Private Information Retrieval from Joint Systematic MDS-Coded with Non-Colluding Servers: Bounds and Constructions

Abstract

Consider a distributed storage system consisting of N non-colluding servers that collectively store a database of M files encoded using an [N,K] maximum distance separable(MDS) code. A user wishes to retrieve one file privately by accessing the servers without revealing the identity of the requested file. A scheme designed for this purpose is called a joint MDS-coded private information retrieval(PIR) scheme, which was first introduced by Sun and Tian in 2019 to break the capacity 1-K/N1-(K/N)M of the separate MDS-coded PIR schemes established by Banawan and Ulukus. However, the capacity of joint MDS-coded PIR remains largely unexplored. In this paper, we study the capacity of joint MDS-coded PIR with systematic MDS array storage codes under prescribed storage patterns. Specifically, we first derive upper bounds on the capacity of joint MDS-coded PIR for K=Mt and K=Mt+1, respectively. We then construct three joint MDS-coded PIR schemes for the cases N K+t, K=Mt, N>K+t, K=Mt and N K+t, K=Mt+1. The proposed schemes require small file sizes and achieve higher retrieval rates: the first and third schemes exceed the capacity of separate MDS-coded PIR schemes, while the second scheme does so when the storage rate KN>rM for some 0<rM<MM+1. In particular, for K=Mt and N≤ K+t, the proposed scheme achieves the derived upper bound, thereby establishing that the optimal joint MDS-coded PIR capacity under the considered storage pattern is 1-(1-1M)KN. Compared with capacity-achieving separate MDS-coded PIR schemes at the same storage-code rate, the proposed schemes may achieve a substantial relative retrieval-rate improvement: the maximum improvement can exceed 15\% when M≥ 4, exceed 20\% when M≥ 9, and asymptotically approach 1-2/e≈ 26.42\% as M increases.