13,763 research outputs found
milliProxy: a TCP Proxy Architecture for 5G mmWave Cellular Systems
TCP is the most widely used transport protocol in the internet. However, it
offers suboptimal performance when operating over high bandwidth mmWave links.
The main issues introduced by communications at such high frequencies are (i)
the sensitivity to blockage and (ii) the high bandwidth fluctuations due to
Line of Sight (LOS) to Non Line of Sight (NLOS) transitions and vice versa. In
particular, TCP has an abstract view of the end-to-end connection, which does
not properly capture the dynamics of the wireless mmWave link. The consequence
is a suboptimal utilization of the available resources. In this paper we
propose a TCP proxy architecture that improves the performance of TCP flows
without any modification at the remote sender side. The proxy is installed in
the Radio Access Network, and exploits information available at the gNB in
order to maximize throughput and minimize latency.Comment: 7 pages, 6 figures, 2 tables, presented at the 2017 51st Asilomar
Conference on Signals, Systems and Computers, Pacific Grove, CA, 201
Feasibility Study of Enabling V2X Communications by LTE-Uu Radio Interface
Compared with the legacy wireless networks, the next generation of wireless
network targets at different services with divergent QoS requirements, ranging
from bandwidth consuming video service to moderate and low date rate machine
type services, and supporting as well as strict latency requirements. One
emerging new service is to exploit wireless network to improve the efficiency
of vehicular traffic and public safety. However, the stringent packet
end-to-end (E2E) latency and ultra-low transmission failure rates pose
challenging requirements on the legacy networks. In other words, the next
generation wireless network needs to support ultra-reliable low latency
communications (URLLC) involving new key performance indicators (KPIs) rather
than the conventional metric, such as cell throughput in the legacy systems. In
this paper, a feasibility study on applying today's LTE network infrastructure
and LTE-Uu air interface to provide the URLLC type of services is performed,
where the communication takes place between two traffic participants (e.g.,
vehicle-to-vehicle and vehicle-to-pedestrian). To carry out this study, an
evaluation methodology of the cellular vehicle-to-anything (V2X) communication
is proposed, where packet E2E latency and successful transmission rate are
considered as the key performance indicators (KPIs). Then, we describe the
simulation assumptions for the evaluation. Based on them, simulation results
are depicted that demonstrate the performance of the LTE network in fulfilling
new URLLC requirements. Moreover, sensitivity analysis is also conducted
regarding how to further improve system performance, in order to enable new
emerging URLLC services.Comment: Accepted by IEEE/CIC ICCC 201
Demystifying the Characteristics of 3D-Stacked Memories: A Case Study for Hybrid Memory Cube
Three-dimensional (3D)-stacking technology, which enables the integration of
DRAM and logic dies, offers high bandwidth and low energy consumption. This
technology also empowers new memory designs for executing tasks not
traditionally associated with memories. A practical 3D-stacked memory is Hybrid
Memory Cube (HMC), which provides significant access bandwidth and low power
consumption in a small area. Although several studies have taken advantage of
the novel architecture of HMC, its characteristics in terms of latency and
bandwidth or their correlation with temperature and power consumption have not
been fully explored. This paper is the first, to the best of our knowledge, to
characterize the thermal behavior of HMC in a real environment using the AC-510
accelerator and to identify temperature as a new limitation for this
state-of-the-art design space. Moreover, besides bandwidth studies, we
deconstruct factors that contribute to latency and reveal their sources for
high- and low-load accesses. The results of this paper demonstrates essential
behaviors and performance bottlenecks for future explorations of
packet-switched and 3D-stacked memories.Comment: EEE Catalog Number: CFP17236-USB ISBN 13: 978-1-5386-1232-
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