English

Capacity-Achieving PIR Schemes with Optimal Sub-Packetization

Information Theory 2017-11-01 v1 math.IT

Abstract

Suppose a database containing MM records is replicated across NN servers, and a user wants to privately retrieve one record by accessing the servers such that identity of the retrieved record is secret against any up to TT servers. A scheme designed for this purpose is called a private information retrieval (PIR) scheme. In practice, capacity-achieving and small sub-packetization are both desired for PIR schemes, because the former implies the highest download rate and the latter usually means simple realization. For general values of N,T,MN,T,M, the only known capacity-achieving PIR scheme was designed by Sun and Jafar in 2016 with sub-packetization NMN^M. In this paper, we design a linear capacity-achieving PIR scheme with much smaller sub-packetization dnM1dn^{M-1}, where d=gcd(N,T)d={\rm gcd}(N,T) and n=N/dn=N/d. Furthermore, we prove that for any linear capacity-achieving PIR scheme it must have sub-packetization no less than dnM1dn^{M-1}, implying our scheme has the optimal sub-packetization. Moreover, comparing with Sun and Jafar's scheme, our scheme reduces the field size by a factor of 1NdM2\frac{1}{Nd^{M-2}}.

Keywords

Cite

@article{arxiv.1710.11370,
  title  = {Capacity-Achieving PIR Schemes with Optimal Sub-Packetization},
  author = {Zhifang Zhang and Jingke Xu},
  journal= {arXiv preprint arXiv:1710.11370},
  year   = {2017}
}

Comments

16pages

R2 v1 2026-06-22T22:30:56.368Z