English

Cache-aided Interference Management using Hypercube Combinatorial Cache Design with Reduced Subpacketizations and Order Optimal Sum-Degrees of Freedom

Information Theory 2021-01-05 v2 math.IT

Abstract

We consider a cache-aided interference network which consists of a library of NN files, KTK_T transmitters and KRK_R receivers (users), each equipped with a local cache of size MTM_T and MRM_R files respectively, and connected via a discrete-time additive white Gaussian noise (AWGN) channel. Each receiver requests an arbitrary file from the library. The objective is to design a cache placement without knowing the receivers' requests and a communication scheme such that the sum Degrees of Freedom (sum-DoF) of the delivery is maximized. This network model with one-shot transmission was firstly investigated by Naderializadeh {\em et al.}, who proposed a scheme that achieves a one-shot sum-DoF of min{MTKT+KRMRN,KR}\min\{\frac{{M_TK_T+K_RM_R}}{{N}}, K_R\}, which is optimal within a constant of 22. One of the biggest limitations of this scheme is the requirement of high subpacketization level. This paper attempts to design new algorithms to reduce the file subpacketization in such a network without hurting the sum-DoF. In particular, we propose a new approach for both prefetching and linearly coded delivery based on a combinatorial design called {\em hypercube}. The proposed approach reduces the subpacketization exponentially in terms of KRM/NK_R M/N and achieves the identical one-shot sum DoF when MTKT+KRMRNKR\frac{M_TK_T+K_RM_R}{N} \leq K_R.

Keywords

Cite

@article{arxiv.2008.08978,
  title  = {Cache-aided Interference Management using Hypercube Combinatorial Cache Design with Reduced Subpacketizations and Order Optimal Sum-Degrees of Freedom},
  author = {Xiang Zhang and Nicholas Woolsey and Mingyue Ji},
  journal= {arXiv preprint arXiv:2008.08978},
  year   = {2021}
}

Comments

arXiv admin note: substantial text overlap with arXiv:1902.00135

R2 v1 2026-06-23T17:59:30.202Z