Computing Nonlinear Functions over Communication Networks

HORIZON.1.1HORIZON-ERCID: 101077361
EC Contribution
€14,991
Consortium Size
1 orgs
Summary

SENSIBILITÉ describes a novel theory for distributed computing of nonlinear functions over communication networks. Motivated by the long-lasting open challenge to invent technologies that scale with the network size, this intriguing and far-reaching theory elevates distributed encoding and joint decoding of information sources, to the critical network computing problem for a class of network topologies and a class of nonlinear functions of dependent sources. Our theory will elevate distributed communication to the realm of distributed computation of any function over any network.Overall, this problem requires communicating correlated messages over a network, coding distributed sources for computation of functions, and meeting the desired fidelity given a distortion criterion for the given function. In such a scenario, the classical separation theorem of Claude Shannon, which modularizes the design of source and channel codes to achieve the capacity of communication channels, is in general inapplicable.SENSIBILITÉ envisions a networked computation framework for nonlinear functions. It will use the structural information of the sources and the decomposition of nonlinear functions for efficient distributed compression algorithms. For scalability, it will design message sets that are oblivious to the protocol information. For parsimonious representations across networks, it will grip the curious trade-off between quantization and compression of functions. SENSIBILITÉ has a contemporary vision of network-driven functional compression via accounting for the description length and time complexities towards alleviating large-scale, real-world networks of the future. The advanced theory will be tested in a real-life setting on applications of grand societal impact, such as over-the-air computing for the internet-of-things, massive data compression for computational imaging, and zero-error computation for real-time holographic communications.

Consortium (1)

Project Results (17)

Source: CORDIS, the EU research results database.

Publications (16)
New Achievability Schemes for Distributed Computing of Linearly Separable Functions
Proc., International Zurich Seminar on Information and Communication· 2026
E. Peter, K. K. K. Namboodiri, D. Malak, and P. Elia
Graph-Theoretic Limits of Distributed Computation: Entropy, Eigenvalues, and Chromatic Numbers
Entropy· 2025DOI
Mohammad Reza Deylam Salehi, Derya Malak
Non-Linear Function Computation Broadcas
IEEE ISIT· 2025DOI
M. R. Deylam Salehi, V. K. Kizhakke Purakkal, D. Malak
Nona: A Stochastic Congestion-Aware Job Scheduler for Real-Time Inference Queries
2024 IEEE 13th International Conference on Cloud Networking (CloudNet)· 2025DOI
Benoit Pit-Claudel, Derya Malak, Alejandro Cohen, Muriel Medard, Manya Ghobadi
Distributed Structured Matrix Multiplication
2024 IEEE International Symposium on Information Theory (ISIT)· 2024DOI
Derya Malak
Joint Power Control and Caching for Transmission Delay Minimization in Wireless HetNets
IEEE/ACM Transactions on Networking· 2024DOI
Derya Malak, Faruk Volkan Mutlu, Jinkun Zhang, Edmund M. Yeh
Multi-Functional Distributed Computing
2024 60th Annual Allerton Conference on Communication, Control, and Computing· 2024DOI
Derya Malak, Mohammad Reza Deylam Salehi, Berksan Serbetci, Petros Elia
Multi-Server Multi-Function Distributed Computation
Entropy· 2024DOI
Derya Malak, Mohammad Reza Deylam Salehi, Berksan Serbetci, Petros Elia
The Influence of Placement on Transmission in Distributed Computing of Boolean Functions
2024 IEEE 25th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC)· 2024DOI
Ahmad Tanha, Derya Malak
The Interplay of Spectral Efficiency, User Density, and Energy in Grant-Based Access Protocols
IEEE Transactions on Communications· 2024DOI
Derya Malak
An Achievable Low Complexity Encoding Scheme for Coloring Cyclic Graphs
2023 59th Annual Allerton Conference on Communication, Control, and Computing (Allerton)· 2023DOI
Deylam Salehi, Mohammad Reza; Malak, Derya
Distributed Computing of Functions of Structured Sources with Helper Side Information
2023 IEEE 24th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC)· 2023DOI
Malak, Derya
Hardware-limited task-based quantization in systems
"Book chapter in ""Women in Telecommunications"""· 2023DOI
D Malak, R Yazicigil, M Médard, X Zhang, YC Eldar
Joint Optimization of Storage and Transmission via Coding Traffic Flows for Content Distribution
2023 21st International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt)· 2023DOI
Derya Malak, Yuanyuan Li, Stratis Ioannidis, Edmund M. Yeh, Muriel Médard
Spatially Correlated Placement Policies for Wireless Content Caching Networks
ICC 2023 - IEEE International Conference on Communications· 2023DOI
Chen, Shukai; Malak, Derya; Abouzeid, Alhussein, A
Weighted Graph Coloring for Quantized Computing
2023 IEEE International Symposium on Information Theory (ISIT)· 2023DOI
Malak, Derya
Other Results (1)
Periodic Reporting for period 1 - SENSIBILITÉ (Computing Nonlinear Functions over Communication Networks)