Student Theses
- Frederik Hennig – A Revised Framework Core for the Multiphysics Simulation Software waLBerla (MT)
- Alexander Selig – Evaluation of the PSM Method for Complex Moving Geometries (BT)
- Rishikesh Nerurkar – Sparse Grids on Block Structured Grids (MT)
- Max Neuwinger – Numerische Integration von lokalen Steifigkeitsmatrizen auf duennen Gittern (BT)
- Markus Kauschinger – Implementierung von Wettereinflussdaten in die Routenfindung für solarbetriebene Zeppeline (BT)
- ShanurMohammad Rahman – Quantized Winograd Based Convolution Kernel for Edge GPUs (MT)
- Michael Zikeli – Mixed Precision Multigrid Methods on Hybrid Tetrahedral Grids (MT)
- Sudesh Rathnayake – Compressible Lattice Boltzmann Solver for Supersonic Flow (MT)
- Georg Meyer – Performance Engineering of Fully-Resolved Coupled Fluid-Particle Simulations on the LUMI Supercomputer (BT)
- Martin Konz – Adaptive mehrdimensionale Gauß-Quadratur zur numerischen Integration bei Finiten Elementen mit dünnen Gittern (BT)
- Daniel Würtinger – Softwarekonzept zur Simulation der Bewegungsgleichungen eines Luftschiffes (BT)
- Ramakrishnan Chandran – Mixed Precision AMG Solver in GaspiLS (MT)
- Jina Yoo – Investigation of a Coupled Optimization Concept for Heat Pump Cycles with Simultaneous Data-Driven Compressor Design (MT)
- Shubham Kavane – Creating Fluid Dynamics Dataset and Development of Efficient and Complex Surrogate Model (MT)
- Sai Aakash Dasari – Matrix-free Implementation of the Weighted BFBT Preconditioner for Stokes Flow Problems with Highly Heterogeneous Viscosity (MT)
- Ravi Kiran Ayyala Somayajula – Computational Investigation of Charged Particles in Fluid Flow (MT)
- Amritanshu Verma – Performance Engineering of Transformer on GPU vs CPU (MT)
- Bhagyashree Bhagat – Modelling of Reed Valves with Neural Networks based on FSI Data (MT)
- Vera Choi – Comparison of FFT-based Beam Propagation Methods (BT)
- Arsenii Andropov – Implementing GPU GROMACS super-cluster strategy on MD-Bench (MT)
- Jonas Motyl – Software-Konzept zur Routenoptimierung von Luftschiffen (BT)
- Alexander Lieret – Accelerating MITgcm’s seaice solver with ExaStencils (MT)
- Robert Kurin – Effizientes Berechnen lokaler Steifigkeitsmatrizen (BT)
- Kajol Kulkarni – Creating and Benchmarking Fluid Dynamics Dataset for Training Surrogate Model (MT)
- Liang Zhang – Parallel Implementation of Watershed Algorithm (MT)
- Niklas Schmitt – Akkurate Mehrgitteroperatoren für die Strukturmechanik (BT)
- Mohammad Sharifi – The Organization of Innate Behaviors Identified by Deep Learning Method (MT)
- Fabian Böhm – Matrix-free Implementation and Evaluation of the Enriched Galerkin Finite Element Method for the Stokes Problem with Varying Viscosity (MT)
- Daniel Bauer – Multigrid in H(curl) on Hybrid Tetrahedral Grids (MT)
- Niklas Heidenreich – Code optimization of algorithms on sparse grids (BT)
- Lukas Schröder – Numerische Simulation der Gastemperatur im Inneren von Solarluftschiffe (BT)
- Don Alex Shavanta Hettiarachchi – Unsupervised Anomaly Detection of Multivariate Data (MT)
- Michael Scheiderer – Kontinuierliche Integration und Optimierung eines U-Net auf GPU (MT)
- Tim Riffelmacher – Ladeoptimierung der Batterie in einem Solarzeppelin mit Simulated Annealing (BT)
- Michael Holzmann – LispNet: A Machine Learning Framework for PetaLisp and its Application for Multigrid PDE (MT)
- Raghunandan Arava – Prediction of Photoresist Displacement Fields Using Graph Neural Nerworks (MT)
- Chinmay Datar – Evaluating Multigrid-in-time Algorithm for Layer-Parallel Training of Residual Networks (MT)
- Markus Stüwe – User Interface Design for Interactive Selection and Modification of Features in Ocean Grids (BT)
- Lukas Bönsel – Solving the Nonlinear Schrodinger Equation with a Vectorial Split-Step-Fourier Method Applying BPM (BT)
- Matthias König – Optimization of Mirrorshapes in Optically Pumped Solar Lasers Using Ray Tracing Simulation Techniques (MT)
- Patrik Rác – Adaptive solution of partial differential equations using different finite-element libraries (BT)
- Veit Götz – Batteriesimulation und Optimierung für Solarzeppeline (BT)
- Samuel Kemmler – Code Generation for U-Nets Using the ExaStencils Code Generation Framework (MT)
- Christoph Alt – Bringing Water to the Fields – A Code Generation Pipeline for SWE Applications on FPGAs (MT)
- Philipp Suffa – Learning Optimal Prolongation and Restriction Operators for Multigrid PDE Solvers (MT)
- Richard Angersbach – Implementation and Evaluation of Parallel I/O Interfaces in ExaStencils (MT)
- Jens Edel – Implementation of Gaussian Schell Beams into a Raytracing Framework (BT)
- Frederik Hennig – Streaming-Pattern-Independent Realization of Lattice Boltzmann Grid Refinement as an MPI-based Communication Scheme via Code Generation (BT)
- Maja Warlich – Implementation of Communication Schemes for the LB Method using Different Data Structures through Meta-Programming Techniques (BT)
- Christina Schwarz – Geometric multigrid for the gyrokinetic Poisson equation from fusion plasma applications (MT)
- Jonas Plewinski – Influence of the Lattice Boltzmann Collision Operator on the Stability and Accuracy of Particulate Flow Simulations (MT)
- Yannick Wallerer – A Deep Learning Based Approach to Segmenting Cells and Cell Nuclei in Fluorescence Microscopy (MT)
- Lukas Werner – Simulating the Motion of Very Light Particles in Fluid with an Adaptively Refined Lattice Boltzmann Method (MT)
- Markus Holzer – Efficient Code Generation of a Lattice Boltzmann Phase-Field Model for Immiscible Fluids with High Density Ratios and High Reynolds Numbers (MT)
- Nasibeh Hassanjanikhoshkroud – A Thermal-Fluid-Structure Interaction Formulation Based on the Fictitious Domain Method: Simulation Studies with Applications to Geophysical Phenomena
- Matthias König – Combining fully resolved and unresolved coupling methods for strongly heterogeneous sized particulate flow simulations (BT)
- Arndt Simon – Integration of the Graphical Processing Unit (GPU) for Different Blob Detection Algorithms (BT)
- Daniel Bauer – Flexible Lattice Boltzmann Simulation Pipeline for Airborne SARS-CoV-2 Transmission with waLBerla and Blender (BT)
- Fabian Böhm – Refactoring and Extension of ExaStencils Capabilities for Matrix Datatypes and Operations (BT)
- Mehdi Rezaiepour – Interfacing Computer Algebra Systems with ExaStencils (MT)
- Dominik Mehlich – Numerische Simulation der geometrischen Kohäsion nicht-konvexer Partikel (BT)
- Simon Schmidt – Investigation and Implementation of Visualization and Reconstruction Options for Breast-CT (BT)
- Martin Zeus – Extension of the ExaStencils Framework with Tensors (BT)
- Peter Herbst – Lösung von Ratengleichungen mit Expression Templates auf der Grafikkarte (BT)
- Christian Koch – Implementation and Evaluation of Acceleration Structures for Inhomogeneous and Polydisperse Particle Dynamics (BT)
- Patrick Lodes – Development and Evaluation of a Hybrid Power Management System for Airships Intended for Infrared Thermographic Inspection of Photovoltaic Plants (BT)
- Silvan Marti – Flexibles Matrix-Vektor-Format (BT)
- Benedikt Schröter – Entwicklung einer App im Rahmen des Projekts “Solar-Zeppelin” (BT)
- Maik Haase – Automated Dependency Analysis and Scheduling of Transformation Strategies in ExaStencils (MT)
- Daniel Höfer – Comparing MCTS with Genetic Algorithms for Optimizing Multigrid Methods (MT)
- Valianos Stelica – Profinet stack for QNX (MT)
- Stefan Wagner – Optimale Routenplanung für einen Solarzeppelin (MT)
- Benjamin Mann – Matrix-Free Multigrid with Surrogate Polynomials for Higher Order Finite Elements (MT)
- Lena Eichermüller – Simulation der Wärmeentstehung in optischen Beschichtungen (BT)
- Nikolai Metcher – Interfacing Stencil Generation Frameworks with Intermediate Representationss (BT)
- Lukas Sammler – Solving Partial Differential Equations with Machine Learning (BT)
- Lou Knauer – Expression Templates auf Grafikkarten (BT)
- Alexander Lieret – Benchmarking a seaice model on different HPC architectures (BT)
- Lukas Kuhn – Simulation of Chromatic Laser Pulse Amplification (BT)
- Mischa Dombrowski – Code Generation for Lattice-Boltzmann Methods with Large Neighbourhoods
- Sören Koenen – Simulation eines Solar-Wind-Luftschiffes
- Xiao Rao – A novel time-domain beam propagation method (MT)
- Meike Blöcher – Automated Performance Prediction for Generated PDE Solvers (BT)
- Manuel Dillmann – Simulation of Amplified Spontaneous Emission in High Power Thin Disk Lasers (MT)
- Michael Holzmann – Lösen von Poissongleichungen auf einem simulierten Quantencomputer (BT)
- Christopher Newman – Optimal Control of a Solar Airship (BT)
- Nicolas Krieg – Numerical Study of Grid Refinement Techniques for the Lattice Boltzmann Method
- Denis Ribica – Code Generation vs. HPC Framework (BT)
- Tobias Schleier – Codeoptimierung mit Expression Templates (BT)
- Lukas Werner – Data Filtering and Visualization for Highly Parallel Particle Simulations (BT)
- Sebastian Friedemann – Developing a Steering Approach to Constrain High-Resolution Water Resources Modeling over West Africa (MT)
- Santiago Rendon Valencia – Direct Numerical Simulation of Particle Agglomeration with the Lattice Boltzmann Method (MT)
- Dhananjeyan Jeyaraj – Dislocation Feature Extraction (MT)
- Paras Kumar – Energy Corrected Finite Elements for Elliptic PDEs and Linear Elasticity (MT)
- Vikrant Dahiya – Evaluation of Super Resolution Algorithms (MT)
- Richard Angersbach – Generating an Interface for Parallel Multigrid Solvers and VisIt (BT)
- Markus Obereisenbuchner – Generating Visualization Functions for Parallel Multigrid Solvers (MT)
- Damian Swientek – Interactive Visualization of Shallow Water Equation Solvers (BT)
- Disha Yaduraiah – Performance Evaluation using Docker and Kubernetes (MT)
- Johannes Wendler – Predicted Particle-Fluid Drag Forces Using Deep Neural Networks (BT)
- Alexander Blania – Simulation eines Er:YAG Lasers (BT)
- Kai Teichmann – Simulation eines Solar-Zeppelins (BT)
- Armin Bundle – Simulation of a Solar Airship (MT)
- Iniyan Kalaimani – Time-Dependent Earth Mantle Convection Simulations with Non-Trivial Viscosity (MT)
- Phillip Lino Rall – 3D Raytracing Model for Laser Beams Influenced by Thermal Lensing in Solid-State Gain Media (MT)
- Viktor Haag – Advektion freier Oberflächen basierend auf der Volume-of-Fluid-Methode (Advection of Free Surfaces Based on the Volume of Fluid Method) (MT)
- Jonas Schmitt – AnyDSL-MD: Molecular Dynamics Simulations in Impala (MT)
- Michael Hildebrand – Build-Order-Optimierung in Starcraft2 mit Hilfe von neuronalen Netzen (MT)
- Vasanth Baskar – Complex Crystalline Geometries – Simulating Particle Filters (MT)
- Dominik Schuster – Direct Numerical Simulation of Fluidized Beds with the Lattice Boltzmann Method (MT)
- Tobias Leemann – Effiziente Kollisionserkennung für konvexe Körper in parallelen Simulationen (BT)
- Sean Dominic D’Silva – FEM Modeling of Shrinkage Effects in Negative Tone Photoresists (MT)
- Jan Hönig – Generation of LLVM Compute Kernels for High Performance Simulations (MT)
- Max Gerecke – Implementation of a TGV Algorithm in ExaSlang (BT)
- Christopher Bross – Implementation of the Quadrature-Free Local Discontinuous Galerkin Method (MT)
- Douglas Jackson Djoumessi Tsague – Implementation von Lagrange-Elemente-Verfahren höherer Ordnung (BT)
- Nils Kohl – Resilience for Massively Parallel Simulation Software (MT)
- Roman Reberger – The Intensity Based Comparison of the Stain Segmentation Methods of the Product and the Blood Stain (MT)
- Sanjana Praveen Kumar – Development of Demonstrators for CO-Simulation between (MT)
- Nitin Malapally – Ellipsoid collision detection support for pe: ellipsoid-ellipsoid and ellipsoid-plane collisions (MT)
- Lorenz Haspel – Generierung domänenspezifischen Wissens für ExaStencils (MT)
- Christian Berger – High Throughput Testing System for Distributed Printing of Opto-Electronic Layers (MT)
- Roger Tsang – Magnetic Nanoparticle Simulation in Bloodflow (MT)
- Parikshit Upadhyaya – Numerical Integration of Local Stiffness Matrices in 3D on Sparse Grids on Curvilinear Bounded Domains (MT)
- Jacob Snoeijer – Numerical Reconstruction of Fundamental Solutions of the Stokes System with Finite Elements (MT)
- Tim Rheinfels – Numerische Integration lokaler Steifigkeitsmatricen auf dünnen Gittern im d-dimensionalen Raum (BT)
- Lukas Liebischer – Numerische Simulation der Verstärkung von Laserpulsen (BT)
- Constantin Vogel – Optical Simulation of Upconversion Nanoparticles for Solar Cells (MT)
- Michael Hußnätter – Optimierung und Performanceanalyse von Listen-basierten Lattice-Boltzmann-Kerneln unter Verwendung des waLBerla-Frameworks (BT)
- Marco Heisig – Petalisp – Design and Implementation (MT)
- Julian Wenzel – Prototype for Destination Prediction Engine (MT)
- Felix Ott – Schnelle Assemblierung von FE-Steifigkeitsmatrizen bei Spektralmethoden (BT)
- Mai Alissa – Statistical Signal Processing Method for Sleep Patterns Analysis in Infants (MT)
- Farheen Sultana Chincholi – 2D Color Based Automatic Stain Segmentation (MT)
- Jonas Schmitt – A Multi-Objective Genetic Algorithm for Evaluating Build Order Effectiveness in StarCraft II (BT)
- Oleg Kravchuk – Automatic Performance Measurements and Data Evaluation for Highly Parallel Codes (MT)
- Armin Bundle – Die Veränderung der Strahlqualität mit Hilfe von Laserverstärkung (BT)
- Georgios Diamantopoulos – Fault Tolerant Approaches for Parallel Geometric Multigrid (MT)
- Michael Welscher – Generating IDE Support for Multiple Domain Specific Languages (BT)
- Eugen Meissner – GPU-Specific Optimization for Massive Parallel Phase Field Algorithms (MT)
- Anton Artemov – Serial and parallel time-integration methods for the Hierarchical Hybrid Grids framework (MT)
- Jeremias Isnardy – Specification and Partitioning of Computational Domains for Generated Geometric Multigrid Solvers (MT)
- Hamed Amin Pour – 3D Dynamical Opto-Mechanical Modeling of Diode-Pumped Trapezoid Yb: YAG/YAG Thin Disk Laser (MT)
- René Müller – A Solver for Linear Elasticity in Hierarchical Hybrid Grids (BT)
- Lena Leitenmaier – Data Compression for Simulation Data from Earth Mantle Convection (BT)
- Dominik Seibold – Efficient Image Registration on Mobile Devices (DA)
- Patrick Mühlbauer – Efficient Parallel Charge Summation (MT)
- Ghulam Mustafa Majal – Entropic stabilization of the lattice Boltzmann Method (MT)
- Stefan Henneking – Evaluation of Time Discretization Methods for Mantle Convection Simulation (BT)
- Soroush Hooshyar – Galerkin Coarsening with Higher-Order Transfer Operators for Cell-Centered Multigrid (MT)
- Achim Däubler – Interactive Visualization and Simulation of Fluids (BT)
- Sayed M. A. Al Hasnine – Numerical Analysis of Myocardial Perfusion in the Left Ventricle by Lattice Boltzmann Method (MT)
- Tobias Scharpff – Numerische Simulation scharfkantiger Teilchen in der pe Physikengine (DA)
- Daniel Iuhasz – Performance Analysis and Optimization of GPU Kernels for HHG (MT)
- Kelvin Kwong Lam Loh – Solving Stochastic PDEs with Approximate Gaussian Markov Random Fields using Different Programming Environments (MT)
- Lorenz Hufnagel – Transient Simulation of Electric Double Layers in Electrokinetic Flows with a Coupled Lattice Boltzmann Link-Flux Method (BT)
- Björn Osterwald – Using computational techniques to analyze structural components within skeletal muscles (BT)
- Herbert Martin – Cell-Centered Multigrid with Higher-Order Transfer Operators in waLBerla (BT)
- Patrick Daniel Greß – Collision Detection for Quadrics (SA)
- Marco Heisig – Efficient generation of Mehrstellenverfahren for elliptic PDEs (BT)
- Mustafa Emami – Efficient Multigrid Solvers for the Stokes Equations using Finite Elements (MT)
- Christoph Rettinger – Fluid flow simulations using the lattice Boltzmann method with multiple relaxation times (BT)
- Jens Friedemann – Konzeption und Realisierung einer flexiblen Datenübernahme von Realdaten aus Automatisierungssystemen in ein Trainingssystem (Diplomarbeit)
- Markus Müller – Lubrication correction for simulating particle fluid interaction with the lattice Boltzmann method (BT)
- Markus Silo – Numerical Modeling of Cell Conversions regarding Conservation Laws (DA)
- Siegfried Schöfer – Numerical Solution of the Poisson-Nernst-Planck Equation System (BT)
- Matthias Hofmann – Parallelisation of Swimmer Models for Swarms of Bacteria in the Physics Engine pe (MT)
- David Staubach – Static Block-Structured Grid Refinement for Parallel Lattice Boltzmann Simulations (MA)
- Sebastian Kuckuk – Visualization and Interactivity for Physics Entines in Real-Time (MT)
- Benedikt Rauh – Volumetric method for calculating the flow around moving objects in lattice-Boltzmann schemes (BT)
- Tobias Scharpff – Analyse und Optimierung von Operationen auf dünn besetzten Matrizen (SA)
- Taimoor Ahmad – Characterization and Fabrication of Thin Film Crystalline Silicon Solar Cells on Biologically Derived Substrates (MT)
- Christian Schmitt – Checkpointing-Mechanismen für ein massiv paralleles Software-Framework (MT)
- Johannes Bleisteiner – COLLADA Physics Implementation for the pe Physics Engine (BT)
- Sepideh Alassi – Estimating Blood Flow Based on 2D Angiographic Image Sequences (MT)
- Jorge Israel Bernal Romero – Fluid-Particle Interaction with the Immersed Boundary Lattice Boltzmann method (MT)
- Markus Siko – Implementation of Data Flow for the ParalleX Execution Model (SA)
- Markus Siko – Implementierung der Blasentrennung in waLBerla (SA)
- Paul Manstetten – Real-time Simulation of Heat Conduction in Rolls with Internal Cooling (MT)
- Hurmat ul Ain – Simulation of instabilities occuring in Liquid Jets (MT)
- Martin Bauer – Special Finite Elements for Dipole Modelling (MT)
- Matthias Grießinger – 3D bidomain equation for simulation of muscle fibers (MT)
- Tobias Hofmann – Evaluation of Time Integrations Schemes in DEM-Simulations (BT)
- Mario Heene – Extension of the pe Physics Engine by Discrete Element Methods (BT)
- Wang Zhichao – GPU implementation of Free Surface Lattice Boltzmann code (SA)
- Nicolas Apelt – Numerische Simulation Dünnschicht-Silizium-Solarzellen auf General Purpose GPUs mit OpenCL (BT)
- Fabian Benesch – Simulation von Kompressionswellen in Starrkörperkollisionen (BT)
- Florian Schornbaum – A real-time capable impulse-based collision response algorithm for rigid body dynamics (DA)
- Sunil Ramgopal Tatavarty – Accelerating non-rigid image registration on GPUs (MT)
- Martin Bauer – C/C++ Runtime Error Detection Using Source Code Instrumentation (BT)
- Michael Sünkel – Collision Detection for Cylinder-Shaped Rigid Bodies (BT)
- Thomas Runge – Hyperfinite Probability Theory and Stochastic Analysis within Edward Nelson’s Internal Set Theory (DA)
- Daniel Brinkers – Multigrid Algorithms on QPACE (DA)
- Gabor Czilli – Particle-based simulation of deformable bodies (BT)
- Leander Sturm – Rechnerunterstützte Auswertung von Diodenkennlinien (PA)
- Martin Loch – Segmentation of skeletal muscle fibers (DA)
- Hamidreza Khajeh Alizadeh Attar – Simulation of Heat-Induced Elastic Deformation of Cylindrical-Shaped Bodies (MT)
- David Staubach – Smoothed Particle Hydrodynamics Real-Time Fluid Simulation Approach (BT)
- Katrin Nusser – Thermal simulation of temperature-critical systems (BT)
- Kannan Masilamani – waLBerla: Investigation of Electrostatic Effects in Particulate and Electro-Osmotic Flows (MT)
- Dominik Haspel – Blutgerinnung: Simulation in realen Geometrien (Simulation of clotting processes using non-newtonian blood models and the lattice boltzmann method) (MT)
- Li Yi – Efficient GPU Implementation of an MIR PPA Reconstruction Algorithm (BT)
- Björn Gmeiner – Extension of a Software Package for Hierarchical Hybrid Grids (MT)
- Severin Strobl – GPU-Based Rigid Body Dynamics (DA)
- Zoran Golic – Implementation of a multicomponent mixture model in 3D into the WaLBerla-Framework (BT)
- Fabian Schönfeld – Interactive Debugging Tool for the pe physics engine (DA)
- Olessia Barbatkov – Kriterienentwicklung zur IT-gestützten Prognose des russischen Marktes für energieeffizientes Bauen (SA)
- Christoph Matthias Felix – Kürzeste Beschreibungen endlicher Modelle (SA)
- Rishi Patil – Numerical simulation of Quenching Process in Coal Gasification (Numerische Simulation des Quenching-Prozesses bei der Kohlevergasung (MT)
- Jyotsna Halwai – Performance Analysis of Hybrid Parallelization Techniques for Large Scale Lattice Boltzmann Simulations on Multicore Platforms (MT)
- Tamas Torba – Rigid Body Dynamics: Cloth Simulation (DA)
- Florian Schornbaum – Hierarchical Hash Grids for Coarse Collision Detection (SA)
- Kristina Pickl – Rigid Body Dynamics: Links and Joints (MT)
- Florian Rathgeber – Simulation and Visualization of Fire with the Lattice-Boltzmann Method (BT)
- Johannes Vorsamer – Simulation eines Prozesses in der Zementherstellung (DA)
- Enguerrand Bitmbat Dibanda – Simulation of multi-phase and multi-component flows according to the Shan-Chen model (MT)
- Simon Bogner – Simulation of floating objects in Free-Surface Flows (DA)
- Stephan Helou – Solving Finite Element Systems with hypre and Z88 (BT)
- Thomas Heller – SSE Optimierung der pe Physikengine (BT)
- Daniel Ritter – A Fast Multigrid Solver for Molecular Dynamics on the Cell Broadband Engine (MT)
- Dominik Bartuschat – A parallel patch-based approach for the reduction of quantum noise in CT-images (MT)
- Daniel Brinkers – Algorithmen für dünn besetzte Matrizen auf der CBEA (SA)
- Matthias Heine – Berechnung der Wellengleichung mit Hilfe der maxwellschen Gleichungen auf der Grafikkarte durch Nvidias CUDA (Compute Unified Device Architecture) und anschließender Performanceanalyse (SA)
- Jan Ciesko – Cloth modeling (SA)
- Severin Strobl – Effiziente Implementierung von FE-Operatoren auf der Grafikkarte (SA)
- Georg R. W. Steidl – Elastic Non-Rigid Image Registration with Diffpack (MT)
- Dominik Geuß – Investigarion of Mixture Modeling for the Lattice Boltzmann Method (MT)
- Tobias Preclik – Iterative Rigid Multibody Dynamics (DA)
- Johannes M. Werner – Logische Untersuchungen über den Satz von Sharkovsky (DA)
- Karin Maria Erbertseder – Modeling the Spatial and Temporal Distribution of Therapeutic Agents in Tumor Tissues (a Continuum Approach) (DA)
- Tobias Engel – Numerical Simulation of Electro Cancer Therapy (BT)
- Philipp Neumann – Numerical simulation of nanoparticles in Brownian motion using the lattice Boltzmann method (DA)
- Yongqi Sun – Parallel Solution for Differential-Algebraic Equations in Power plant simulation (DA)
- Johannes Habich – Performance Evaluation of Numeric Compute Kernels on NVIDIA GPUs (MT)
- Stefan Geißelsöder – Shared memory parallelization of the pe physics engine (BT)
- Björn Gmeiner – A validation tool for computational fluid dynamics solvers (BT)
- Arno Fehm – Definierbarkeit und Entscheidbarkeit in Funktionenkörpern (DA)
- Stefan Baur – Ein Entscheidungsverfahren für die Presburger Arithmetik (SA)
- Zhabiz Rahimibabadi – Finite-Difference Time-Domain Method for Simulation of Electromagnetic Waves in Thin-Film Solar Cells (MT)
- Tobias Preclik – Frictional Rigid Body Dynamics (SA)
- Martin Ketzer – Geometrieprimitive und Dreiecksgitter für die pe Physikengine (DA)
- Silke Bergler – Mehrgitterverfahren für beliebige Gitterweiten mit Anwendung in der Quantenchemie (DA)
- Christian Iwainsky – MPI-Model-Checking in C-Programmen (DA)
- Zhengwei Han – Pricing Options with Dividends: Using Jumps in Stochastic Volatility Models (MT)
- Hannes Wengenroth Rigid body collisions (BT)
- Kristina Pickl – Strukturmechanikberechnungen in der Lasersimulation (BT)
- Sudarsan N.S Acharya – A Multigrid Conjugate Gradient Methods (MT)
- Patrick Mu ̈nch – A Variational Approach for Videocompression (DA)
- Florian E.J. Fruth – Analyse und Simulation von Komponenten der Messhardware eines OFET-Testsystems in VHDL-AMS (DA)
- Faisal Ahmed – Analysis of data transfer methods between non-matching meshes in multiphysics simulation. (MT)
- Aditya Nitsure – Implementation and optimization of a cache-oblivious Lattice-Boltzmann algorithm (MT)
- Fabian Wein – Improved Curvature Calculation and Surface Reconstruction forFree-Surface Fluid Simulations (MT)
- Johannes Habich – Improving computational efficiency of Lattice Boltzmann methods on complex geometries (BT)
- Sabrina Wild – Modellierung der Stromverdrängung im Läuferkreis einer Asynchronmaschine für die Simulation im Zeitbereich (BT)
- Dominik Geuß – Momentum Calculation for Particle Agglomerate Connections (BT)
- Zongying Mou – Multigrid methods for non-rigid image registration (MT)
- Jan Götz – Numerical Simulation of Blood Flow with Lattice Boltzmann Methods (MT)
- Markus Stürmer – Optimierung des Mehrgitteralgorithmus auf IA64 Rechnerarchitekturen (DA)
- Fang FANG – Pricing Bermudans and American Options with Transform Method (MT)
- Christian Feichtinger – Simulation of Moving Charged Colloids with the Lattice Boltzmann Method (DA)
- Stefan Schneider – Towards a Variational Approach to Regularized Tomographic Reconstruction (MT)
- Christian Möller – Behandlung von Potentialsingularitäten bei der EEG/MEG-basierten Rekonstruktion dipolarer Stromquellen in Finite-Elemente-Volumenleitermodellen des menschlichen Kopfes (DA)
- Alexander Döbert – Blockstrukturierte Gitter (BT)
- Christian Feichtinger – Drag Force Simulations of Particle Agglomerates with the Lattice-Boltzmann Method (SA)
- Alexander Dreweke – Implementierung und Optimierung des Lattice-Boltzmann-Verfahrens für das DSM-System Jackal (BT)
- Marc Pullmann – Implementierung und Optimierung eines Simulationssystems für nichtlineare Differentialgleichungssysteme im Zustandsraum (SA)
- Klaus Iglberger – Lattice-Boltzmann Simulation of Flow around moving Particles (MT)
- Raghavendra Pote – Numerical Solution of Drift Diffusion Equations for a Semiconductor Laser (MT)
- Markus Stürmer – Optimierung des Red-Black-Gauss-Seidel-Verfahrens auf ausgewählten x86-Prozessoren (SA)
- Simon Hausmann – Optimization and Performance Analysis of the Lattice Boltzmann Method on x86-64 based Architectures (BT)
- Patrick Münch – Optischer Fluss für Videosequenzen (SA)
- Christian Möller – Paralleler optischer Fluss in 3D (SA)
- Silke Bergler – Parallelisierung der Gitterkomponente im ORCAN Framework (SA)
- Ruslana Mys – Time dependent Simulation of Lasers by Gauss-Modes (MT)
- Stephan Forkel – Vergleich direkter Lösungsverfahren für dünnbesetzte lineare Gleichungssysteme aus der Feldsimulation (SA)
- Gunnar Radzom – Effiziente Finite-Element-Methoden auf hierarchischen unstrukturierten Gittern (DA)
- Alexander May – Entwicklung eines effizienten Maskenspeicherformates für die Photolithographie (BT)
- Hritam Dutta – Mapping of Hierarchically Partitioned Regular Algorithms onto Processor Arrays (MT)
- Iris Christadler – Mehrgitterverfahren für die Berechnung des optischen Flusses mit Nicht-Standardregularisierungen (DA)
- Volker Daum – Methods for fast Particle Tracing in unstructured Meshes (DA)
- Stefan Donath – On Optimized Implementations of the Lattice Boltzmann Method on Contemporary Architectures (BT)
- Markus Sonntag – Untersuchung eines Interior Penalty Ansatzes (SA)
- Harald Ko ̈stler – Akkurate Behandlung von Singularitäten bei partiellen Differentialgleichungen (DA)
- Sascha M ̈ohrs – Bioelectric Field Simulation and Visualization: Anisotropic Conductivities for the Skull and Brain White Matter (MT)
- Jens Wilke – Cache Optimizations for the Lattice Boltzmann Method in 2D (SA)
- Stefan Weigand – Comparison of METIS and ParMETIS Based Parallel Grid Partitioning (SA)
- Jonas Thies – Domain Decomposition for the Wave Equation (BT)
- Irina Fridman – Ein Multizeitsample-Modell für die Dipollokalisation (SA)
- Roger Wambou – Implementation of an Efficient Level-Set-Algorithm for the Simulation of Photoresist Profiles in Optical Lithography (MT)
- Nils Thürey – Lattice Boltzmann Method for Single-Phase Free Surface Flows in 3D (DA)
- Christoph Henninger – Modellierung räumlicher Objektverteilungen mittels stochastischer Optimierung (SA)
- Florian Fleißner – Optimization of Multigrid Components for High-Performance Architectures (SA)
- Iris Christadler – Patch-Adaptive Iterative Methods for Partial Differential Equations (SA)
- Klaus Iglberger – Performance Analysis and Optimization of the Lattice Boltzmann Method in 3D (BT)
- Mykhaylo Varshavskyy – Sensitivitätsanalyse für die Dipollokalisation (SA)
- Florian Altendorfner – Numerische Simulation des Einlaufbereichs eines Riserreaktors (SA)
- Markus von Rimscha – Administration von Simulations-Snapshots und Abbildung auf modifizierte Systeme (DA)
- Christian Schulz – Beschleunigung der Simulation von Petri-Netzen durch Anwendung und Erweiterung von Methoden aus der Zustandsraumsimulation (SA)
- Nils Türe – Cache Optimizations for Multigrid in 3D (SA)
- Manfred Dirscherl – Die Koppelung von Produktionsanlage und Simulation über mobile Agentensysteme (DA)
- Daniel Gerlach – Dipollokalisation bei Epilepsiepatienten (SA)
- Senol Kapici – Entwicklung tagesaktueller Kennwerte für ein Simulationsmodell eines produktionsnahen Frühwarnsystems in der Automobilindustrie (MT)
- Alexander Hausner – Parallele und objektorientierte Datenstrukturen für Domain Decompostion (SA)
- Matthias Hofmann – Schnelle Berechnung bioelektrischer Felder (SA)
- Christoph Freundl – Semiempirische Molekülorbital-Theorie für Höchstleistungsrechner (DA)
- Lely Setiawati – Analysis, Design and Implementation of a Diagnostic Component for an Internet-based Remote Diagnosis System (MT)
- Michael Luber – Entwurf und Implementierung effizienzsteigernder Techniken zur Simulation stochastischer Petrinetze (DA)
- Steffen Polster – Erweiterung des Fließschema-Simulators HYBREX durch Diskretisierung der Walzgutdarstellung (DA)
- Tobias Schmuck – Konzeption und Realisierung flexibel parametrierbarer Referenzbausteine zur Modellierung von Bestückerlinien im Simulationssystem SIMPLEX++ (SA)
- Leonid Terentiev – Numerical Methods for Bioelectric Field Problems (DA)
- Christoph Freundl – Parallelization of a Navier-Stokes Solver on a Cluster of Workstations using MPI (SA)
- Volker Daum – Runtime-Controlled Adaptivity in Multigrid Methods (SA)
- Harald Pfänder – Cacheoptimierte Mehrgitterverfahren mit variablen Koeffizienten auf strukturierten Gittern (DA)
- Michael Luber – Graphreduktionsverfahren für schnellere ereignisgesteuerte Simulation (SA)
- Markus Zetlmeisl – High-Performance Simulation of Bioelectric Fields (SA)
- Robert Schreittmiller – Konstruktion von Verfahren höherer Ordnung für elliptische Differentialgleichungen (DA)
- Harald Wörndl-Aichriedler – Adaptive Mehrgitterverfahren in Raum und Zeit (DA)
- Maxim Ponomarev – Comparison of Full Multigrid and Cascadic Multigrid Methods for Convection-Diffusion Problems (DA)
- Shi Ruiping – Modelling of Automative Failures with Stochastic Petri Nets (DA)