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ORCIDGianluca Tempesti
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- affiliation: Swiss Federal Institute of Technology in Lausanne, Switzerland
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2010 – 2019
- 2019
[j14]Emerson Carlos Pedrino, Denis Pereira de Lima, Gianluca Tempesti:
A multiobjective metaheuristic approach for morphological filters on many-core architectures. Integr. Comput. Aided Eng. 26(4): 383-397 (2019)- 2018
- [c55]Ali Abuassal, Gianluca Tempesti, Martin A. Trefzer
:
Artificial bee colony-inspired run-time task management for many-core systems. SSCI 2018: 1084-1091 - 2017
- [c54]Indar Sugiarto, Pedro B. Campos, Nizar Dahir, Gianluca Tempesti, Steve B. Furber:
Optimized task graph mapping on a many-core neuromorphic supercomputer. HPEC 2017: 1-7 - [c53]Pedro B. Campos, Nizar Dahir, Martin Trefzer, Andy M. Tyrrell, Gianluca Tempesti:
LeAF: A low-overhead asymmetric frequency controller for NoC router interconnects. VLSI-SoC 2017: 1-6 - 2016
- [c52]Pedro B. Campos, Nizar Dahir, Colin Bonney, Martin Trefzer, Andy M. Tyrrell, Gianluca Tempesti:
XL-STaGe: A cross-layer scalable tool for graph generation, evaluation and implementation. SAMOS 2016: 354-359 - [c51]Colin Bonney, Pedro B. Campos, Nizar Dahir, Gianluca Tempesti:
Fault tolerant task mapping on many-core arrays. SSCI 2016: 1-8 - 2015
- [j13]Pascal Bouvry, Rudolf Mayer, Jakub Muszynski, Dana Petcu, Andreas Rauber, Gianluca Tempesti, Tuan Anh Trinh, Sébastien Varrette:
Resilience within Ultrascale Computing System: Challenges and Opportunities from Nesus Project. Supercomput. Front. Innov. 2(2): 46-63 (2015) - [c50]Nizar Dahir, Pedro B. Campos, Gianluca Tempesti, Martin Trefzer, Andrew M. Tyrrell:
Characterisation of feasibility regions in FPGAs under adaptive DVFS. FPL 2015: 1-4 - 2014
- [j12]Omer Qadir, Alexander Lenz, Gianluca Tempesti, Jon Timmis, Tony Pipe, Andy M. Tyrrell:
Hardware architecture of the Protein Processing Associative Memory and the effects of dimensionality and quantisation on performance. Genet. Program. Evolvable Mach. 15(3): 245-274 (2014) - 2012
- [j11]James Alfred Walker, Yang Liu, Gianluca Tempesti, Jon Timmis, Andy M. Tyrrell:
Automatic Machine Code Generation for a Transport Triggered Architecture using Cartesian Genetic Programming. Int. J. Adapt. Resilient Auton. Syst. 3(4): 32-50 (2012) - [j10]Gianluca Tempesti:
Self-replicating loops: a survey. Int. J. Gen. Syst. 41(6): 633-643 (2012) - [c49]Pitiwut Teerakittikul, Gianluca Tempesti, Andy M. Tyrrell:
Artificial hormone network for adaptive robot in a dynamic environment. AHS 2012: 129-136 - [c48]Omer Qadir, Jon Timmis, Gianluca Tempesti, Andy M. Tyrrell:
Profiling the fault tolerance for the adaptive Protein Processing Associative Memory. AHS 2012: 246-253 - 2011
- [j9]Omer Qadir, Yang Jerry Liu, Gianluca Tempesti, Jon Timmis, Andy M. Tyrrell:
From Bidirectional Associative Memory to a noise-tolerant, robust Protein Processor Associative Memory. Artif. Intell. 175(2): 673-693 (2011) - [c47]Omer Qadir, Jon Timmis, Gianluca Tempesti, Andy M. Tyrrell:
The Protein Processor Associative Memory on a Robotic Hand-Eye Coordination Task. BIONETICS 2011: 29-43 - [c46]Omer Qadir, Yang Jerry Liu, Jon Timmis, Gianluca Tempesti, Andy M. Tyrrell:
Hardware architecture for a bidirectional hetero-associative Protein Processing Associative Memory. IEEE Congress on Evolutionary Computation 2011: 208-215 - [c45]Yang Liu, Gianluca Tempesti, James Alfred Walker, Jon Timmis, Andrew M. Tyrrell, Paul Bremner:
A Self-scaling Instruction Generator Using Cartesian Genetic Programming. EuroGP 2011: 298-309 - 2010
- [c44]Omer Qadir, Yang Jerry Liu, Jon Timmis, Gianluca Tempesti, Andy M. Tyrrell:
Principles of protein processing for a self-organising associative memory. IEEE Congress on Evolutionary Computation 2010: 1-8 - [c43]Yang Liu, Jon Timmis, Omer Qadir, Gianluca Tempesti, Andy M. Tyrrell:
A Developmental and Immune-Inspired Dynamic Task Allocation Algorithm for Microprocessor Array Systems. ICARIS 2010: 199-212 - [c42]James Alfred Walker, Yang Liu, Gianluca Tempesti, Andy M. Tyrrell:
Automatic Code Generation on a MOVE Processor Using Cartesian Genetic Programming. ICES 2010: 238-249 - [e1]Gianluca Tempesti, Andy M. Tyrrell, Julian F. Miller:
Evolvable Systems: From Biology to Hardware - 9th International Conference, ICES 2010, York, UK, September 6-8, 2010. Proceedings. Lecture Notes in Computer Science 6274, Springer 2010, ISBN 978-3-642-15322-8 [contents]
2000 – 2009
- 2009
- [c41]Pierre-André Mudry, Gianluca Tempesti:
Self-Scaling Stream Processing: A Bio-Inspired Approach to Resource Allocation through Dynamic Task Replication. AHS 2009: 353-360 - [c40]Pierre-André Mudry, Gianluca Tempesti:
A Design Environment for Bio-Inspired Cellular Architectures. ERSA 2009: 67-80 - [c39]Pitiwut Teerakittikul, Gianluca Tempesti, Andy M. Tyrrell:
The application of evolvable hardware to fault tolerant robot control. WEAH 2009: 1-8 - [r1]Gianluca Tempesti, Daniel Mange, André Stauffer:
Self-Replication and Cellular Automata. Encyclopedia of Complexity and Systems Science 2009: 8066-8084 - 2008
- [c38]Pierre-André Mudry, Julien Ruffin, Michel Ganguin, Gianluca Tempesti:
A Hardware-Software Design Framework for Distributed Cellular Computing. ICES 2008: 71-82 - 2007
- [j8]Gianluca Tempesti, Daniel Mange, Pierre-André Mudry, Joël Rossier, André Stauffer:
Self-replicating hardware for reliability: The embryonics project. ACM J. Emerg. Technol. Comput. Syst. 3(2): 9 (2007) - [j7]Will Barker, David M. Halliday, Yann Thoma, Eduardo Sanchez, Gianluca Tempesti, Andrew M. Tyrrell:
Fault Tolerance Using Dynamic Reconfiguration on the POEtic Tissue. IEEE Trans. Evol. Comput. 11(5): 666-684 (2007) - [c37]Pierre-André Mudry, Fabien Vannel, Gianluca Tempesti, Daniel Mange:
CONFETTI : A reconfigurable hardware platform for prototyping cellular architectures. IPDPS 2007: 1-8 - [c36]Gianluca Tempesti, Fabien Vannel, Pierre-André Mudry, Daniel Mange:
A novel platform for complex bio-inspired architectures. WEAH 2007: 8-14 - 2006
- [c35]Gianluca Tempesti, Pierre-André Mudry, Guillaume Zufferey:
Hardware/Software Coevolution of Genome Programs and Cellular Processors. AHS 2006: 129-136 - [c34]André Stauffer, Daniel Mange, Gianluca Tempesti:
Bio-inspired Computing Machines with Self-repair Mechanisms. BioADIT 2006: 128-140 - [c33]Joël Rossier, Yann Thoma, Pierre-André Mudry, Gianluca Tempesti:
MOVE Processors That Self-replicate and Differentiate. BioADIT 2006: 160-175 - [c32]Gianluca Tempesti, Daniel Mange, Pierre-André Mudry, Joël Rossier, André Stauffer:
Self-replication for reliability: bio-inspired hardware and the embryonics project. Conf. Computing Frontiers 2006: 199-206 - [c31]Pierre-André Mudry, Guillaume Zufferey, Gianluca Tempesti:
An Hybrid Genetic Algorithm for Constrained Hardware-Software Partitioning. DDECS 2006: 3-8 - [c30]Pierre-André Mudry, Guillaume Zufferey, Gianluca Tempesti:
A dynamically constrained genetic algorithm for hardware-software partitioning. GECCO 2006: 769-776 - [p2]Daniel Mange, André Stauffer, Gianluca Tempesti, Fabien Vannel, André Badertscher:
Bio-Inspired Computing Machines with Artificial Division and Differentiation. Evolvable Hardware 2006: 85-98 - 2005
- [c29]Gianluca Tempesti, Daniel Mange, André Stauffer:
Bio-Inspired Computing Architectures: The Embryonics Approach. CAMP 2005: 3-10 - [c28]André Stauffer, Daniel Mange, Gianluca Tempesti:
Construction-Based and Inspection-Based Universal Self-replication. ECAL 2005: 805-814 - [c27]Gianluca Tempesti, Pierre-André Mudry, Ralph Hoffmann:
A Move Processor for Bio-Inspired Systems. Evolvable Hardware 2005: 262-271 - [c26]André Stauffer, Daniel Mange, Gianluca Tempesti:
Embryonic Machines That Grow, Self-Replicate and Self-Repair. Evolvable Hardware 2005: 290-293 - 2004
- [j6]Daniel Mange, André Stauffer, Leonardo Peparaolo, Gianluca Tempesti:
A macroscopic view of self-replication. Proc. IEEE 92(12): 1929-1945 (2004) - [c25]Joël Rossier, Enrico Petraglio, André Stauffer, Gianluca Tempesti:
Tom Thumb Algorithm and von Neumann Universal Constructor. ACRI 2004: 1-10 - [c24]Daniel Mange, André Stauffer, Enrico Petraglio, Gianluca Tempesti:
Embryonic Machines That Divide and Differentiate. BioADIT 2004: 201-216 - [c23]Enrico Petraglio, Daniel Mange, André Stauffer, Gianluca Tempesti:
Artificial Cellular Division by Self-Inspection. BioADIT 2004: 217-232 - [c22]Juan Manuel Moreno, Yann Thoma, Eduardo Sanchez, Oriol Torres, Gianluca Tempesti:
Hardware Realization of a Bio-inspired POEtic Tissue. Evolvable Hardware 2004: 237-244 - [c21]Gianluca Tempesti:
Processor Architectures for Ontogenesis. Evolvable Hardware 2004: 269- - [c20]André Stauffer, Daniel Mange, Enrico Petraglio, Gianluca Tempesti:
Self-Replication of 3D Universal Structures. Evolvable Hardware 2004: 283- - 2003
- [c19]Gianluca Tempesti, Daniel Mange, Enrico Petraglio, André Stauffer, Yann Thoma:
Developmental Processes in Silicon: An Engineering Perspective. Evolvable Hardware 2003: 265-274 - [c18]Yann Thoma, Eduardo Sanchez, Juan-Manuel Moreno Aróstegui, Gianluca Tempesti:
A Dynamic Routing Algorithm for a Bio-inspired Reconfigurable Circuit. FPL 2003: 681-690 - [c17]Andrew M. Tyrrell, Eduardo Sanchez, Dario Floreano, Gianluca Tempesti, Daniel Mange, Juan Manuel Moreno, Jay R. Rosenberg, Alessandro E. P. Villa:
POEtic Tissue: An Integrated Architecture for Bio-inspired Hardware. ICES 2003: 129-140 - [c16]Gianluca Tempesti, Daniel Roggen, Eduardo Sanchez, Yann Thoma, Richard Canham, Andrew M. Tyrrell:
Ontogenetic Development and Fault Tolerance in the POEtic Tissue. ICES 2003: 141-152 - 2002
- [c15]Gianluca Tempesti, Daniel Mange, André Stauffer, Christof Teuscher:
The BioWall: An Electronic Tissue for Prototyping Bio-Inspired Systems. Evolvable Hardware 2002: 221-230 - [p1]Enrico Petraglio, Gianluca Tempesti, Jean-Marc Henry:
Arithmetic Operations with Self-Replicating Loops. Collision-Based Computing 2002: 469-490 - 2001
- [c14]André Stauffer, Daniel Mange, Gianluca Tempesti, Christof Teuscher:
Biowatch: A Giant Electronic Bio-Inspired Watch. Evolvable Hardware 2001: 185-192 - [c13]Lucian Prodan, Gianluca Tempesti, Daniel Mange, André Stauffer:
Embryonics: Artificial Cells Driven by Artificial DNA. ICES 2001: 100-111 - [c12]André Stauffer, Daniel Mange, Gianluca Tempesti, Christof Teuscher:
A Self-Repairing and Self-Healing Electronic Watch: The BioWatch. ICES 2001: 112-127 - [c11]Daniel Mange, André Stauffer, Gianluca Tempesti, Christof Teuscher:
From Embryonics to POEtic Machines. IWANN (2) 2001: 1-13 - 2000
- [j5]Daniel Mange, Moshe Sipper, André Stauffer, Gianluca Tempesti:
Toward robust integrated circuits: The embryonics approach. Proc. IEEE 88(4): 516-543 (2000) - [c10]Daniel Mange, Moshe Sipper, André Stauffer, Gianluca Tempesti:
Toward Self-Repairing and Self-Replicating Hardware: The Embryonics Approach. Evolvable Hardware 2000: 205-214 - [c9]Cesar Ortega-Sanchez, Andrew M. Tyrrell, Daniel Mange, André Stauffer, Gianluca Tempesti:
Reliability Analysis of a Self-Repairing Embryonic Machine. EUROMICRO 2000: 1356-1361 - [c8]Lucian Prodan, Gianluca Tempesti, Daniel Mange, André Stauffer:
Biology Meets Electronics: The Path to a Bio-inspired FPGA. ICES 2000: 187-196
1990 – 1999
- 1999
- [c7]Enrico Petraglio, Jean-Marc Henry, Gianluca Tempesti:
Arithmetic Operations on Self-Replicating Cellular Automata. ECAL 1999: 447-456 - 1998
- [j4]Gianluca Tempesti, Daniel Mange, André Stauffer:
Self-Replicating and Self-Repairing Multicellular Automata. Artif. Life 4(3): 259-282 (1998) - [j3]Daniel Mange, Eduardo Sanchez, André Stauffer, Gianluca Tempesti, Pierre Marchal, Christian Piguet:
Embryonics: a new methodology for designing field-programmable gate arrays with self-repair and self-replicating properties. IEEE Trans. Very Large Scale Integr. Syst. 6(3): 387-399 (1998) - [c6]Daniel Mange, André Stauffer, Gianluca Tempesti:
Embryonics: A Macroscopic View of the Cellular Architecture. ICES 1998: 174-184 - [c5]Daniel Mange, André Stauffer, Gianluca Tempesti:
Embryonics: A Microscopic View of the Molecular Architecture. ICES 1998: 185-195 - 1997
- [j2]Gianluca Tempesti, Daniel Mange, André Stauffer:
A robust multiplexer-based FPGA inspired by biological systems. J. Syst. Archit. 43(10): 719-733 (1997) - [j1]Daniel Mange, Dominik Madon, André Stauffer, Gianluca Tempesti:
Von Neumann revisited: A turing machine with self-repair and self-reproduction properties. Robotics Auton. Syst. 22(1): 35-58 (1997) - 1995
- [c4]Gianluca Tempesti:
A New Self-Reproducing Cellular Automaton Capable of Construction and Computation. ECAL 1995: 555-563 - [c3]Pierre Marchal, Pascal Nussbaum, Christian Piguet, Serge Durand, Daniel Mange, Eduardo Sanchez, André Stauffer, Gianluca Tempesti:
Embryonics: The Birth of Synthetic Life. Towards Evolvable Hardware 1995: 166-196 - [c2]Daniel Mange, Maxime Goeke, Dominik Madon, André Stauffer, Gianluca Tempesti, Serge Durand:
Embryonics: A New Family of Coarse-Grained Field Programmable Gate Array with Self-Repair and Self-Reproducing Properties. Towards Evolvable Hardware 1995: 197-220 - [c1]Daniel Mange, Serge Durand, Eduardo Sanchez, André Stauffer, Gianluca Tempesti, Pierre Marchal, Christian Piguet:
A New Paradigm for Developing Digital Systems Based on a Multi-Cellular Organization. ISCAS 1995: 2193-2196
Coauthor Index
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