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Mario Schölzel
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2020 – today
- 2023
- [c45]Kai Lehniger, Marcin Aftowicz, Mario Schölzel, Peter Langendörfer:
Coarse-grained Control Flow Integrity Check for Processors with Sliding Register Windows. MECO 2023: 1-7 - 2022
- [c44]Kai Lehniger, Mario Schölzel, Jonas Jelonek, Peter Tabatt, Marcin Aftowicz, Peter Langendörfer:
Combination of ROP Defense Mechanisms for Better Safety and Security in Embedded Systems. DSD 2022: 480-487 - [c43]P. Tabatt, Jonas Jelonek, Mario Schölzel, Kai Lehniger, Peter Langendörfer:
Code Mutation as a mean against ROP Attacks for Embedded Systems. MECO 2022: 1-4 - 2020
- [j4]Juan Aranda, Diego Mendez, Henry Carrillo, Mario Schölzel:
A framework for multimodal wireless sensor networks. Ad Hoc Networks 106: 102201 (2020)
2010 – 2019
- 2019
- [j3]Juan Aranda, Diego Mendez, Henry Carrillo, Mario Schölzel:
M2-DaGNoS: A data gathering and node scheduling mechanism for Multimodal Wireless Sensor Networks. Comput. Commun. 148: 165-175 (2019) - 2018
- [j2]Felix Mühlbauer, Lukas Schröder, Mario Schölzel:
Handling of transient and permanent faults in dynamically scheduled super-scalar processors. Microelectron. Reliab. 80: 176-183 (2018) - [c42]Kai Lehniger, Stefan Weidling, Mario Schölzel:
Heuristic for Page-Based Incremental Reprogramming of Wireless Sensor Nodes. DDECS 2018: 61-66 - [c41]Felix Mühlbauer, Lukas Schröder, Mario Schölzel:
A fault tolerant dynamically scheduled processor with partial permanent fault handling. LATS 2018: 1-6 - 2017
- [c40]Felix Mühlbauer, Lukas Schröder, Mario Schölzel:
On hardware-based fault-handling in dynamically scheduled processors. DDECS 2017: 201-206 - [c39]Frank Vater, Mario Schölzel:
Investigation of new NV memory architectures for low duty-cycle embedded systems. EWDTS 2017: 1-6 - [c38]Felix Mühlbauer, Lukas Schröder, Mario Schölzel:
Handling of permanent faults in dynamically scheduled processors. IOLTS 2017: 203-204 - [c37]Felix Mühlbauer, Lukas Schröder, Patryk Skoncej, Mario Schölzel:
Handling manufacturing and aging faults with software-based techniques in tiny embedded systems. LATS 2017: 1-6 - [c36]Stefan Weidling, Nicole Todtenberg, Thomas Basmer, Mario Schölzel, Michael Maaser, Matthias Taubert:
Outdoor Range Measurements in Sub-GHz License-free Radio Bands under Realistic Conditions. MobiWac 2017: 71-74 - [c35]Max Frohberg, Enkhdavaa Batlkhagva, Mario Schölzel:
WISDOM - A wireless debugging and power measurement system for field tests and device observation in WSN. SPA 2017: 319-324 - 2016
- [j1]Roberto Urban, Heinrich Theodor Vierhaus, Mario Schölzel, Enrico Altmann, Horst Seelig:
Non-Cyclic Design Space Exploration for ASIPs - Compiler-Centered Microprocessor Design (CoMet). J. Circuits Syst. Comput. 25(3): 1640012:1-1640012:16 (2016) - [c34]Artjom Jasnetski, Stephen Adeboye Oyeniran, Anton Tsertov, Mario Schölzel, Raimund Ubar:
High-level modeling and testing of multiple control faults in digital systems. DDECS 2016: 144-149 - [c33]Patryk Skoncej, Felix Mühlbauer, Felix Kubicek, Lukas Schröder, Mario Schölzel:
Feasibility of software-based repair for program memories. IOLTS 2016: 199-202 - [c32]Mario Schölzel, Tobias Koal, Sebastian Müller, Stefan Scharoba, Stephanie Roder, Heinrich Theodor Vierhaus:
A comprehensive software-based self-test and self-repair method for statically scheduled superscalar processors. LATS 2016: 33-38 - 2015
- [c31]Roberto Urban, Mario Schölzel, Heinrich Theodor Vierhaus, Enrico Altmann, Horst Seelig:
Compiler-Centred Microprocessor Design (CoMet) - From C-Code to a VHDL Model of an ASIP. DDECS 2015: 17-22 - [c30]Mario Schölzel, Patryk Skoncej:
Software-based repair for memories in tiny embedded systems. ETS 2015: 1-2 - [c29]Mario Schölzel, Heinrich Theodor Vierhaus:
Fehlertolerante und energieeffiziente eingebettete Systeme: Methoden und Anwendungen. GI-Jahrestagung 2015: 1377 - [c28]Patryk Skoncej, Felix Mühlbauer, Mario Schölzel:
Softwarebasierte Fehlertolerenz für Flash-Speicher von mikrocontroller-basierten Systemen. GI-Jahrestagung 2015: 1461-1473 - [c27]Frank Vater, Goran Panic, Mario Schölzel:
Möglichkeiten der Nutzung von RRAM in Low-Power Microcontrollern. GI-Jahrestagung 2015: 1475-1486 - [c26]Raimund Ubar, Stephen Adeboye Oyeniran, Mario Schölzel, Heinrich Theodor Vierhaus:
Multiple fault testing in systems-on-chip with high-level decision diagrams. IDT 2015: 66-71 - [c25]Sebastian Müller, Tobias Koal, Stefan Scharoba, Heinrich Theodor Vierhaus, Mario Schölzel:
A multi-layer software-based fault-tolerance approach for heterogenous multi-core systems. LATS 2015: 1-6 - 2014
- [c24]Tobias Koal, Mario Schölzel, Heinrich Theodor Vierhaus:
Combining fault tolerance and self repair at minimum cost in power and hardware. DDECS 2014: 153-158 - [c23]Mario Schölzel, Tobias Koal, Heinrich Theodor Vierhaus:
Diagnostic self-test for dynamically scheduled superscalar processors based on reconfiguration techniques for handling permanent faults. DFT 2014: 27-32 - [c22]Davide Sabena, Luca Sterpone, Mario Schölzel, Tobias Koal, Heinrich Theodor Vierhaus, S. Wong, Robért Glein, Florian Rittner, C. Stender, Mario Porrmann, Jens Hagemeyer:
Reconfigurable high performance architectures: How much are they ready for safety-critical applications? ETS 2014: 1-8 - [c21]Mario Schölzel, Tobias Koal, Heinrich Theodor Vierhaus:
Systematic generation of diagnostic software-based self-test routines for processor components. ETS 2014: 1-6 - [c20]Heinrich Theodor Vierhaus, Mario Schölzel, Jaan Raik, Raimund Ubar:
Advanced technical education in the age of cyber physical systems. EWME 2014: 193-198 - [c19]Sebastian Müller, Tobias Koal, Mario Schölzel, Heinrich Theodor Vierhaus:
Timing for virtual TMR in logic circuits. IOLTS 2014: 190-193 - [c18]Roberto Urban, Kai Lehniger, Maximilian Heyne, Mario Schölzel, Heinrich Theodor Vierhaus:
Vergleich der Beschreibung und Simulation einer Befehlssatzarchitektur in LISA und CoMet. MBMV 2014: 101-111 - 2013
- [c17]Petr Pfeifer, Zdenek Plíva, Mario Schölzel, Tobias Koal, Heinrich Theodor Vierhaus:
On performance estimation of a scalable VLIW soft-core in XILINX FPGAs. DDECS 2013: 181-186 - [c16]Mario Schölzel, Tobias Koal, Stephanie Roder, Heinrich Theodor Vierhaus:
Towards an automatic generation of diagnostic in-field SBST for processor components. LATW 2013: 1-6 - [c15]Roberto Urban, Mario Schölzel, Heinrich Theodor Vierhaus:
Ein konfigurierbarer Zwischencodesimulator zum compilerzentrierten Mikroprozessorentwurf. MBMV 2013: 13-24 - [c14]Sebastian Müller, Mario Schölzel, Heinrich Theodor Vierhaus:
Towards a Graceful Degradable Multicore-System by Hierarchical Handling of Hard Errors. PDP 2013: 302-309 - 2012
- [c13]Sebastian Müller, Mario Schölzel, Heinrich Theodor Vierhaus:
Hierarchical Self-repair in Heterogeneous Multi-core Systems by Means of a Software-based Reconfiguration. ARCS Workshops 2012: 251-262 - [c12]Mario Schölzel, Tobias Koal, Heinrich Theodor Vierhaus:
An adaptive self-test routine for in-field diagnosis of permanent faults in simple RISC cores. DDECS 2012: 312-317 - 2011
- [c11]Markus Ulbricht, Mario Schölzel, Tobias Koal, Heinrich Theodor Vierhaus:
A new hierarchical built-in self-test with on-chip diagnosis for VLIW processors. DDECS 2011: 143-146 - [c10]Mario Schölzel:
Fine-Grained Software-Based Self-Repair of VLIW Processors. DFT 2011: 41-49 - [c9]Tobias Koal, Daniel Scheit, Mario Schölzel, Heinrich Theodor Vierhaus:
On the Feasibility of Built-In Self Repair for Logic Circuits. DFT 2011: 316-324 - [e1]Rolf Kraemer, Adam Pawlak, Andreas Steininger, Mario Schölzel, Jaan Raik, Heinrich Theodor Vierhaus:
14th IEEE International Symposium on Design and Diagnostics of Electronic Circuits & Systems, DDECS 2011, Cottbus, Germany, April 13-15, 2011. IEEE Computer Society 2011, ISBN 978-1-4244-9755-3 [contents] - 2010
- [c8]Mario Schölzel:
HW/SW co-detection of transient and permanent faults with fast recovery in statically scheduled data paths. DATE 2010: 723-728 - [c7]Mario Schölzel:
Software-based self-repair of statically scheduled superscalar data paths. DDECS 2010: 66-71 - [c6]Mario Schölzel, Sebastian Müller:
Combining Hardware- and Software-Based Self-Repair Methods for Statically Scheduled Data Paths. DFT 2010: 90-98
2000 – 2009
- 2008
- [c5]Michael Vogel, Mario Schölzel:
Automatic Generation of Cycle Accurate SystemC Models for Application Specific Clustered VLIW Processors. MBMV 2008: 81-90 - 2007
- [c4]Mario Schölzel:
Interactive presentation: Time-constrained clustering for DSE of clustered VLIW-ASP. DATE 2007: 467-472 - [c3]Pawel Pawlowski, Adam Dabrowski, Mario Schölzel:
Proposal of VLIW Architecture for Application Specific Processors with Built-in-Self-Repair Facility via Variable Accuracy Arithmetic. DDECS 2007: 313-318 - 2006
- [b1]Mario Schölzel:
Automatisierter Entwurf anwendungsspezifischer VLIW-Prozessoren. Brandenburg University of Technology, Cottbus - Senftenberg, Germany, 2006, pp. 1-204 - [c2]Andy Heinig, Mario Schölzel:
Zeitbeschränkte Clusterung zur Design-Space-Exploration geclusterter VLIW-Prozessoren. MBMV 2006: 319-328 - 2005
- [c1]Mario Schölzel, Peter Bachmann:
DESCOMP: A New Design Space Exploration Approach. ARCS 2005: 178-192
Coauthor Index
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last updated on 2024-10-15 20:47 CEST by the dblp team
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