Venkat Arun scite author profile

Network performance monitoring today is restricted by existing switch support for measurement, forcing operators to rely heavily on endpoints with poor visibility into the network core. Switch vendors have added progressively more monitoring features to switches, but the current trajectory of adding specific features is unsustainable given the ever-changing demands of network operators. Instead, we ask what switch hardware primitives are required to support an expressive language of network performance questions. We believe that the resulting switch hardware design could address a wide variety of current and future performance monitoring needs. We present a performance query language, Marple, modeled on familiar functional constructs like map, filter, groupby, and zip. Marple is backed by a new programmable key-value store primitive on switch hardware. The key-value store performs flexible aggregations at line rate (e.g., a moving average of queueing latencies per flow), and scales to millions of keys. We present a Marple compiler that targets a P4-programmable software switch and a simulator for highspeed programmable switches. Marple can express switch queries that could previously run only on end hosts, while Marple queries only occupy a modest fraction of a switch's hardware resources.

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Hybrid Optimal Energy Management for Clustering in Wireless Sensor Network

Priya¹,

Srivastava²,

Arun³

2020

Computers & Electrical Engineering

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RFocus: Practical Beamforming for Small Devices

Arun¹,

Balakrishnan²

2019

Preprint

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To reduce transmit power, increase throughput, and improve communication range, radio systems-such as IoT sensor networks, Wi-Fi and cellular networks-benefit from the ability to direct their signals, to ensure that more of the transmitted power reaches the receiver. Many modern systems beamform with antenna arrays for this purpose. However, a radio's ability to direct its signal is fundamentally limited by its size. Unfortunately practical challenges limit the size of modern radios, and consequently, their ability to beamform. In many settings, radios on devices must be small and inexpensive; today, these settings are unable to benefit from high-precision beamforming.To address this problem, we introduce RFocus, which moves beamforming functions from the radio endpoints to the environment. RFocus includes a two-dimensional surface with a rectangular array of simple elements, each of which functions as an RF switch. Each element either lets the signal through or reflects it. The surface does not emit any power of its own. The state of the elements is set by a software controller to maximize the signal strength at a receiver, with a novel optimization algorithm that uses signal strength measurements from the receiver. The RFocus surface can be manufactured as an inexpensive thin wallpaper, requiring no wiring. This solution requires only a method to communicate received signal strengths periodically to the RFocus controller. Our prototype implementation improves the median signal strength by 10.5×, and the median channel capacity by 2.1×.

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Toward formally verifying congestion control behavior

Arun¹,

Arashloo

Saeed³

et al. 2021

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Copa

Arun¹,

Balakrishnan²

2018

223

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Venkat Arun

Language-Directed Hardware Design for Network Performance Monitoring

Hybrid Optimal Energy Management for Clustering in Wireless Sensor Network

RFocus: Practical Beamforming for Small Devices

Toward formally verifying congestion control behavior

Copa

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