Over-the-Air Computation of Large Scale Nomographic Functions in MapReduce over the Edge Cloud Network
Motivated by increasing powerful edge devices with data-intensive computing and limited storage size, we study a MapReduce-based wireless distributed computing framework by allocating a portion of files in the remote data center to the network edge, and utilizing computation and memory resources at...
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| Published in | IEEE internet of things journal Vol. 9; no. 14; p. 1 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Piscataway
IEEE
15.07.2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Online Access | Get full text |
| ISSN | 2327-4662 2327-4662 |
| DOI | 10.1109/JIOT.2021.3132031 |
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| Abstract | Motivated by increasing powerful edge devices with data-intensive computing and limited storage size, we study a MapReduce-based wireless distributed computing framework by allocating a portion of files in the remote data center to the network edge, and utilizing computation and memory resources at the edge. Our framework is comprised of three step phases: Map, Shuffle and Reduce. However, in the data shuffling stage, shuffling many data accounts for a large amount of the total running time over wireless interference networks will degrade its performance. Moreover, data shuffling between pervasive edge devices with limited spectrum bandwidth is very challenging. Today, many devices focus on computing functions rather than collecting all the individual wireless data centers. Therefore, we can use over-the-air computation (AirComp) technology to reliably compute multiple target functions by harnessing interference in the multiple-access channel with a higher computation efficiency than the traditional orthogonal multi-access scheme that combats interference. We study a mixed-timescale optimization of the transmitting-receiving (Tx-Rx) policy and file allocation to minimize the averaged computation mean squared error (MSE) under the power constraint of each device. File allocation control is adaptive to the long-term statistical channel state information (CSI), while the Tx-Rx policy is adaptive to the CSI and file allocation strategy. We decompose the problem into a short-term Tx-Rx policy and a long-term file allocation control problem to tackle the joint non-convex optimization. Simulation results indicate the effectiveness of our proposed two-timescale algorithm and the advantages of our computation framework over the state-of-the-art baselines. |
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| AbstractList | Motivated by increasing powerful edge devices with data-intensive computing and limited storage size, we study a MapReduce-based wireless distributed computing framework by allocating a portion of files in the remote data center to the network edge and utilizing computation and memory resources at the edge. Our framework is composed of three step phases: 1) Map ; 2) Shuffle ; and 3) Reduce . However, in the data shuffling stage, shuffling many data accounts for a large amount of the total running time over wireless interference networks will degrade its performance. Moreover, data shuffling between pervasive edge devices with limited spectrum bandwidth is very challenging. Today, many devices focus on computing functions rather than collecting all the individual wireless data centers. Therefore, we can use over-the-air computation (AirComp) technology to reliably compute multiple target functions by harnessing interference in the multiple-access channel with a higher computation efficiency than the traditional orthogonal multiaccess scheme that combats interference. We study a mixed-timescale optimization of the transmitting–receiving (Tx-Rx) policy and file allocation to minimize the averaged computation mean-squared error (MSE) under the power constraint of each device. File allocation control is adaptive to the long-term statistical channel state information (CSI), while the Tx-Rx policy is adaptive to the CSI and file allocation strategy. We decompose the problem into a short-term Tx-Rx policy and a long-term file allocation control problem to tackle the joint nonconvex optimization. Simulation results indicate the effectiveness of our proposed two-timescale algorithm and the advantages of our computation framework over the state-of-the-art baselines. Motivated by increasing powerful edge devices with data-intensive computing and limited storage size, we study a MapReduce-based wireless distributed computing framework by allocating a portion of files in the remote data center to the network edge, and utilizing computation and memory resources at the edge. Our framework is comprised of three step phases: Map, Shuffle and Reduce. However, in the data shuffling stage, shuffling many data accounts for a large amount of the total running time over wireless interference networks will degrade its performance. Moreover, data shuffling between pervasive edge devices with limited spectrum bandwidth is very challenging. Today, many devices focus on computing functions rather than collecting all the individual wireless data centers. Therefore, we can use over-the-air computation (AirComp) technology to reliably compute multiple target functions by harnessing interference in the multiple-access channel with a higher computation efficiency than the traditional orthogonal multi-access scheme that combats interference. We study a mixed-timescale optimization of the transmitting-receiving (Tx-Rx) policy and file allocation to minimize the averaged computation mean squared error (MSE) under the power constraint of each device. File allocation control is adaptive to the long-term statistical channel state information (CSI), while the Tx-Rx policy is adaptive to the CSI and file allocation strategy. We decompose the problem into a short-term Tx-Rx policy and a long-term file allocation control problem to tackle the joint non-convex optimization. Simulation results indicate the effectiveness of our proposed two-timescale algorithm and the advantages of our computation framework over the state-of-the-art baselines. |
| Author | Han, Fei Gong, Yi Lau, Vincent K. N. |
| Author_xml | – sequence: 1 givenname: Fei surname: Han fullname: Han, Fei organization: Department of Electronic and Computer Engineering (ECE), The Hong Kong University of Science and Technology (HKUST), Hong Kong, and also with the Peng Cheng Laboratory, Shenzhen, China. She is currently a visiting student at Southern University of Science and Technology (SUSTech), Shenzhen 518055, China – sequence: 2 givenname: Vincent K. N. surname: Lau fullname: Lau, Vincent K. N. organization: Department of Electronic and Computer Engineering, The Hong Kong University of Science and Technology, Hong Kong. (e-mail: eeknlau@ece.ust.hk) – sequence: 3 givenname: Yi surname: Gong fullname: Gong, Yi organization: University Key Laboratory of Advanced Wireless Communications of Guangdong Province, Department of Electrical and Electronic Engineering, SUSTech, Shenzhen 518055, China, and also with the Research Center of Networks and Communications, Peng Cheng Laboratory, Shenzhen 518055, China |
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| SubjectTerms | Adaptive control Algorithms Cloud computing Computational modeling Computer networks Data centers Distributed processing Electronic devices Interference mean-squared error Mobile handsets multiple-access channel nomographic functions Optimization Over-the-air computation Performance degradation Resource management Task analysis Time transceiver designs Wireless communication wireless distributed computing Wireless networks Wireless sensor networks |
| Title | Over-the-Air Computation of Large Scale Nomographic Functions in MapReduce over the Edge Cloud Network |
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