Fundamental Limits of Caching
TLDR
This paper proposes a novel coded caching scheme that exploits both local and global caching gains, leading to a multiplicative improvement in the peak rate compared with previously known schemes, and argues that the performance of the proposed scheme is within a constant factor of the information-theoretic optimum for all values of the problem parameters.Abstract:
Caching is a technique to reduce peak traffic rates by prefetching popular content into memories at the end users. Conventionally, these memories are used to deliver requested content in part from a locally cached copy rather than through the network. The gain offered by this approach, which we term local caching gain, depends on the local cache size (i.e., the memory available at each individual user). In this paper, we introduce and exploit a second, global, caching gain not utilized by conventional caching schemes. This gain depends on the aggregate global cache size (i.e., the cumulative memory available at all users), even though there is no cooperation among the users. To evaluate and isolate these two gains, we introduce an information-theoretic formulation of the caching problem focusing on its basic structure. For this setting, we propose a novel coded caching scheme that exploits both local and global caching gains, leading to a multiplicative improvement in the peak rate compared with previously known schemes. In particular, the improvement can be on the order of the number of users in the network. In addition, we argue that the performance of the proposed scheme is within a constant factor of the information-theoretic optimum for all values of the problem parameters.read more
Citations
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Journal ArticleDOI
Improved Converses and Gap Results for Coded Caching
TL;DR: Improved lower bounds are derived on the average and worst case rate-memory tradeoffs of the Maddah-Ali and Niesen-coded caching scenario and the new lower bound is shown to be less than 2.315 in the worst case scenario and 2.507 in the average-case scenario.
Proceedings ArticleDOI
An efficient multiple-groupcast coded multicasting scheme for finite fractional caching
Mingyue Ji,Karthikeyan Shanmugam,Giuseppe Vettigli,Jaime Llorca,Antonia M. Tulino,Giuseppe Caire +5 more
Abstract: Coded multicasting has been shown to improve the caching performance of content delivery networks with multiple caches downstream of a common multicast link. However, the schemes that have been shown to achieve order-optimal performance require content items to be partitioned into a number of packets that grows exponentially with the number of users [1]. In this paper, we first extend the analysis of the order-optimal multiple-groupcast coded multicasting scheme in [2] to the case of heterogeneous cache sizes and demand distributions, providing an achievable scheme and an upper bound on the optimal performance when the number of packets goes to infinity. We then show that the scheme achieving this upper bound can very quickly loose its promising multiplicative caching gain for finite content packetization. To overcome this limitation, we design a novel polynomial-time algorithm based on greedy local graph-coloring that, while keeping the same content packetization, recovers a significant part of the multiplicative caching gain. Our results show that the achievable schemes proposed to date to quantify the fundamental limiting performance, must be properly designed for practical regimes of finite content packetization.
Proceedings ArticleDOI
Finite length analysis of caching-aided coded multicasting
TL;DR: This paper designs a new random placement and an efficient clique cover-based delivery scheme that achieves this lower bound approximately and provides tight concentration results that show that the average number of transmissions concentrates very well requiring only a polynomial number of packets in the rest of the system parameters.
Journal ArticleDOI
Cache Aided Decode-and-Forward Relaying Networks: From the Spatial View
Junjuan Xia,Fasheng Zhou,Xiazhi Lai,Haochuan Zhang,Hongbin Chen,Qinghai Yang,Xin Liu,Junhui Zhao +7 more
TL;DR: A dual-hop relaying network, where decode-and-forward (DF) relays can assist the data transmission from the source to the destination, is considered, from which the system diversity order can be rapidly increased by using cache and the system performance can be significantly improved.
Posted Content
Scalable Content Delivery with Coded Caching in Multi-Antenna Fading Channels
TL;DR: In this paper, the authors considered the content delivery problem in a fading multi-input single-output (MISO) channel with cache-aided users and investigated the scalability of the equivalent content delivery rate when the number of users, $K$, is large.
References
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Journal ArticleDOI
Network information flow
TL;DR: This work reveals that it is in general not optimal to regard the information to be multicast as a "fluid" which can simply be routed or replicated, and by employing coding at the nodes, which the work refers to as network coding, bandwidth can in general be saved.
Journal ArticleDOI
Amortized efficiency of list update and paging rules
TL;DR: This article shows that move-to-front is within a constant factor of optimum among a wide class of list maintenance rules, and analyzes the amortized complexity of LRU, showing that its efficiency differs from that of the off-line paging rule by a factor that depends on the size of fast memory.
Proceedings ArticleDOI
Distributed Caching Algorithms for Content Distribution Networks
TL;DR: This paper develops light-weight cooperative cache management algorithms aimed at maximizing the traffic volume served from cache and minimizing the bandwidth cost, and establishes that the performance of the proposed algorithms is guaranteed to be within a constant factor from the globally optimal performance.
Journal ArticleDOI
Index Coding With Side Information
TL;DR: A measure on graphs, the minrank, is identified, which exactly characterizes the minimum length of linear and certain types of nonlinear INDEX codes and for natural classes of side information graphs, including directed acyclic graphs, perfect graphs, odd holes, and odd anti-holes, minrank is the optimal length of arbitrary INDex codes.
Journal ArticleDOI
Comparative Models of the File Assignment Problem
TL;DR: This perspective exposes the further research which is necessary in order to provide a truly satisfactory solution to the file assignment problem.