publ-eml.bib
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and ( not ( $key : "presentation" ))
and ( not ( $type : "techreport" ))
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@inproceedings{janser:2026a,
author = {Jonas Janser and Matthias Wess and Dominik Dallinger
and Matthias Bittner and Daniel Schn\"{o}ll and Axel Jantsch},
title = {Spring reverb emulation with hybrid gated
convolutional networks and state space models},
key = {eml,cdl},
booktitle = {IEEE International Conference on Acoustics, Speech, and Signal Processing},
year = 2026,
month = {May},
address = {Barcelona, Spain},
url = {http://jantsch.se/AxelJantsch/papers/2026/JonasJanser-ICASSP2026.pdf}
}
@article{berg:2026a,
author = {Berg, Oscar Artur Bernd and Saqib, Eiraj and
Jantsch, Axel and Leal, Isaac S\'{a}nchez and Shallari,
Irida and Krug, Silvia and O'Nils, Mattias},
journal = {IEEE Access},
title = {{BranchySplit}: Dynamic Partitioning and Early Exits
for Accelerated Edge Inference},
year = 2026,
pages = {1-1},
key = {eml},
doi = {10.1109/ACCESS.2026.3651845}
}
@article{leal:2025a,
author = {Leal, Isaac S\'{a}nchez and Berg, Oscar Artur Bernd
and Krug, Silvia and Saqib, Eiraj and Shallari,
Irida and Jantsch, Axel and O'Nils, Mattias and
Nordstr\"{o}m, Tomas},
journal = {IEEE Access},
title = {Quantization Compensator Network: Server-Side
Feature Reconstruction in Partitioned IoT Systems},
year = 2025,
volume = 13,
pager = {186488-186508},
pages = {1-1},
key = {eml},
url = {http://jantsch.se/AxelJantsch/papers/2025/IsaacSLeal-QCN-IEEEAccess.pdf},
doi = {10.1109/ACCESS.2025.3627072}
}
@inproceedings{schnoell:2024a,
author = { Daniel Schn\"{o}ll and Dominik Dallinger and
Matthias Wess and Matthias Bittner and Axel Jantsch
},
title = { Towards Optimal Implementations of Neural Networks
on Micro-Controller},
key = {cdl,eml},
booktitle = {Proceedings of the ITEM Workshop - IoT, Edge, and
Mobile for Embedded Machine Learning},
year = 2024,
month = {September},
address = {Vilnius, Lithuania},
url = {http://jantsch.se/AxelJantsch/papers/2024/DanielSchnoell-ITEM.pdf}
}
@inproceedings{schnoell:2025a,
author = { Daniel Schn\"{o}ll and Matthias Bittner and Axel
Jantsch },
title = {Implementation and Optimization of Diagonal State Space Models},
booktitle = {Proceedings of the ITEM Workshop - IoT, Edge, and
Mobile for Embedded Machine Learning},
year = 2025,
month = {September},
address = {Porto, Portugal},
key = {eml,cdl},
url = {http://jantsch.se/AxelJantsch/papers/2025/DanielSchnoell-ITEM.pdf}
}
@inproceedings{rusy:2025a,
author = {Karel Rus\'{y} and Fabian Seiler and David Breuss
and Axel Jantsch},
title = { {SYNAD}: A Synthetic Object Injection Methodology
for Enhanced Anomaly Detection },
key = {eml,cdl},
booktitle = { Proceedings of the 2025 8th International
Conference on Machine Vision and Applications
(ICMVA) },
year = 2025,
month = {June},
address = {Melbourne, Australia},
publisher = {SPIE - The Society of Photo-Optical Instrumentation
Engineers },
doi = {10.1117/12.3078677},
url = {http://jantsch.se/AxelJantsch/papers/2025/KarelRusy-ICMVA.pdf}
}
@article{berg:2025c,
author = {Berg, Oscar Artur Bernd and Saqib, Eiraj and
Jantsch, Axel and Shallari, Irida and Krug, Silvia
and Leal, Isaac S\'{a}nchez and O'Nils, Mattias},
journal = {IEEE Access},
title = {{TCL}: Time-dependent Clustering Loss for Optimizing
Post-Training Feature Map Quantization for
Partitioned DNNs},
year = 2025,
key = {eml,cdl},
pages = {1-1},
url = {http://jantsch.se/AxelJantsch/papers/2025/OscarBerg-TCL-IEEEAccess.pdf
},
doi = {10.1109/ACCESS.2025.3579107}
}
@inproceedings{dallinger:2025a,
author = {Dominik Dallinger and Matthias Bittner and Daniel
Schn{\"o}ll and Matthias Wess and Axel Jantsch},
title = { Piano-{SSM}: Diagonal state space models for
efficient midi-to-raw audio synthesis},
key = {eml,cdl},
booktitle = {Proceedings of the 28th International Conference on
Digital Audio Effects (DAFx25)},
year = 2025,
month = {September},
address = {Ancona, Italy},
url = {
http://jantsch.se/AxelJantsch/papers/2025/DominikDallinger-DAFx25.pdf}
}
@inproceedings{berg:2025b,
author = {Oscar Artur Bernd Berg and Eiraj Saqib and Axel
Jantsch and Mattias O'Nils and Irida Shallari and Isaac
S\'{a}nchez Leal and Silvia Krug },
title = { Quantization-Aware Training for Autoencoder-Based
Partitioning of {CNNs} },
key = {eml,cdl},
booktitle = {Proceedings of the 4th IEEE Workshop on Pervasive
and Resource-Constrained Artificial Intelligence
(PeRConAI), co-located with IEEE Percom },
year = 2025,
month = {March},
address = {Washington DC, USA},
note = { Best Paper Award}
}
@inproceedings{berg:2025a,
author = { Oscar Artur Bernd Berg and Eiraj Saqib and Axel
Jantsch and Mattias O'Nils and Silvia Krug and
Irida Shallari and Isaac S\'{a}nchez Leal},
title = {Efficient Inference of parallel partitioned hybrid-Vision Transformers},
key = {cdl,eml},
booktitle = {Proceedings of the 4th Real-time And intelliGent
Edge computing workshop (RAGE) at CPS-IOT WEEK },
year = 2025,
month = {May},
address = {Irvine, USA}
}
@inproceedings{shakibhamedan:2024b,
title = {An Analytical Approach to Enhancing {DNN} Efficiency
and Accuracy Using Approximate Multiplication},
author = {Salar Shakibhamedan and Anice Jahanjoo and Amin
Aminifar and Nima Amirafshar and Nima TaheriNejad
and Axel Jantsch},
booktitle = {2nd Workshop on Advancing Neural Network Training:
Computational Efficiency, Scalability, and Resource
Optimization (WANT@ICML 2024)},
year = 2024,
key = {cdl,eml,circuits},
url = {https://openreview.net/forum?id=rver7enVfY}
}
@incollection{katare:2024a,
author = {Dewant Katare and Salar Shakibhamedan and Nima
Amirafshar and Nima Taherinejad and Axel Jantsch and
Marijn Janssen and Aaron Yi Ding },
title = {Approximation Strategies for Vision Models on Edge
Devices: An Accuracy-Efficiency Trade-off },
booktitle = {TechRxiv},
key = {eml,circuits},
month = {December},
year = 2024,
doi = {10.36227/techrxiv.173337762.24402407/v1},
url = {http://jantsch.se/AxelJantsch/papers/2024/DewantKatare-TechRxiv.pdf}
}
@incollection{shakibhamedan:2024a,
author = {Salar Shakibhamedan and Amin Aminifar and Nima
Taherinejad and Axel Jantsch},
title = { {EASE}: Energy Optimization through Adaptation - A
Review of Runtime Energy-Aware Approximate Deep
Learning Algorithms},
booktitle = {TechRxiv},
key = {eml,survey},
month = {February},
year = 2024,
url = {http://jantsch.se/AxelJantsch/papers/2024/SalarShakibhamedan-TechRxiv.pdf},
doi = {10.36227/techrxiv.170723230.09169589/v1}
}
@inproceedings{bittner:2024c,
author = {Bittner, Matthias and Hauer, Daniel and Wess,
Matthias and Schnöll, Daniel and Diwold, Konrad and
Jantsch, Axel},
booktitle = {2024 8th International Conference on System
Reliability and Safety (ICSRS)},
title = {Forecasting Load Profiles and Critical Overloads
with Uncertainty Quantification for Low Voltage
Smart Grids},
year = 2024,
pages = {138-147},
key = {cdl,eml},
doi = {10.1109/ICSRS63046.2024.10927481}
}
@inproceedings{bittner:2024b,
author = {Matthias Bittner and Daniel Hauer and Matthias Wess
and Dominik Dallinger and Daniel Schn\"{o}ll and
Konrad Diwold and Axel Jantsch },
title = {Interpretable Load Forecasting with Structured State
Space Neural Networks },
key = {cdl,eml},
booktitle = { Proceedings of the European Conference on Machine Learning and Principles and Practice of Knowledge Discovery in Databases},
year = 2024
}
@inproceedings{jantsch:2024b,
author = {Axel Jantsch and Song Han and Lin Meng and Oliver
Bringmann and Haotian Tang and Shang Yang and Hengyi
Li and Matthias Wess and Martin Lechner},
title = {Special Session: Estimation and Optimization of
{DNN}s for Embedded Platforms},
key = {eml,cdl},
booktitle = {Proceedings of the International Symposium on
Hardware Software Codesign},
year = 2024,
pages = {21-30},
month = {October},
doi = {10.1109/CODES-ISSS60120.2024.00013},
address = {Raleigh, NC}
}
@inproceedings{leopold:2024a,
author = {Thomas Leopold and Axel Jantsch},
title = {Colorado Potato Beetle Dataset and Detection for
Monitoring and Management in Potato Fields },
key = {eml},
booktitle = {Proceedings of the Austrian Symposion on AI, Robotics and Vision },
year = 2024,
address = {Austria},
url = {http://jantsch.se/AxelJantsch/papers/2024/ThomasLeopold-AIROV.pdf}
}
@inproceedings{bittner:2025c,
author = {Matthias Bittner and Daniel Schn\"{o}ll and Fabian
Seiler and Matthias Wess and Axel Jantsch},
title = {Modeling Diagonal State Space Models as Electric
Circuits for Analog Neural Network Inference},
key = {eml,cdl,circuit},
booktitle = {International workshop on Deep Learning meets
Neuromorphic Hardware},
year = 2025,
month = {September},
address = {Porto, Portugal},
note = { Best Poster Award },
doi = {10.1007/978-3-032-19099-4_30},
url = {http://jantsch.se/AxelJantsch/papers/2025/MatthiasBittner-AnalogSSM.pdf}
}
@inproceedings{bittner:2025b,
author = {Matthias Bittner and Daniel Schn\"{o}ll and Dominik
Dallinger and Matthias Wess and Axel Jantsch},
title = {Pruning State Space Models with Model Order
Reduction for Efficient Raw Audio Classification},
key = {cdl,eml},
booktitle = { European Signal Processing Conference (EUSIPCO) },
year = 2025,
month = {September},
address = {Palermo, Italy},
doi = {10.23919/EUSIPCO63237.2025.11226287},
url = {http://jantsch.se/AxelJantsch/papers/2025/MatthiasBittner-Eusipco.pdf}
}
@article{bittner:2025a,
author = {Bittner, Matthias and Schn{\"o}ll, Daniel and Wess,
Matthias and Jantsch, Axel},
title = {Efficient and interpretable raw audio classification
with diagonal state space models},
journal = {Machine Learning},
year = 2025,
month = {Jun},
day = 19,
volume = 114,
number = 8,
pages = 175,
key = {cdl,eml},
abstract = {State Space Models have achieved good performance on
long sequence modeling tasks such as raw audio
classification. Their definition in continuous time
allows for discretization and operation of the
network at different sampling rates. However, this
property has not yet been utilized to decrease the
computational demand on a per-layer basis. We
propose a family of hardware-friendly S-Edge models
with a layer-wise downsampling approach to adjust
the temporal resolution between individual
layers. Applying existing methods from linear
control theory allows us to analyze state/memory
dynamics and provides an understanding of how and
where to downsample. Evaluated on the Google Speech
Command dataset, our autoregressive/causal S-Edge
models range from 8--141k parameters at 90--95{\%}
test accuracy in comparison to a causal S5 model
with 208k parameters at 95.8{\%} test
accuracy. Using our C++17 header-only implementation
on an ARM Cortex-M4F the largest model requires
103 sec. inference time with 95.19{\%} test
accuracy, and the smallest model with 88.01{\%} test
accuracy, requires 0.29 sec. Our solutions cover a
design space that spans 17x in model size, 358x in
inference latency, and 7.18 percentage points in
accuracy.},
issn = {1573-0565},
doi = {10.1007/s10994-025-06807-z},
url = {https://doi.org/10.1007/s10994-025-06807-z}
}
@inproceedings{breuss:2024a,
author = {David Breuss and Karel Rus\'y and Maximilian
G\"{o}tzinger and Axel Jantsch},
title = {Generation of Synthetic Image Anomalies for Analysis
and Evaluation },
key = {cdl,eml},
booktitle = {Proceedings of the International Conference on
Intelligent Systems and Pattern Recognition},
year = 2024,
url = {
http://jantsch.se/AxelJantsch/papers/2024/DavidBreuss-ISPR.pdf}
}
@inproceedings{bittner:2023b,
author = {Matthias Bittner and Sanaa Hobeichi and Muhammad
Zawish and Samo Diatta and Remigious Ozioko and
Sharon Xu and Axel Jantsch },
title = {An {LSTM}-based Downscaling Framework for {Australian}
Precipitation Projections },
key = {eml,cdl},
booktitle = {NeurIPS 2023 Workshop: Tackling Climate Change with
Machine Learning at the Conference on Neural
Information Processing Systems },
year = 2023,
address = {December},
url = {http://jantsch.se/AxelJantsch/papers/2023/MatthiasBittner-CCAI-NeurIPS.pdf}
}
@inproceedings{bittner:2023a,
author = {Matthias Bittner and Daniel Hauer and Christian
Stippel and Katharina Scheucher and Robin Sudhoff
and Axel Jantsch },
title = {Forecasting Critical Overloads based on
Heterogeneous Smart Grid Simulation },
key = {eml,cdl},
booktitle = { Proceedings of the International Conference on
Machine Learning and Applications (ICMLA},
year = 2023,
month = {December},
address = {Jacksonville, Florida, USA},
organization = {IEEE and AMLA},
url = {http://jantsch.se/AxelJantsch/papers/2023/MatthiasBittner-ICMLA.pdf}
}
@inproceedings{schnoell:2023a,
author = {Daniel Schn\"{o}ll and Matthias Wess and Matthias Bittner and Maximilian G\"{o}tzinger and Axel Jantsch },
title = {Fast, Quantization Aware {DNN} Training for Efficient {HW} Implementation},
key = {cdl,ict,eml},
booktitle = { Proceedings of the 26th Euromicro Conference on Digital System Design (DSD)},
year = 2023,
month = {September},
address = {Durres, Albania},
url = {http://jantsch.se/AxelJantsch/papers/2023/DanielSchnoell-DSD.pdf}
}
@inproceedings{breuss:2023a,
author = {David Breuss and Maximilian G\"{o}tzinger and Jenny Vuong and Clemens Reisner and Axel Jantsch },
title = { {VADAR:} A Vision-based Anomaly Detection Algorithm for Railroads},
key = {cdl,ict,eml},
booktitle = {Proceedings of the 26th Euromicro Conference on
Digital System Design (DSD)},
year = 2023,
month = {September},
address = {Durres, Albania},
url = {http://jantsch.se/AxelJantsch/papers/2023/DavidBreuss-DSD.pdf}
}
@inproceedings{wess:2023a,
author = {Matthias Wess and Dominik Dallinger and Daniel
Schn\"{o}ll and Matthias Bittner and Maximilian
G\"{o}tzinger and Axel Jantsch },
title = {Energy Profiling of {DNN} Accelerators},
key = {cdl,ict,eml},
booktitle = {Proceedings of the 26th Euromicro Conference on
Digital System Design (DSD)},
year = 2023,
month = {September},
address = {Durres, Albania},
url = {http://jantsch.se/AxelJantsch/papers/2023/MatthiasWess-DSD.pdf}
}
@inproceedings{saqib:2025a,
author = {Eiraj Saqib and Oscar Berg and Isaac Leal and Irida
Shallari and Axel Jantsch and Silvia Krug and Mattias O’Nils},
title = {Efficient Edge Inference via Entropy and
Magnitude-Aware Feature Map Pruning in Partitioned {CNNs} },
key = {eml},
booktitle = { Proceedings of the International Conference on
Machine Learning (ICML) },
year = 2025,
address = {Vancouver, Canada},
doi = {10.1109/ICMLA66185.2025.00156},
url = {http://jantsch.se/AxelJantsch/papers/2025/EirajSaqib-ICML.pdf}
}
@inproceedings{saqib:2023a,
author = { Eiraj Saqib and Isaac S\'{a}nchez Leal and Irida
Shallari and Axel Jantsch and Silvia Krug and
Mattias O'Nils },
title = { Optimizing the {IoT} Performance: A Case Study on
Pruning a Distributed {CNN} },
booktitle = {Proceedings of the IEEE Sensors Applications Symposium (SAS) },
year = 2023,
key = {eml},
url = {http://jantsch.se/AxelJantsch/papers/2023/EirajSaqib-SAS.pdf}
}
@inproceedings{leal:2023a,
author = { Isaac S\'{a}nchez Leal and Eiraj Saqib and Irida Shallari and
Axel Jantsch and Silvia Krug and Mattias O'Nils },
title = {Waist Tightening of {CNNs}: A Case study on Tiny YOLOv3 for Distributed IoT Implementations},
key = {eml},
booktitle = {Proceedings of the Real-time And intelliGent Edge
computing workshop (RAGE) },
year = 2023,
month = {May},
address = {San Antonio, Texas},
url = {http://jantsch.se/AxelJantsch/papers/2023/IsaacSanchezLeal-RAGE.pdf
}
}
@inproceedings{kotrba:2023a,
author = {Thomas Kotrba and Martin Lechner and Omair Sarwar
and Axel Jantsch },
title = {Multispectral Feature Fusion for Deep Object
Detection on Embedded {Nvidia} Platforms },
key = {cdl,ict,eml},
booktitle = { Design, Automation {\&} Test in Europe Conference
{\&} Exhibition ({DATE}) },
year = 2023,
month = {April},
address = {Antwerp, Belgium},
url = {http://jantsch.se/AxelJantsch/papers/2023/ThomasKotrba-DATE.pdf}
}
@article{lundstroem:2022a,
author = {Lundstr\"om, Adam and O'Nils, Mattias and Qureshi,
Faisal and Jantsch, Axel},
journal = {IEEE Access},
title = {Improving deep learning based anomaly detection on
multivariate time series through separated anomaly
scoring},
year = 2022,
pages = {1-1},
key = {eml},
doi = {10.1109/ACCESS.2022.3213038}
}
@article{mozelli:2021a,
author = {Amid Mozelli and Nima Taherinejad and Axel Jantsch},
title = {A Study on Confidence: an Unsupervised Multi-Agent
Machine Learning Experiment },
journal = {IEEE Design \& Test of Computers },
year = 2021,
key = {eml,cdl,ict,selfaware},
issn = { 2168-2356 },
doi = { 10.1109/MDAT.2021.3078341 }
}
@article{leal:2021a,
author = {Isaac S\'{a}nchez Leal and Irida Shallari and Silvia
Krug and Axel Jantsch and Mattias O'Nils },
title = { Impact of Input Data on Intelligence Partitioning
Decisions for {IoT} Smart Camera Nodes },
journal = { Electronics },
year = 2021,
volume = 10,
number = 16,
key = {eml},
annote = { SCIE indexed },
issn = { 2079-9292 },
doi = {10.3390/electronics10161898},
url = {http://jantsch.se/AxelJantsch/papers/2021/IsaacLeal-MDPIElectronics.pdf}
}
@article{shallari:2021a,
author = {Shallari, Irida and S\'{a}nchez Leal, Isaac and Krug,
Silvia and Jantsch, Axel and O'Nils, Mattias},
journal = {IEEE Access},
title = {{Design space exploration on IoT node: Trade-offs in
processing and communication}},
year = 2021,
key = {eml},
doi = {10.1109/ACCESS.2021.3074875},
url = {http://jantsch.se/AxelJantsch/papers/2021/IridaShallari-IEEEAccess.pdf},
issn = {2169-3536}
}
@article{lechner:2025a,
author = {Martin Lechner and Axel Jantsch},
title = { Hardware-Aware Pruning for Efficient Inference on
Embedded Devices },
journal = { IEEE Access },
volume = 13,
key = {eml,cdl,ict},
doi = {10.1109/ACCESS.2025.3628133},
url = {http://jantsch.se/AxelJantsch/papers/2025/MartinLechner-HWPruning-IEEEAccess.pdf
},
year = 2025
}
@inproceedings{lechner:2022a,
author = {Martin Lechner and Axel Jantsch and Lukas Steindl},
title = {Study of {DNN}-based Ragweed Detection from Drones},
key = {eml,cdl,ict},
booktitle = {Proceedings of International Conference on Embedded
Computer Systems: Architectures, Modeling and
Simulation (SAMOS)},
year = 2022,
month = {July},
address = {Samos, Greece},
url = {http://jantsch.se/AxelJantsch/papers/2022/MartinLechner-SAMOS.pdf}
}
@inproceedings{haas:2021a,
author = { Bernhard Haas and Alexander Wendt and Axel Jantsch
and Matthias Wess },
title = {Neural Network Compression Through Shunt Connections
and Knowledge Distillation for Semantic Segmentation
Problems },
key = {eml,cdl,ict},
booktitle = {17th International Conference on Artificial
Intelligence Applications and Innovations (AIAI)},
month = {June},
doi = {https://doi.org/10.1007/978-3-030-79150-6},
year = 2021,
url = {https://link.springer.com/chapter/10.1007/978-3-030-79150-6_28}
}
@article{lechner:2021a,
author = {Martin Lechner and Axel Jantsch},
title = {Blackthorn: Latency Estimation Framework for {CNNs}
on Embedded {Nvidia} Platforms},
journal = {IEEE Access},
year = 2021,
key = {eml,cdl,ict},
doi = {10.1109/ACCESS.2021.3101936},
url = {http://jantsch.se/AxelJantsch/papers/2021/MartinLechner-IEEEAccess.pdf}
}
@article{wess:2024a,
author = {Wess, Matthias and Schn\"{o}ll, Daniel and
Dallinger, Dominik and Bittner, Matthias and
Jantsch, Axel},
title = {Conformal Prediction based Confidence for Latency
Estimation of {DNN} Accelerators: A Black-box
Approach },
journal = {IEEE Access},
issn = {2169-3536},
key = {eml,cdl,ict},
year = 2024,
doi = {10.1109/ACCESS.2024.3439850},
url = {http://jantsch.se/AxelJantsch/papers/2024/MatthiasWess-IEEEAccess2024-final.pdf}
}
@article{wess:2021a,
author = {Matthias Wess and Marco Ivanov and Christian Unger and
Anvesh Nookala and Alexander Wendt and Axel Jantsch},
journal = {IEEE Access},
title = {{ANNETTE}: Accurate Neural Network Execution Time
Estimation With Stacked Models},
year = 2021,
volume = 9,
pages = {3545-3556},
key = {eml,cdl,ict},
abstract = {With new accelerator hardware for Deep Neural
Networks (DNNs), the computing power for Artificial
Intelligence (AI) applications has increased
rapidly. However, as DNN algorithms become more
complex and optimized for specific applications,
latency requirements remain challenging, and it is
critical to find the optimal points in the design
space. To decouple the architectural search from the
target hardware, we propose a time estimation
framework that allows for modeling the inference
latency of DNNs on hardware accelerators based on
mapping and layer-wise estimation models. The
proposed methodology extracts a set of models from
micro-kernel and multi-layer benchmarks and
generates a stacked model for mapping and network
execution time estimation. We compare estimation
accuracy and fidelity of the generated mixed models,
statistical models with the roofline model, and a
refined roofline model for evaluation. We test the
mixed models on the ZCU102 SoC board with Xilinx
Deep Neural Network Development Kit (DNNDK) and
Intel Neural Compute Stick 2 (NCS2) on a set of 12
state-of-the-art neural networks. It shows an
average estimation error of 3.47\% for the DNNDK and
7.44\% for the NCS2, outperforming the statistical
and analytical layer models for almost all selected
networks. For a randomly selected subset of 34
networks of the NASBench dataset, the mixed model
reaches fidelity of 0.988 in Spearman’s $\rho $ rank
correlation coefficient metric.},
doi = {10.1109/ACCESS.2020.3047259},
url = {http://jantsch.se/AxelJantsch/papers/2021/MatthiasWess-IEEEAccess.pdf},
issn = {2169-3536}
}
@inproceedings{colucci:2021a,
author = {Alessio Colucci and D\'avid Juh\'asz and Martin Mosbeck
and Alberto Marchisio and Semeen Rehman and Manfred
Kreutzer and G\"{u}nter Nadbath and Axel Jantsch and
Muhammad Shafique },
title = { {MLComp}: A Methodology for Machine Learning-based
Performance Estimation and Adaptive Selection of
{Pareto}-Optimal Compiler Optimization Sequences },
key = {eml},
booktitle = {Proceedings of the Design, Automation and Test in Europe Conference and Exhibition },
year = 2021,
month = {March},
url = {http://jantsch.se/AxelJantsch/papers/2021/DavidJuhasz-DATE.pdf}
}
@article{taherinejad:2020a,
author = {Nima TaheriNejad and Andreas Herkersdorf and
Axel Jantsch},
journal = {IEEE Design Test},
title = {Autonomous Systems, Trust and Guarantees},
year = 2020,
issn = {2168-2356},
doi = { 10.1109/MDAT.2020.3024145},
url = {http://jantsch.se/AxelJantsch/papers/2020/NimaTaherinejad-DesignAndTest.pdf},
key = {selfaware,eml,cdl,ict},
pages = {1-1}
}
@incollection{wendt:2023a,
author = { Alexander Wendt and Horst Possegger and Matthias
Bittner and Daniel Schn\"{o}ll and Matthias Wess and
Du\v{s}an Mali\'{c} and Horst Bischof and Axel
Jantsch },
title = { A Pedestrian Detection Case Study for a Traffic
Light Controller },
booktitle = { Embedded Machine Learning for Cyber-Physical, IoT,
and Edge Computing - Software Optimizations and
Hardware/Software Codesign },
key = {eml,cdl,ict},
publisher = {Springer},
year = 2023,
editor = {Sudeep Pasricha and Muhammad Shafique},
pages = {75--96},
doi = {10.1007/978-3-031-39932-9},
url = {https://link.springer.com/chapter/10.1007/978-3-031-39932-9_4}
}
@article{hoffmann:2020a,
author = {Henrik Hoffmann and Axel Jantsch and Nikil
Dutt},
journal = {Proceedings of the IEEE},
title = {Embodied Self-Aware Computing Systems},
year = 2020,
pages = {1-20},
key = {selfaware,eml,cdl,ict},
doi = {10.1109/JPROC.2020.2977054},
issn = {1558-2256},
url = {http://jantsch.se/AxelJantsch/papers/2020/HankHoffmann-IEEEProceedings.pdf}
}
@inproceedings{lechner:2019a,
author = {Martin {Lechner} and Axel {Jantsch} and Sai
M. P. {Dinakarrao}},
booktitle = {2019 Tenth International Green and Sustainable
Computing Conference (IGSC)},
title = {{ResCoNN}: Resource-Efficient {FPGA}-Accelerated
{CNN} for Traffic Sign Classification},
year = 2019,
pages = {1-6},
key = {eml},
doi = {10.1109/IGSC48788.2019.8957186},
issn = {null},
month = {Oct}
}
@inproceedings{wendt:2020a,
author = { David Bechtold and Alexander Wendt and Axel Jantsch },
title = {Evaluation of Reinforcement Learning Methods for a Self-learning System},
booktitle = {Proceedings of the 12th International Conference on Agents and Artificial Intelligence (ICAART 2020)},
year = 2020,
volume = 2,
month = {February},
address = {Valletta, Malta},
key = {selfaware,eml},
url = {http://jantsch.se/AxelJantsch/papers/2020/AlexWendt-SelfLearningAgent-ICAART.pdf
}
}
@article{bellman:2020a,
author = {Kerstin Bellman and Nikil Dutt and Lukas Esterle and
Andreas Herkersdorf and Axel Jantsch and C. Landauer
and P. R. Lewis and M. Platzner and N. TaheriNejad
and K. Tammem\"{a}e},
journal = {ACM Transactions on Cyber-Physical Systems},
title = {Self-aware Cyber-Physical Systems},
year = 2020,
key = {selfaware,eml,cdl,ict},
pages = {1-24},
address = {New York, NY, USA},
volume = {4},
number = {4},
issn = {2378-962X},
url = {http://jantsch.se/AxelJantsch/papers/2020/KirstinBellmann-TCPS.pdf},
doi = {10.1145/3375716},
abstract = {In this article, we make the case for the new class
of Self-aware Cyber-physical Systems. By bringing
together the two established fields of
cyber-physical systems and self-aware computing, we
aim at creating systems with strongly increased yet
managed autonomy, which is a main requirement for
many emerging and future applications and
technologies. Self-aware cyber-physical systems are
situated in a physical environment and constrained
in their resources, and they understand their own
state and environment and, based on that
understanding, are able to make decisions
autonomously at runtime in a self-explanatory
way. In an attempt to lay out a research agenda, we
bring up and elaborate on five key challenges for
future self-aware cyber-physical systems: (i) How
can we build resource-sensitive yet self-aware
systems? (ii) How to acknowledge situatedness and
subjectivity? (iii) What are effective
infrastructures for implementing self-awareness
processes? (iv) How can we verify self-aware
cyber-physical systems and, in particular, which
guarantees can we give? (v) What novel development
processes will be required to engineer self-aware
cyber-physical systems? We review each of these
challenges in some detail and emphasize that
addressing all of them requires the system to make a
comprehensive assessment of the situation and a
continual introspection of its own state to sensibly
balance diverse requirements, constraints,
short-term and long-term objectives. Throughout, we
draw on three examples of cyber-physical systems
that may benefit from self-awareness: a
multi-processor system-on-chip, a Mars rover, and an
implanted insulin pump. These three very different
systems nevertheless have similar characteristics:
limited resources, complex unforeseeable
environmental dynamics, high expectations on their
reliability, and substantial levels of risk
associated with malfunctioning. Using these
examples, we discuss the potential role of
self-awareness in both highly complex and rather
more simple systems, and as a main conclusion we
highlight the need for research on above listed
topics.},
month = {June},
articleno = {38},
numpages = {26}
}
@inproceedings{hanif:2019a,
author = {Muhammad Abdullah Hanif and Muhammad Zuhaib Akbar
and Rehan Ahmed and Semeen Rehman and Axel Jantsch
and Muhammad Shafique },
title = {{MemGANs}: Memory Management for Energy-Efficient
Acceleration of Complex Computations in Hardware
Architectures for Generative Adversarial Networks},
key = {eml},
booktitle = { Proceesings of the International Symposium on Low
Power Electronics and Design (ISLPED) },
year = 2019,
month = {July},
address = {Lausanne, Switzerland},
url = {http://jantsch.se/AxelJantsch/papers/2019/AbdullaHanif-ISLPED.pdf}
}
@inproceedings{taherinejad:2019a,
author = {Nima TaheriNejad and Axel Jantsch},
title = {Improved Machine Learning using Confidence},
key = {selfaware,eml},
booktitle = {IEEE Canadian Conference of Electrical and Computer
Engineering (CCECE)},
year = 2019,
month = {May},
address = {Edmonton, Canada},
url = {http://jantsch.se/AxelJantsch/papers/2019/NimaTaherinejad-CCECE.pdf}
}
@article{pagani:2018a,
author = {Santiago Pagani and Sai Manoj P D and Axel Jantsch
and J\"org Henkel},
title = {Machine Learning for Power, Energy, and Thermal
Management on Multi-core Processors: A Survey},
journal = {IEEE Transaction on Computer Aided Design (TCAD)},
year = 2018,
key = {eml,survey},
tudatabase = 1,
url = {http://jantsch.se/AxelJantsch/papers/2018/SantiagoPagani-TCAD-PowerManagementSurvey.pdf},
doi = {10.1109/TCAD.2018.2878168},
issn = {0278-0070}
}
@article{wess:2018a,
author = { Matthias Wess and Sai Manoj Pudukotai Dinakarrao
and Axel Jantsch},
title = {Weighted Quantization-Regularization in {DNNs} for
Weight Memory Minimization towards {HW}
Implementation },
journal = {IEEE Transactions on Computer-Aided Design of
Integrated Circuits and Systems },
year = 2018,
volume = 37,
number = 10,
month = {October},
key = {eml},
issn = {0278-0070},
doi = {10.1109/TCAD.2018.2857080},
tudatabase = 1,
url = {http://jantsch.se/AxelJantsch/papers/2018/MatthiasWess-CODES.pdf}
}