Bachelor's theses of year 2023
Theses and projects (PhD, MSc, BSc, Project)
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Migrating HPC Users to Reproducible Builds with Nix.
10
2023.
BibTeX Entry
@misc{mark23, author = {Kilian Markl}, title = {{Migrating} {HPC} {Users} to {Reproducible} {Builds} with {Nix}}, year = {2023}, key = {mark23}, month = {10}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Pascal Jungblut}, type = {Bachelorthesis}, } -
eBPF-based Communication Analysis of HPC Applications.
10
2023.
BibTeX Entry
@misc{wein23, author = {Paula Weinzierl}, title = {{eBPF-based} {Communication} {Analysis} of {HPC} {Applications}}, year = {2023}, key = {wein23}, month = {10}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Maximilian Höb}, type = {Bachelorthesis}, } -
Standardbasierte Bedrohungsanalyse von WebMaDa.
1
2023.
BibTeX Entry
@misc{tugl23, author = {Müslüm Eren Tuglu}, title = {{Standardbasierte} {Bedrohungsanalyse} von {WebMaDa}}, year = {2023}, key = {tugl23}, month = {1}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Guidelines für die Etablierung von Cyber Deception im Hochschulumfeld anhand einer prototypischen Umsetzung am Leibniz-Rechenzentrum (LRZ).
1
2023.
BibTeX Entry
@misc{ande23, author = {Michael Andere}, title = {{Guidelines} für die {Etablierung} von {Cyber} {Deception} im {Hochschulumfeld} anhand einer prototypischen {Umsetzung} am {Leibniz-Rechenzentrum} {(LRZ)}}, year = {2023}, key = {ande23}, month = {1}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Miran Mizani and Daniel Weber}, type = {Bachelorthesis}, } -
Realisierung eines modernen und sicheren Zutrittskontrollsystems am Leibniz-Rechenzentrum.
1
2023.
BibTeX Entry
@misc{jash23, author = {Endrit Jashari}, title = {{Realisierung} eines modernen und sicheren {Zutrittskontrollsystems} am {Leibniz-Rechenzentrum}}, year = {2023}, key = {jash23}, month = {1}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Stefan Metzger and Miran Mizani}, type = {Bachelorthesis}, } -
Optimierung des Betriebs virtueller Maschinen auf den Virtualisierungsplattformen des LRZ.
1
2023.
BibTeX Entry
@misc{eckm23, author = {Pascal Eckmann}, title = {{Optimierung} des {Betriebs} virtueller {Maschinen} auf den {Virtualisierungsplattformen} des {LRZ}}, year = {2023}, key = {eckm23}, month = {1}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Dr. Niels Fallenbeck}, type = {Bachelorthesis}, } -
Realisierung eines modernen und sicheren Zutrittskontrollsystems am Leibniz-Rechenzentrum.
1
2023.
BibTeX Entry
@misc{jash23a, author = {Endrit Jashari}, title = {{Realisierung} eines modernen und sicheren {Zutrittskontrollsystems} am {Leibniz-Rechenzentrum}}, year = {2023}, key = {jash23a}, month = {1}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Stefan Metzger and Miran Mizani}, type = {Bachelorthesis}, } -
Fuzzing eines Zeilenbasierten Protokolls am Beispiel des Systempraktikums.
2
2023.
BibTeX Entry
@misc{voig23, author = {Moritz Voigtländer}, title = {{Fuzzing} eines {Zeilenbasierten} {Protokolls} am {Beispiel} des {Systempraktikums}}, year = {2023}, key = {voig23}, month = {2}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Daniel Diefenthaler and Fabian Dreer}, type = {Bachelorthesis}, } -
Analysis of Open-Source Web Application Vulnerability Scanners.
2
2023.
BibTeX Entry
@misc{kobl23, author = {Alexander Kobler}, title = {{Analysis} of {Open-Source} {Web} {Application} {Vulnerability} {Scanners}}, year = {2023}, key = {kobl23}, month = {2}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Eine Marktanalyse für werkzeugunterstütztes Incident, Service Request und Change Management.
3
2023.
BibTeX Entry
@misc{fabe23, author = {Christopher Faber}, title = {{Eine} {Marktanalyse} für werkzeugunterstütztes {Incident,} {Service} {Request} und {Change} {Management}}, year = {2023}, key = {fabe23}, month = {3}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Michael Schmidt}, type = {Bachelorthesis}, } -
TinyIPFIX-based Aggregation in Constrained Networks.
3
2023.
BibTeX Entry
@misc{mang23, author = {Leon Mangler}, title = {{TinyIPFIX-based} {Aggregation} in {Constrained} {Networks}}, year = {2023}, key = {mang23}, month = {3}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Lücken, Brüche und Inkompatibilitäten - Eine Analyse der ISO 27002 Maßnahmen im Kontext von Multi-Cloud.
4
2023.
BibTeX Entry
@misc{seil23, author = {Maximilian Seilmaier}, title = {{Lücken,} {Brüche} und {Inkompatibilitäten} - {Eine} {Analyse} der {ISO} 27002 {Maßnahmen} im {Kontext} von {Multi-Cloud}}, year = {2023}, key = {seil23}, month = {4}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Tobias Lindinger}, type = {Bachelorthesis}, } -
Eine Leistungsanalyse neuer Lösungsansätze zur Skalierung des Ethereum Netzwerkes.
5
2023.
BibTeX Entry
@misc{mand23, author = {Paul Mandl}, title = {{Eine} {Leistungsanalyse} neuer {Lösungsansätze} zur {Skalierung} des {Ethereum} {Netzwerkes}}, year = {2023}, key = {mand23}, month = {5}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Andre Luckow}, type = {Bachelorthesis}, } -
Leistungskategorisierung von Hochleistungsanwendungen mit eBPF auf Kernel-Ebene.
6
2023.
BibTeX Entry
@misc{celi23, author = {Tobias Celik}, title = {{Leistungskategorisierung} von {Hochleistungsanwendungen} mit {eBPF} auf {Kernel-Ebene}}, year = {2023}, key = {celi23}, month = {6}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Maximilian Höb}, type = {Bachelorthesis}, } -
Indoor Localization without GPS under RIOT OS.
6
2023.
BibTeX Entry
@misc{abdy23, author = {Aigerim Abdykadyrova}, title = {{Indoor} {Localization} without {GPS} under {RIOT} {OS}}, year = {2023}, key = {abdy23}, month = {6}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Benchmarking for basic functionalities in WebMaDa.
8
2023.
BibTeX Entry
@misc{van23, author = {Minh Khang Van}, title = {{Benchmarking} for basic functionalities in {WebMaDa}}, year = {2023}, key = {van23}, month = {8}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Evaluation of C++ SIMD Libraries.
4
2023.
PDF
Abstract
Single Instruction, Multiple Data (SIMD) units parallelize code through vectorization, thus enabling substantial performance improvements. Over the last two decades, SIMD units have become part of most CPUs. Despite this availability, many applications are not taking full advantage of SIMD units since utilizing the performance potential requires highly hardwaredependent instructions. However, the increase in performance and the substantial energy savings provided by these instructions should no longer be ignored, leading to the need for an e!cient SIMD API to allow for an e!cient and portable programming model. This thesis will evaluate six of the most popular SIMD libraries by reviewing their supported extensions, functions, documentation, and ease of use. Furthermore, we will benchmark the performance of the selected libraries using a floating point benchmark and compare their results to dedicated intrinsics implementations using the AVX2, AVX512, SVE, and NEON SIMD extensions. Finally, we will also take a closer look at Google’s SIMD library, Highway, which has been rising in popularity recently. We will assess if the library is ready to take on complex real-world algorithms by conducting a case study on the vectorization of an algorithm operating on unsigned integers. The results of the floating-point benchmark show that multiple libraries can match the performance of compiler intrinsics. Highway excelled with a strong performance across multiple SIMD extensions for the real-world integer algorithm. Thus, Highway may currently be the most suitable SIMD library for many software projects.BibTeX Entry
@misc{rock23, author = {Felix Rocke}, title = {{Evaluation} of {C++} {SIMD} {Libraries}}, year = {2023}, pdf = {https://bib.nm.ifi.lmu.de/pdf/rock23.pdf}, abstract = {Single Instruction, Multiple Data (SIMD) units parallelize code through vectorization, thus enabling substantial performance improvements. Over the last two decades, SIMD units have become part of most CPUs. Despite this availability, many applications are not taking full advantage of SIMD units since utilizing the performance potential requires highly hardwaredependent instructions. However, the increase in performance and the substantial energy savings provided by these instructions should no longer be ignored, leading to the need for an e!cient SIMD API to allow for an e!cient and portable programming model. This thesis will evaluate six of the most popular SIMD libraries by reviewing their supported extensions, functions, documentation, and ease of use. Furthermore, we will benchmark the performance of the selected libraries using a floating point benchmark and compare their results to dedicated intrinsics implementations using the AVX2, AVX512, SVE, and NEON SIMD extensions. Finally, we will also take a closer look at Google’s SIMD library, Highway, which has been rising in popularity recently. We will assess if the library is ready to take on complex real-world algorithms by conducting a case study on the vectorization of an algorithm operating on unsigned integers. The results of the floating-point benchmark show that multiple libraries can match the performance of compiler intrinsics. Highway excelled with a strong performance across multiple SIMD extensions for the real-world integer algorithm. Thus, Highway may currently be the most suitable SIMD library for many software projects.}, key = {rock23}, month = {4}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Karl Fuerlinger and Sergej Breiter}, type = {Bachelorthesis}, } -
Interactive Floor Plan Extension For SecureWSN.
8
2023.
BibTeX Entry
@misc{abbe23, author = {David Noel Abbe}, title = {{Interactive} {Floor} {Plan} {Extension} {For} {SecureWSN}}, year = {2023}, key = {abbe23}, month = {8}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Educational Visualization of TCP Congestion Control Algorithms.
8
2023.
BibTeX Entry
@misc{stad23, author = {Alexander Stadelmann}, title = {{Educational} {Visualization} of {TCP} {Congestion} {Control} {Algorithms}}, year = {2023}, key = {stad23}, month = {8}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Daniel Diefenthaler}, type = {Bachelorthesis}, } -
Connectivity solutions for IoT devices in remote locations.
8
2023.
BibTeX Entry
@misc{jone23, author = {Verena Jones}, title = {{Connectivity} solutions for {IoT} devices in remote locations}, year = {2023}, key = {jone23}, month = {8}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Helmut Heller}, type = {Bachelorthesis}, } -
Das Zero Trust Konzept und seine Anwendung - Design und Evaluation einer prototypischen Architektur am Leibniz-Rechenzentrum.
9
2023.
BibTeX Entry
@misc{kilg23, author = {Moritz Kilgenstein}, title = {{Das} {Zero} {Trust} {Konzept} und seine {Anwendung} - {Design} und {Evaluation} einer prototypischen {Architektur} am {Leibniz-Rechenzentrum}}, year = {2023}, key = {kilg23}, month = {9}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Stefan Metzger}, type = {Bachelorthesis}, } -
Kollisionsmanagement im Lehrbetrieb – Ein Visualisierungsapplet für CSMA.
9
2023.
BibTeX Entry
@misc{klew23, author = {Lauritz Klewin}, title = {{Kollisionsmanagement} im {Lehrbetrieb} – {Ein} {Visualisierungsapplet} für {CSMA}}, year = {2023}, key = {klew23}, month = {9}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Daniel Diefenthaler}, type = {Bachelorthesis}, } -
Evaluation of Database Management Systems for the EXA4MIND Project.
9
2023.
BibTeX Entry
@misc{brun23, author = {Roberto Brunati}, title = {{Evaluation} of {Database} {Management} {Systems} for the {EXA4MIND} {Project}}, year = {2023}, key = {brun23}, month = {9}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Dr. Stephan Hachinger}, type = {Bachelorthesis}, } -
Optimizing Data Center Operations through Continuous KPI Provisioning and Visual Analytics.
10
2023.
BibTeX Entry
@misc{klei23, author = {Tabea Klein}, title = {{Optimizing} {Data} {Center} {Operations} through {Continuous} {KPI} {Provisioning} and {Visual} {Analytics}}, year = {2023}, key = {klei23}, month = {10}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Maximilian Höb and Michael Ott (LRZ)}, type = {Bachelorthesis}, } -
Utilizing a Game Engine to Create an Efficient Real-Time Visualization of Spatial and Temporal Simulation Data.
10
2023.
BibTeX Entry
@misc{wlok23, author = {Kristin Wloka}, title = {{Utilizing} a {Game} {Engine} to {Create} an {Efficient} {Real-Time} {Visualization} of {Spatial} and {Temporal} {Simulation} {Data}}, year = {2023}, key = {wlok23}, month = {10}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Thomas Odaker and Elisabeth Mayer}, type = {Bachelorthesis}, } -
FBS GUARD - A False Base Station Detection Tool for Modern Cellular Communication Standards.
11
2023.
BibTeX Entry
@misc{dist23, author = {Michael Distl}, title = {{FBS} {GUARD} - A {False} {Base} {Station} {Detection} {Tool} for {Modern} {Cellular} {Communication} {Standards}}, year = {2023}, key = {dist23}, month = {11}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Software prefetching for irregular memory access patterns.
11
2023.
BibTeX Entry
@misc{arno23, author = {Fabian Arnold}, title = {{Software} prefetching for irregular memory access patterns}, year = {2023}, key = {arno23}, month = {11}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Sergej Breiter}, type = {Bachelorthesis}, } -
A strategy for migrating graphical application frameworks in .NET.
11
2023.
BibTeX Entry
@misc{fich23, author = {Marc Fichtner}, title = {A strategy for migrating graphical application frameworks in {.NET}}, year = {2023}, key = {fich23}, month = {11}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Daniel Diefenthaler and Florian Krötz}, type = {Bachelorthesis}, } -
Analyse und Erweiterung eines Spieleservers zur Unterstützung der Lehre.
12
2023.
BibTeX Entry
@misc{main23, author = {Julius Mainzer}, title = {{Analyse} und {Erweiterung} eines {Spieleservers} zur {Unterstützung} der {Lehre}}, year = {2023}, key = {main23}, month = {12}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Daniel Diefenthaler and Fabian Dreer}, type = {Bachelorthesis}, } -
Performance Analysis of Standard Lightweight Block Ciphers in Comparison to AES.
12
2023.
BibTeX Entry
@misc{deni23, author = {Mustafa Deniz}, title = {{Performance} {Analysis} of {Standard} {Lightweight} {Block} {Ciphers} in {Comparison} to {AES}}, year = {2023}, key = {deni23}, month = {12}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
DAnTe - A Data Collection Tool For End-to-End Traffic Analysis Attacks on the Tor Network.
12
2023.
BibTeX Entry
@misc{erka23, author = {Kerem Yavuz Erkal}, title = {{DAnTe} - A {Data} {Collection} {Tool} {For} {End-to-End} {Traffic} {Analysis} {Attacks} on the {Tor} {Network}}, year = {2023}, key = {erka23}, month = {12}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
MARTEN 2.0 - Dynamic Trust Check.
12
2023.
BibTeX Entry
@misc{kurz23, author = {Alexander Kurz}, title = {{MARTEN} 2.0 - {Dynamic} {Trust} {Check}}, year = {2023}, key = {kurz23}, month = {12}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Corinna Schmitt}, type = {Bachelorthesis}, } -
Assessing the Impact of Oriented Ice Crystals in Ice Water Clouds on Earthshine Observations using Monte Carlo Simulations.
11
2023.
PDF
BibTeX Entry
@misc{muhl23, author = {Ramona Mühleisen}, title = {{Assessing} the {Impact} of {Oriented} {Ice} {Crystals} in {Ice} {Water} {Clouds} on {Earthshine} {Observations} using {Monte} {Carlo} {Simulations}}, year = {2023}, pdf = {/teaching/Ausschreibungen/Fopras/ba-earthshine}, key = {muhl23}, month = {11}, school = {Ludwig-Maximilians-Universität München}, supervisors = {Florian Krötz and Claudia Emde}, type = {Bachelorthesis}, }
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