Within the following institutes of the School of Engineering (STI), the listed laboratories and groups have joined ACCES as Network Laboratories.
Mechanical Engineering (IGM)
- Emergent Complexity in Physical Systems (Prof. Tobias Schneider) – Fundamental and applied aspects of fluid mechanics combined with dynamical systems and pattern flow theory
- GTT – Thermal Turbomachinery Group (Dr Peter Ott) – Numerical simulation of aerodynamics in turbomachines as a complement to experimentation
- IPESE – Industrial Process and Energy Systems Engineering Group (Prof. François Maréchal) – Development of process system engineering methods for the analysis and sythesis of efficient, sustainable thermo-chemical processes.
- LAMD – Laboratory for Applied Mechanical Design (Prof. Jürg Schiffmann) – Design and experimental investigation of small scale turbomachinery for decentralized energy conversion
- LFMI – Laboratory of Fluid Mechanics and Instabilities (Prof. François Gallaire) – Numerical studies of flow stability and control in jets, wakes, boundary layers and microfluidics
- LMAF – Laboratory for Applied Mechanics and Reliability Analysis (Prof. John Botsis / Prof. Thomas Gmür / Dr Joël Cugnoni) – Numerical simulation of structural mechanics
- LMH – Laboratory for Hydraulic Machines (Prof. François Avellan) – Numerical simulation of hydrodynamic flows in rotating machinery
- LRESE – Laboratory of Renewable Energy Science and Engineering (Prof. Sophia Haussener) – Conversion of renewable energies into storable fuels, materials and commodities
- LTCM – Heat and Mass Transfer Laboratory (Prof. John Thome) – Numerical simulation of heat and mass transfer
Materials Science and Engineering (IMX)
- CIME – Interdisciplinary Centre for Electron Microscopy (Dr Marco Cantoni) – Computational electron microscopy
- COSMO – Laboratory of Computational Science and Modelling (Prof. Michele Ceriotti) – Simulation of materials at the atomic level to improve the understanding of the macroscopic properties of materials
- FIMAP – Laboratory of Photonic Materials and Fiber Devices (Prof. Fabien Sorin) – Development of innovative materials processing approaches for micro- and nanostructure-based photonic devices
- LC – Ceramics Laboratory (Prof. Paul Muralt) – Modeling the properties of ferroelectric materials and interfaces
- LMC – Laboratory of Construction Materials (Prof. Karen Scrivener) – Modeling of cement and concrete microstructures
- LMM – Laboratory of Mechanical Metallurgy (Prof. Andreas Mortensen / Dr Andreas Rossoll) – Micro-mechanical simulation of deformation, damage and fracture; Molecular dynamics simulations of nano-structured materials
- LTC – Laboratory of Composite and Polymer Technology (Prof. Véronique Michaud) – Modeling of composite materials
- LTP – Power Technology Laboratory (Dr Paul Bowen) – Atomistic scale modeling of inorganic surfaces and interfaces: from crystallisation to ceramic microstructures
- NXMM – Neutrons and Xrays for Mechanics of Materials (Prof. Helena Van Swygenhoven) – Structural and mechanical properties of metals and alloys
Electrical Engineering (IEL)
- AQUA – Quantum Architecture Group (Prof. Edoardo Charbon) – Modeling hardware/software systems based on quantum devices
- ESL – Embedded Systems Laboratory (Prof. David Atienza) – Thermal transport in integrated circuits
- LEMA – Laboratory of Electromagnetics and Acoustics (Prof. Juan Mosig / Prof. Anja Skrivervik / Dr Hervé Lissek) – Computational electromagnetics and acoustics
- LSM – Microelectronics Systems Laboratory (Prof. Yusuf Leblebici) – VLSI modeling / timing simulations
- LTS5 – Signal Processing Laboratory (Prof. Jean-Philippe Thiran) – Multimodal signal and image analysis and medical image analysis
- RFIC – Radio Frequency Integrated Circuit Group (Dr Catherine Dehollain) – Simulation and design of RF integrated circuits, waves and antennas
- Space Center EPFL (Prof. Volker Gass / Dr Anton Ivanov) – Processing of satellite image data and modeling of satellite structures
Microengineering (IMT)
- LIB – Biomedical Imaging Laboratory (Prof. Michael Unser) – Algorithms and tools for advanced signal and image processing
- LIS – Laboratory of Intelligent Systems (Prof. Dario Floreano) – Robot simulations, visualization and computational biology
- LMIS1 – Microsystems Laboratory I (Prof. Jürgen Brugger) – Modeling multi-particle dynamical systems for self assembly
- LO – Optics Laboratory (Prof. Demetri Psaltis) – Simulation of electromagnetic systems, photonics and nonlinear optics
- LSRO – Robotic Systems Laboratory (Prof. Hannes Bleuler) – Modeling of robotic systems
- NAM – Nanophotonics and Metrology Laboratory (Prof. Olivier Martin) – Modeling the optical properties of nanostructures
Bioengineering (IBI)
- BIOROB – Biorobotics Laboratory (Prof. Auke Ijspeert) – Modeling of bio-inspired robots
- LBO- Laboratory of Biomechanical Orthopedics (Prof. Dominique Pioletti / Dr Alexandre Terrier) – Development of theoretical, numerical, and cadaveric models to improve the clinical outcome of the treatement of humain joints
- LHTC – Laboratory of Hemodynamics and Cardiovascular Technology (Prof. Nikos Stergiopulos) – Numerical simulation of hemodynamics
- LMAM – Laboratory of Movement Analysis and Measurement (Prof. Kamiar Aminian) – Modeling of biomechanical systems
