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Guillermo Payá-Vayá
Guillermo Payá Vayá
Person information
- affiliation: Technical University of Braunschweig, Institute of Theoretical Computer Science, Braunschweig, Germany
- affiliation (former, PhD 2011): Leibniz University of Hannover, Germany
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2020 – today
- 2024
- [j15]Fabian Stuckmann
, Moritz Weißbrich, Guillermo Payá-Vayá:
Energy-Aware Register Allocation for VLIW Processors. J. Signal Process. Syst. 96(11): 627-650 (2024) - [c62]Frederik Kautz, Sven Gesper, Gia Bao Thieu
Multi-Level Prototyping of a Vertical Vector AI Processing System. ASAP 2024: 1-2 - [c61]Fabian Stuckmann, Guillermo Payá-Vayá:
A Graph Neural Network Approach to Improve List Scheduling Heuristics Under Register-Pressure. MOCAST 2024: 1-6 - [c60]Moritz Weißbrich, Alexander Meyer
A 505nW Programmable NanoController in 22 nm FDSOI-CMOS for Autonomous Ultra-Low-Power Mixed-Signal SoCs. NorCAS 2024: 1-6 - [c59]Sven Gesper
A Novel Chaining-Based Indirect Addressing Mode in a Vertical Vector Processor. SAMOS 2024: 167-182 - [c58]Moritz Weißbrich
NanoSoftController: A Minimal Soft Processor for System State Control in FPGA Systems. SAMOS 2024: 246-261 - 2023
- [j14]Luciano S. Martínez Rau
A 4μW Low-Power Audio Processor System for Real-Time Jaw Movements Recognition in Grazing Cattle. J. Signal Process. Syst. 95(4): 407-424 (2023) - [c57]Johannes Knödtel
TAPRE-HBM: Trace-Based Processor Rapid Emulation Using HBM on FPGAs. ARC 2023: 307-321 - [c56]Eike Trumann
Radiation Tolerant Reconfigurable Hardware Architecture Design Methodology. ARC 2023: 357-360 - [c55]Michael Beyer, Sven Gesper
Exploiting Subword Permutations to Maximize CNN Compute Performance and Efficiency. ASAP 2023: 61-68 - [c54]Gia Bao Thieu
ZuSE Ki-Avf: Application-Specific AI Processor for Intelligent Sensor Signal Processing in Autonomous Driving. DATE 2023: 1-6 - [c53]Sven Gesper
N2V2PRO: Neural Network Mapping Framework for a Custom Vector Processor Architecture. ICCE-Berlin 2023: 94-99 - [c52]Sven Gesper
PATARA: Extension of a Verification Framework for RISC-V Instruction Set Implementations. SAMOS 2023: 225-240 - 2022
- [j13]Lukas Gerlach, Guillermo Payá-Vayá, Holger Blume
A Survey on Application Specific Processor Architectures for Digital Hearing Aids. J. Signal Process. Syst. 94(11): 1293-1308 (2022) - [c51]Moritz Weißbrich, Holger Blume, Guillermo Payá-Vayá:
A Silicon-Proof Controller System for Flexible Ultra-Low-Power Energy Harvesting Platforms. MOCAST 2022: 1-6 - [c50]Moritz Weißbrich
NanoController: A Minimal and Flexible Processor Architecture for Ultra-Low-Power Always-On System State Controllers. SAMOS 2022: 103-119 - 2021
- [j12]Sven Gesper
Evaluation of Different Processor Architecture Organizations for On-Site Electronics in Harsh Environments. Int. J. Parallel Program. 49(4): 541-569 (2021) - [c49]Fabian Stuckmann, Pasha A. Fistanto, Guillermo Payá-Vayá:
PATARA: A REVERSI-Based Open-Source Tool for Post-Silicon Validation of Processor Cores. MOCAST 2021: 1-6 - [c48]Moritz Weißbrich, Javier Andrés Moreno-Medina, Guillermo Payá-Vayá:
Using Genetic Algorithms to Optimize the Instruction-Set Encoding on Processor Cores. MOCAST 2021: 1-6 - 2020
- [j11]Florian Giesemann, Lukas Gerlach
Evolutionary Algorithms for Instruction Scheduling, Operation Merging, and Register Allocation in VLIW Compilers. J. Signal Process. Syst. 92(7): 655-678 (2020) - [c47]Marc-Nils Wahalla
CereBridge: An Efficient, FPGA-based Real-Time Processing Platform for True Mobile Brain-Computer Interfaces. EMBC 2020: 4046-4050 - [c46]Lukas Gerlach
Issue-Slot Based Predication Encoding Technique for VLIW Processors. MOCAST 2020: 1-6 - [c45]Jens Karrenbauer
Design Space Exploration Framework for Tensilica-Based Digital Audio Processors in Hearing Aids. MOCAST 2020: 1-6 - [c44]Moritz Weißbrich, Alberto García Ortiz, Guillermo Payá-Vayá:
A Runtime-Reconfigurable Operand Masking Technique for Energy-Efficient Approximate Processor Architectures. MOCAST 2020: 1-6
2010 – 2019
- 2019
- [j10]Moritz Weißbrich
FLINT+: A runtime-configurable emulation-based stochastic timing analysis framework. Integr. 69: 120-137 (2019) - [j9]Stephan Nolting, Guillermo Payá-Vayá, Florian Giesemann
Dynamic self-reconfiguration of a MIPS-based soft-core processor architecture. J. Parallel Distributed Comput. 133: 391-406 (2019) - [j8]Nico Mentzer, Jannik Mahr, Guillermo Payá-Vayá, Holger Blume
Online stereo camera calibration for automotive vision based on HW-accelerated A-KAZE-feature extraction. J. Syst. Archit. 97: 335-348 (2019) - [j7]Moritz Weißbrich, Alberto García Ortiz
Comparing vertical and horizontal SIMD vector processor architectures for accelerated image feature extraction. J. Syst. Archit. 100 (2019) - [j6]Angel Mario Castro Martinez
DNN-based performance measures for predicting error rates in automatic speech recognition and optimizing hearing aid parameters. Speech Commun. 106: 44-56 (2019) - [c43]Amir Najafi, Lennart Bamberg
A Coding Approach to Improve the Energy Efficiency of Approximate NoCs. ReCoSoC 2019: 74-81 - [c42]Sven Gesper
Evaluation of Different Processor Architecture Organizations for On-site Electronics in Harsh Environments. SAMOS 2019: 3-17 - [c41]Lukas Gerlach
KAVUAKA: A Low Power Application Specific Hearing Aid Processor. VLSI-SoC 2019: 99-104 - 2018
- [j5]Ardalan Najafi
Coherent Design of Hybrid Approximate Adders: Unified Design Framework and Metrics. IEEE J. Emerg. Sel. Topics Circuits Syst. 8(4): 736-745 (2018) - [c40]Christian Dietrich
Cross-layer fault-space pruning for hardware-assisted fault injection. DAC 2018: 79:1-79:6 - [c39]Pekka Jääskeläinen
Transport-Triggered Soft Cores. IPDPS Workshops 2018: 83-90 - 2017
- [j4]Guillermo Payá-Vayá, Andreas Gerstlauer:
Guest Editorial: Special Issue on the 2015 International Conference on Embedded Computer Systems - Architectures, Modeling and Simulation (SAMOS XV). Int. J. Parallel Program. 45(6): 1417-1419 (2017) - [j3]Guillermo Payá-Vayá, Christopher Bartels, Holger Blume
Small footprint synthesizable temperature sensor for FPGA devices. J. Syst. Archit. 76: 28-38 (2017) - [c38]Stephan Nolting, Florian Giesemann, Julian Hartig, Achim Schmider, Guillermo Payá-Vayá:
Application-specific soft-core vector processor for advanced driver assistance systems. FPL 2017: 1-2 - [c37]Stephan Nolting, Lin Liu, Guillermo Payá-Vayá:
Two-LUT-based synthesizable temperature sensor for Virtex-6 FPGA devices. FPL 2017: 1-4 - [c36]Julian Hartig, Guillermo Payá-Vayá, Henrik Heymann
Tool-supported design space exploration of a processor system for SIFT-feature detection. ICCE-Berlin 2017: 168-169 - [c35]Christopher Seifert
Real-time implementation of a GMM-based binaural localization algorithm on a VLIW-SIMD processor. ICME 2017: 145-150 - [c34]Ardalan Najafi
A fair comparison of adders in stochastic regime. PATMOS 2017: 1-6 - [c33]Moritz Weißbrich, Guillermo Payá-Vayá, Lukas Gerlach
FLINT+: A runtime-configurable emulation-based stochastic timing analysis framework. PATMOS 2017: 1-8 - [c32]Julian Hartig, Guillermo Payá-Vayá, Nico Mentzer, Holger Blume
Balanced application-specific processor system for efficient SIFT-feature detection. SAMOS 2017: 78-87 - [c31]Lukas Gerlach
Analyzing the trade-off between power consumption and beamforming algorithm performance using a hearing aid ASIP. SAMOS 2017: 88-96 - [c30]Florian Giesemann, Guillermo Payá-Vayá, Lukas Gerlach
Using a genetic algorithm approach to reduce register file pressure during instruction scheduling. SAMOS 2017: 179-187 - 2016
- [j2]Nico Mentzer, Guillermo Payá-Vayá, Holger Blume
Analyzing the Performance-Hardware Trade-off of an ASIP-based SIFT Feature Extraction. J. Signal Process. Syst. 85(1): 83-99 (2016) - [c29]Nicolai Behmann, Christopher Seifert, Guillermo Payá-Vayá, Holger Blume
Customized high performance low power processor for binaural speaker localization. ICECS 2016: 392-395 - [c28]Stephan Nolting, Guillermo Payá-Vayá, Florian Giesemann, Holger Blume
Dynamic Self-Reconfiguration of a MIPS-Based Soft-Processor Architecture. IPDPS Workshops 2016: 172-180 - [c27]Lukas Gerlach
Efficient Emulation of Floating-Point Arithmetic on Fixed-Point SIMD Processors. SiPS 2016: 254-259 - [c26]Bernd T. Meyer, Sri Harish Reddy Mallidi, Angel Mario Castro Martinez, Guillermo Payá-Vayá, Hendrik Kayser
Performance monitoring for automatic speech recognition in noisy multi-channel environments. SLT 2016: 50-56 - 2015
- [c25]Stephan Nolting, Guillermo Payá-Vayá, Florian Giesemann, Holger Blume
Exploring Dynamic Reconfigurable CORDIC Co-Processors Tightly Coupled with a VLIW-SIMD Soft-Processor Architecture. ARC 2015: 401-410 - [c24]Christopher Bartels, Chao Zhang, Guillermo Payá-Vayá, Holger Blume
A Synthesizable Temperature Sensor on FPGA Using DSP-Slices for Reduced Calibration Overhead and Improved Stability. ARCS 2015: 161-172 - [c23]Rochus Nowosielski, Lukas Gerlach, Stephan Bieband, Guillermo Payá-Vayá, Holger Blume:
FLINT: layout-oriented FPGA-based methodology for fault tolerant ASIC design. DATE 2015: 297-300 - [c22]Christopher Seifert
A mobile SoC-based platform for evaluating hearing aid algorithms and architectures. ICCE-Berlin 2015: 93-97 - [c21]Daniel Pfefferkorn, Achim Schmider, Guillermo Payá-Vayá, Martin Neuenhahn, Holger Blume
FNOCEE: A framework for NoC evaluation by FPGA-based emulation. SAMOS 2015: 86-95 - [c20]Lukas Gerlach
An area efficient real- and complex-valued multiply-accumulate SIMD unit for digital signal processors. SiPS 2015: 1-6 - 2014
- [c19]Michele Fenzi, Jörn Ostermann
ASEV - Automatic situation assessment for event-driven video analysis. AVSS 2014: 37-43 - [c18]Oliver Jakob Arndt, Daniel Becker, Florian Giesemann, Guillermo Payá-Vayá, Christopher Bartels, Holger Blume
Performance evaluation of the Intel Xeon Phi manycore architecture using parallel video-based driver assistance algorithms. ICSAMOS 2014: 125-132 - [c17]Florian Giesemann, Guillermo Payá-Vayá, Holger Blume
A comprehensive ASIC/FPGA prototyping environment for exploring embedded processing systems for advanced driver assistance applications. ICSAMOS 2014: 314-321 - [c16]Nico Mentzer, Guillermo Payá-Vayá, Holger Blume
Instruction-set extension for an ASIP-based SIFT feature extraction. ICSAMOS 2014: 335-342 - [c15]Julian Hartig, Lukas Gerlach
Customizing a VLIW-SIMD application-specific instruction-set processor for hearing aid devices. SiPS 2014: 115-120 - 2011
- [b1]Guillermo Payá Vayá:
Design and analysis of a generic VLIW processor for multimedia applications. University of Hanover, 2011, ISBN 978-3-8440-0064-1, pp. 1-177 - 2010
- [j1]Guillermo Payá-Vayá, Javier Martín-Langerwerf, Peter Pirsch:
A Multi-Shared Register File Structure for VLIW Processors. J. Signal Process. Syst. 58(2): 215-231 (2010) - [c14]Guillermo Payá-Vayá, Javier Martín-Langerwerf, Holger Blume
A forwarding-sensitive instruction scheduling approach to reduce register file constraints in VLIW architectures. ASAP 2010: 151-158
2000 – 2009
- 2009
- [c13]Guillermo Payá-Vayá, Javier Martín-Langerwerf, Sören Moch, Peter Pirsch:
An Enhanced DMA Controller in SIMD Processors for Video Applications. ARCS 2009: 159-170 - [c12]Guillermo Payá-Vayá, Javier Martín-Langerwerf, Florian Giesemann, Holger Blume
Instruction merging to increase parallelism in VLIW architectures. SoC 2009: 143-146 - 2007
- [c11]Guillermo Payá-Vayá, Javier Martín-Langerwerf, Piriya Taptimthong, Peter Pirsch:
Design Space Exploration of Media Processors: A Generic VLIW Architecture and a Parameterized Scheduler. ARCS 2007: 254-267 - [c10]Guillermo Payá-Vayá, Javier Martín-Langerwerf, Peter Pirsch:
RAPANUI: A case study in Rapid Prototyping for Multiprocessor System-on-Chip. DSD 2007: 215-221 - [c9]Guillermo Payá-Vayá, Javier Martín-Langerwerf, Piriya Taptimthong, Peter Pirsch:
Design Space Exploration of Media Processors: A Parameterized Scheduler. ICSAMOS 2007: 41-49 - [c8]Guillermo Payá-Vayá, Thomas Jambor, Konstantin Septinus, Sebastian Hesselbarth, Holger Flatt, Marc Freisfeld, Peter Pirsch:
ChipDesign: from theory to real world. WCAE 2007: 58-64 - 2005
- [c7]Guillermo Payá Vayá, Javier Martín-Langerwerf, Peter Pirsch:
RAPANUI: Rapid Prototyping for Media Processor Architecture Exploration. SAMOS 2005: 32-40 - 2004
- [c6]Marcos Martínez Peiró, Francisco José Ballester-Merelo
FPGA Custom DSP for ECG Signal Analysis and Compression. FPL 2004: 954-958 - [c5]Arturo Méndez Patiño, Marcos Martínez Peiró, Francisco José Ballester-Merelo
Architectures for ICT on FPGA. FPT 2004: 403-406 - [c4]Arturo Méndez Patiño, Marcos Martínez Peiró, Francisco José Ballester-Merelo, Guillermo Payá Vayá:
2D-DCT on FPGA by polynomial transformation in two-dimensions. ISCAS (3) 2004: 365-368 - 2003
- [c3]Guillermo Payá Vayá, Marcos Martínez Peiró, Francisco José Ballester-Merelo
Fully Parameterized Discrete Wavelet Packet Transform Architecture Oriented to FPGA. FPL 2003: 533-542 - [c2]Guillermo Payá Vayá, Marcos Martínez Peiró, Francisco José Ballester-Merelo
A new inverse discrete wavelet packet transform architecture. ISSPA (2) 2003: 443-446 - [c1]Joaquín Cerdá
Implementing a Margolus Neighborhood Cellular Automata on a FPGA. IWANN (2) 2003: 121-128
Coauthor Index
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