitaev, and Song (STOC'14).},
 title = {Upper bounding the quantum space complexity for computing class group and principal ideal problem},
 year = {2024}
}