7,523 research outputs found
Cost-Efficient Data Backup for Data Center Networks against {\epsilon}-Time Early Warning Disaster
Data backup in data center networks (DCNs) is critical to minimize the data
loss under disaster. This paper considers the cost-efficient data backup for
DCNs against a disaster with early warning time. Given
geo-distributed DCNs and such a -time early warning disaster, we
investigate the issue of how to back up the data in DCN nodes under risk to
other safe DCN nodes within the early warning time constraint,
which is significant because it is an emergency data protection scheme against
a predictable disaster and also help DCN operators to build a complete backup
scheme, i.e., regular backup and emergency backup. Specifically, an Integer
Linear Program (ILP)-based theoretical framework is proposed to identify the
optimal selections of backup DCN nodes and data transmission paths, such that
the overall data backup cost is minimized. Extensive numerical results are also
provided to illustrate the proposed framework for DCN data backup
Wireless Communication in Data Centers: A Survey
Data centers (DCs) is becoming increasingly an integral part of the computing infrastructures of most enterprises. Therefore, the concept of DC networks (DCNs) is receiving an increased attention in the network research community. Most DCNs deployed today can be classified as wired DCNs as copper and optical fiber cables are used for intra- and inter-rack connections in the network. Despite recent advances, wired DCNs face two inevitable problems; cabling complexity and hotspots. To address these problems, recent research works suggest the incorporation of wireless communication technology into DCNs. Wireless links can be used to either augment conventional wired DCNs, or to realize a pure wireless DCN. As the design spectrum of DCs broadens, so does the need for a clear classification to differentiate various design options. In this paper, we analyze the free space optical (FSO) communication and the 60 GHz radio frequency (RF), the two key candidate technologies for implementing wireless links in DCNs. We present a generic classification scheme that can be used to classify current and future DCNs based on the communication technology used in the network. The proposed classification is then used to review and summarize major research in this area. We also discuss open questions and future research directions in the area of wireless DCs
Identifiability and transportability in dynamic causal networks
In this paper we propose a causal analog to the purely observational Dynamic Bayesian Networks, which we call Dynamic Causal Networks.
We provide a sound and complete algorithm for identification of Dynamic Causal Networks, namely, for computing the effect of an intervention or experiment, based on passive observations only, whenever possible. We note the existence of two types of confounder variables that affect in substantially different ways the identification
procedures, a distinction with no analog in either Dynamic Bayesian Networks or standard causal graphs. We further propose a procedure
for the transportability of causal effects in Dynamic Causal Network settings, where the result of causal experiments in a source domain may be used for the identification of causal effects in a target domain.Preprin
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