Dr.-Ing. Martin Frieb
Telefon: | +49 821 598 - 2372 |
Fax: | +49 821 598 - 2359 |
E-Mail: | martin.frieb@informatik.uni-augsburginformatik.uni-augsburg.de () |
Raum: | 3037 (N) |
Adresse: | Universitätsstraße 6a, 86159 Augsburg |
PGP-Schlüssel
Schlüsselkennung | 32473FDA4B0DDC2C |
Fingerabdruck | A608 3C3D 5A6E 1CDA F9BC 8FCA 3247 3FDA 4B0D DC2C |
Öffentlicher Schlüssel |
Publikationen
2021 |
Jörg Mische, Martin Frieb, Alexander Stegmeier and Theo Ungerer. 2021. PIMP my many-core: pipeline-integrated message passing. International Journal of Parallel Programming 49, 487-505. DOI: 10.1007/s10766-020-00685-9 |
2019 |
Martin Frieb. 2019. Hardware extensions for a timing-predictable many-core processor. Dissertation, Universität Augsburg. . |
Jörg Mische, Martin Frieb, Alexander Stegmeier and Theo Ungerer. 2019. PIMP my Many-Core: pipeline-integrated message passing. Lecture Notes in Computer Science 11733, 199-211. DOI: 10.1007/978-3-030-27562-4_14 |
2018 |
Alexander Stegmeier, Martin Frieb, Jörg Mische and Theo Ungerer. 2018. Analysing real-time behaviour of collective communication patterns in MPI. In Yassine Ouhammou, Frédéric Ridouard, Emmanuel Grolleau, Mathieu Jan and Moris Behnam (Ed.). Proceedings of the 26th International Conference on Real-Time Networks and Systems - RTNS '18, Chasseneuil-du-Poitou, France, October 10 - 12, 2018. ACM Press, New York, NY, 137-147. DOI: 10.1145/3273905.3273906 |
Martin Frieb, Alexander Stegmeier, Jörg Mische and Theo Ungerer. 2018. Lightweight hardware synchronization for avoiding buffer overflows in network-on-chips. Lecture Notes in Computer Science 10793, 112-126. DOI: 10.1007/978-3-319-77610-1_9 |
2017 |
Jörg Mische, Christian Mellwig, Alexander Stegmeier, Martin Frieb and Theo Ungerer. 2017. Minimally buffered deflection routing with in-order delivery in a torus. In Proceedings of the Eleventh IEEE/ACM International Symposium on Networks-on-Chip - NOCS '17, Seoul, Republic of Korea, October 19 - 20, 2017. ACM Press, New York, NY, 1. DOI: 10.1145/3130218.3130227 |
Jörg Mische, Martin Frieb, Alexander Stegmeier and Theo Ungerer. 2017. Reduced complexity many-core: timing predictability due to message-passing. Lecture Notes in Computer Science 10172, 139-151. DOI: 10.1007/978-3-319-54999-6_11 |
2016 |
Martin Frieb, Ralf Jahr, Haluk Ozaktas, Andreas Hugl, Hans Regler and Theo Ungerer. 2016. A parallelization approach for hard real-time systems and its application on two industrial programs: strategy and two case studies for the parallelization of hard real-time systems. International Journal of Parallel Programming 44, 6, 1296-1336. DOI: 10.1007/s10766-016-0432-7 |
Martin Frieb, Alexander Stegmeier, Jörg Mische and Theo Ungerer. 2016. Employing MPI collectives for timing analysis on embedded multi-cores. In Martin Schoeberl (Ed.). 16th International Workshop on Worst-Case Execution Time Analysis (WCET 2016). Schloss Dagstuhl - Leibniz-Zentrum für Informatik, Dagstuhl, 10:1-10:11 DOI: 10.4230/OASIcs.WCET.2016.10 |
Theo Ungerer, Lucie Matusova, Zai Jian Jia Li, Zlatko Petrov, Bert Böddeker, Sebastian Kehr, Hans Regler, Andreas Hugl, Christine Rochange, Haluk Ozaktas, Hugues Cassé, Christian Bradatsch, Armelle Bonenfant, Pascal Sainrat, Nick Lay, David George, Ian Broster, Eduardo Quiñones, Milos Panic, Jaume Abella, Carles Hernandez, Francisco Cazorla, Martin Frieb, Sascha Uhrig, Mathias Rohde, Arthur Pyka, Florian Kluge, Jörg Mische, Alexander Stegmeier, Ralf Jahr, Mike Gerdes and Pavel Zaykov. 2016. Parallelizing industrial hard real-time applications for the parMERASA multicore. ACM Transactions on Embedded Computing Systems 15, 3, 1-27. DOI: 10.1145/2910589 |
Alexander Stegmeier, Jörg Mische, Martin Frieb and Theo Ungerer. 2016. WCTT bounds for MPI primitives in the PaterNoster NoC. ACM SIGBED Review 13, 4, 25-30. DOI: 10.1145/3015037.3015041 |
2015 |
Alexander Stegmeier, Martin Frieb, Ralf Jahr and Theo Ungerer. 2015. Algorithmic skeletons for parallelization of embedded real-time systems. In 3rd Workshop on High-performance and Real-time Embedded Systems (HiRES 2015), January 21, 2015, Amsterdam, the Netherlands. |
Theo Ungerer, Christian Bradatsch, Martin Frieb, Florian Kluge, Jörg Mische, Alexander Stegmeier, Ralf Jahr, Mike Gerdes, Pavel Zaykov, Lucie Matusova, Zai Jian Jia Li, Zlatko Petrov, Bert Böddeker, Sebastian Kehr, Hans Regler, Andreas Hugl, Christine Rochange, Haluk Ozaktas, Hugues Cassé, Armelle Bonenfant, Pascal Sainrat, Nick Lay, David George, Ian Broster, Eduardo Quiñones, Milos Panic, Jaume Abella, Carles Hernandez, Francisco Cazorla, Sascha Uhrig, Mathias Rohde and Arthur Pyka. 2015. Experiences and results of parallelisation of industrial hard real-time applications for the parMERASA multi-core. In 3rd Workshop on High-performance and Real-time Embedded Systems (HiRES 2015), January 21, 2015, Amsterdam, the Netherlands. |
Alexander Stegmeier, Martin Frieb and Theo Ungerer. 2015. Extended pattern-based parallelization approach for hard real-time systems and its tool support. PARS-Mitteilungen 32, 1, 1-9. |
2014 |
Ralf Jahr, Martin Frieb, Mike Gerdes and Theo Ungerer. 2014. Model-based parallelization and optimization of an industrial control code. In Holger Giese, Michaela Huhn, Jan Phillips and Bernhard Schätz (Ed.). Dagstuhl-Workshop MBEES: Modellbasierte Entwicklung eingebetteter Systeme X, Schloss Dagstuhl, Germany, 2014, Tagungsband Modellbasierte Entwicklung eingebetteter Systeme. fortiss, München, 63-72. |
Ralf Jahr, Martin Frieb, Mike Gerdes, Theo Ungerer, Andreas Hugl and Hans Regler. 2014. Paving the way for multi-cores in industrial hard real-time control applications. In Proceedings of the 9th IEEE International Symposium on Industrial Embedded Systems (SIES 2014), 18 - 20 June 2014, Pisa, Italy. IEEE, Los Alamitos, Calif. [u.a.], 1-4. DOI: 10.1109/sies.2014.7087457 |
Ralf Jahr, Alexander Stegmeier, Rolf Kiefhaber, Martin Frieb and Theo Ungerer. 2014. User manual for the optimization and WCET analysis of software with timing analyzable algorithmic skeletons. Reports / Technische Berichte der Fakultät für Angewandte Informatik der Universität Augsburg 2014-05. . |