NEMF21 Noisy Electromagnetic Fields – A Technological Platform for Chip-to-Chip Communication in the 21st Century (NEMF21) Gabriele Gradoni, Gregor Tanner,

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NEMF21 Noisy Electromagnetic Fields – A Technological Platform for Chip-to-Chip Communication in the 21st Century (NEMF21) Gabriele Gradoni, Gregor Tanner, Stephen Creagh Contributions & Collaborations from the School of Mathematical Sciences, University of Nottingham, United Kingdom

NEMF21 WP Leaders for: WP 2: Method and Software Evaluation (6 + 6) WP 6: Numerical propagation methods for noisy EM-field (15+15) WP10: Management (4) WP11: Dissemination and Exploitation (2) Contributing: WP 8: C2C simulation toolbox based on n-point near-field measurements (9+9) WP 9 : C2C design guidelines – formulation and validation (6+6)

NEMF21 What we promised to do in terms of R&D … T2.3: In-house TLM code, IMST and CST code applied to benchmarks; T2.6: Data pool created as part of Data Management Programme; T6.2: Propagation of EM field-field correlation functions using a Wigner function (WF) for solving flow equations, as well as transfer operator methods; T6.3 Deterministic models obtained from TLM calculation coupled with DFM matrices yielding a hybrid DFM-TLM method; T8.2 From T6.2, T6.3, a combined WF-DFM-TLM solver with input form the n-point measurements (T4.2) will be set up and tested on data from IMST and NXP; interfaces with CST and IMST software will be created (?); T9.1 UoN software packages will be validated against measurement data on C2C devices; design decisions for the antenna on chip architecture will be verified.

NEMF21 What we like to do … Develop method for propagating Wigner functions (WF) for EM fields in 3D in arbitrarily complex domains. Coupling WF propagator with TLM, FDTD codes as well as Random Matrix Theory (Random Coupling Method) – to include source radiation. Simulating sources? Testing commercial codes  IMST and CST. Characterising near field effects and fluctuating sources. Combined analysis/design of sources and environments – efficient energy routing. Influence of noise, roughness, materials, and environment parameters, …

NEMF21 What we deliver … Statistical properties of fields (average field strength, variance, higher moments) for a given source distribution and for specified degree of uncertainty (surface roughness, exterior noise etc) both in the near and far field: Antenna distribution, radiation pattern Energy routing feedback Transfer operator formalism suitable for describing wavefront shaping – associated to efficient energy routing Main challenge: source description, space-time domain boundaries Limitations: needs to be modified to include deterministic/systematic interference effects (short orbits, proximity effects on antennas, etc…)

NEMF21 Collaborations: Nice: Efficient energy routing. TUM – Russer: Correlation function – exact vs ray tracing methods. TUM – Nossek: 3D wireless routing -> how does this effect coding and signal processing; influence of noise (EMI, source, uncertainty) on data rates; impact of antenna design (MIMO). NXP/ISAE: Source characterisation, source modelling. IMST: Source modelling; hybrid FDTD – WF solver; working with EMPIRE. CST: Source modelling; hybrid TLM – WF solver; working with CST – Studio.