Mohammad Mohammadi Amiri scite author profile

Mohammad Mohammadi Amiri

5Publications

71Citation Statements Received

15Citation Statements Given

How they've been cited

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Affiliations

Massachusetts Institute of Technology, Princeton University

Publications

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Federated Learning With Quantized Global Model Updates

Amiri¹,

Gündüz²,

Kulkarni³

et al. 2020

Preprint

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We study federated learning (FL), which enables mobile devices to utilize their local datasets to collaboratively train a global model with the help of a central server, while keeping data localized. At each iteration, the server broadcasts the current global model to the devices for local training, and aggregates the local model updates from the devices to update the global model. Previous work on the communication efficiency of FL has mainly focused on the aggregation of model updates from the devices, assuming perfect broadcasting of the global model. In this paper, we instead consider broadcasting a compressed version of the global model. This is to further reduce the communication cost of FL, which can be particularly limited when the global model is to be transmitted over a wireless medium. We introduce a lossy FL (LFL) algorithm, in which both the global model and the local model updates are quantized before being transmitted. We analyze the convergence behavior of the proposed LFL algorithm assuming the availability of accurate local model updates at the server. Numerical experiments show that the quantization of the global model can actually improve the performance for non-iid data distributions. This observation is corroborated with analytical convergence results.

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Computation Scheduling for Distributed Machine Learning With Straggling Workers

Amiri

Gündüz

2019

IEEE Trans. Signal Process.

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Communication-Efficient Federated Learning Over MIMO Multiple Access Channels

Jeon

Amiri

Lee

2022

IEEE Trans. Commun.

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Decentralized Caching and Coded Delivery with Distinct Cache Capacities

Amiri¹,

Yang²,

Gündüz³

2016

Preprint

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Federated Learning with Downlink Device Selection

Amiri¹,

Kulkarni²,

Poor³

2021

Preprint

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We study federated edge learning, where a global model is trained collaboratively using privacy-sensitive data at the edge of a wireless network. A parameter server (PS) keeps track of the global model and shares it with the wireless edge devices for training using their private local data. The devices then transmit their local model updates, which are used to update the global model, to the PS. The algorithm, which involves transmission over PS-to-device and device-to-PS links, continues until the convergence of the global model or lack of any participating devices. In this study, we consider device selection based on downlink channels over which the PS shares the global model with the devices. Performing digital downlink transmission, we design a partial device participation framework where a subset of the devices is selected for training at each iteration. Therefore, the participating devices can have a better estimate of the global model compared to the full device participation case which is due to the shared nature of the broadcast channel with the price of updating the global model with respect to a smaller set of data. At each iteration, the PS broadcasts different quantized global model updates to different participating devices based on the last global model estimates available at the devices. We investigate the best number of participating devices through experimental results for image classification using the MNIST dataset with biased distribution.

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