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ORCIDAndré Stauffer
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2010 – 2019
- 2010
[c50]André Stauffer, Joël Rossier:
Bio-inspired bit slice processors with self-test and self-repair mechanisms. AHS 2010: 44-51- [c49]André Stauffer, Joël Rossier:
Bio-inspired self-testing and self-organizing processing arrays. IEEE Congress on Evolutionary Computation 2010: 1-7 - [c48]André Stauffer, Joël Rossier:
CA based Self-Testing and Self-Organizing Processing Arrays. CSC 2010: 68-74 - [c47]André Stauffer, Joël Rossier:
Bio-inspired Self-testing Configurable Circuits. ICES 2010: 202-213
2000 – 2009
- 2009
- [c46]André Stauffer, Joël Rossier:
Self-Testable and Self-Repairable Bio-Inspired Configurable Circuits. AHS 2009: 155-162 - [c45]André Stauffer, Joël Rossier:
Self-Organizing DSP Circuits. BIOSIGNALS 2009: 197-203 - [c44]André Stauffer, Joël Rossier:
Self-organizing configurable bit slice processors. IEEE Congress on Evolutionary Computation 2009: 2288-2293 - [c43]André Stauffer, Joël Rossier:
Self-organizing Biologically Inspired Configurable Circuits. ECAL (1) 2009: 1-9 - [c42]André Stauffer, Joël Rossier:
Bio-inspired Self-Testing and Self-Organizing Bit Slice Processors. ReConFig 2009: 427-432 - [r1]Gianluca Tempesti, Daniel Mange, André Stauffer:
Self-Replication and Cellular Automata. Encyclopedia of Complexity and Systems Science 2009: 8066-8084 - 2008
- [j14]André Stauffer, Daniel Mange, Joël Rossier, Fabien Vannel
:
Bio-inspired self-organizing cellular systems. Biosyst. 94(1-2): 164-169 (2008) - [j13]André Stauffer, Daniel Mange, Joël Rossier:
Design of self-organizing bio-inspired systems. Int. J. Knowl. Based Intell. Eng. Syst. 12(3): 213-220 (2008) - [c41]André Stauffer, Joël Rossier:
From Data and Signals Cellular Automata to Self-organizing Circuits. ACRI 2008: 531-536 - [c40]André Stauffer, Daniel Mange, Joël Rossier:
Bio-Inspired Data and Signals Cellular Systems. BIOSIGNALS (1) 2008: 203-207 - [c39]André Stauffer, Joël Rossier:
Self-organization of Bio-inspired Integrated Circuits. ICES 2008: 431-436 - 2007
- [j12]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) - [c38]André Stauffer, Daniel Mange, Joël Rossier:
Design of Self-organizing Bio-inspired Systems. AHS 2007: 413-419 - [c37]André Stauffer, Daniel Mange, Joël Rossier:
Self-organizing Systems Based on Bio-inspired Properties. ECAL 2007: 1171-1181 - [c36]André Stauffer, Daniel Mange, Joël Rossier, Fabien Vannel:
Bio-inspired Systems with Self-developing Mechanisms. ICES 2007: 151-162 - 2006
- [c35]André Stauffer, Daniel Mange, Gianluca Tempesti:
Bio-inspired Computing Machines with Self-repair Mechanisms. BioADIT 2006: 128-140 - [c34]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 - [p1]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
- [c33]Gianluca Tempesti, Daniel Mange, André Stauffer:
Bio-Inspired Computing Architectures: The Embryonics Approach. CAMP 2005: 3-10 - [c32]André Stauffer, Daniel Mange, Gianluca Tempesti:
Construction-Based and Inspection-Based Universal Self-replication. ECAL 2005: 805-814 - [c31]André Stauffer, Daniel Mange, Gianluca Tempesti:
Embryonic Machines That Grow, Self-Replicate and Self-Repair. Evolvable Hardware 2005: 290-293 - [c30]André Stauffer, Daniel Mange, Fabien Vannel:
Hardware Implementation of 3D Self-replication. ICES 2005: 165-176 - 2004
- [j11]André Stauffer, Moshe Sipper:
The Data-and-Signals Cellular Automaton and Its Application to Growing Structures. Artif. Life 10(4): 463-477 (2004) - [j10]Daniel Mange, André Stauffer, Leonardo Peparaolo, Gianluca Tempesti:
A macroscopic view of self-replication. Proc. IEEE 92(12): 1929-1945 (2004) - [c29]Joël Rossier, Enrico Petraglio, André Stauffer, Gianluca Tempesti:
Tom Thumb Algorithm and von Neumann Universal Constructor. ACRI 2004: 1-10 - [c28]André Stauffer, Daniel Mange, Enrico Petraglio, Fabien Vannel:
DSCA Implementation of 3D Self-Replicating Structures. ACRI 2004: 698-708 - [c27]Daniel Mange, André Stauffer, Enrico Petraglio, Gianluca Tempesti:
Embryonic Machines That Divide and Differentiate. BioADIT 2004: 201-216 - [c26]Enrico Petraglio, Daniel Mange, André Stauffer, Gianluca Tempesti:
Artificial Cellular Division by Self-Inspection. BioADIT 2004: 217-232 - [c25]André Stauffer, Daniel Mange, Enrico Petraglio, Gianluca Tempesti:
Self-Replication of 3D Universal Structures. Evolvable Hardware 2004: 283- - 2003
- [c24]André Stauffer, Moshe Sipper:
Biomorphs Implemented as a Data and Signals Cellular Automaton. ECAL 2003: 724-732 - [c23]André Stauffer, Moshe Sipper:
Data and Signals: A New Kind of Cellular Automaton for Growing Systems. Evolvable Hardware 2003: 245-251 - [c22]Gianluca Tempesti, Daniel Mange, Enrico Petraglio, André Stauffer, Yann Thoma:
Developmental Processes in Silicon: An Engineering Perspective. Evolvable Hardware 2003: 265-274 - 2002
- [j9]André Stauffer, Moshe Sipper:
An Interactive Self-Replicator Implemented in Hardware. Artif. Life 8(2): 175-183 (2002) - [c21]André Stauffer, Moshe Sipper:
Emergence of Self-Replicating Loops in an Interactive, Hardware-Implemented Game-of-Life Environment. ACRI 2002: 123-131 - [c20]Gianluca Tempesti, Daniel Mange, André Stauffer, Christof Teuscher:
The BioWall: An Electronic Tissue for Prototyping Bio-Inspired Systems. Evolvable Hardware 2002: 221-230 - 2001
- [c19]André Stauffer, Moshe Sipper:
Externally Controllable and Destructible Self-Replicating Loops. ECAL 2001: 282-291 - [c18]André Stauffer, Daniel Mange, Gianluca Tempesti, Christof Teuscher:
Biowatch: A Giant Electronic Bio-Inspired Watch. Evolvable Hardware 2001: 185-192 - [c17]Lucian Prodan, Gianluca Tempesti, Daniel Mange, André Stauffer:
Embryonics: Artificial Cells Driven by Artificial DNA. ICES 2001: 100-111 - [c16]André Stauffer, Daniel Mange, Gianluca Tempesti, Christof Teuscher:
A Self-Repairing and Self-Healing Electronic Watch: The BioWatch. ICES 2001: 112-127 - [c15]Daniel Mange, André Stauffer, Gianluca Tempesti, Christof Teuscher:
From Embryonics to POEtic Machines. IWANN (2) 2001: 1-13 - 2000
- [j8]Daniel Mange, Moshe Sipper, André Stauffer, Gianluca Tempesti:
Toward robust integrated circuits: The embryonics approach. Proc. IEEE 88(4): 516-543 (2000) - [c14]Daniel Mange, Moshe Sipper, André Stauffer, Gianluca Tempesti:
Toward Self-Repairing and Self-Replicating Hardware: The Embryonics Approach. Evolvable Hardware 2000: 205-214 - [c13]Cesar Ortega-Sanchez, Andrew M. Tyrrell, Daniel Mange, André Stauffer, Gianluca Tempesti:
Reliability Analysis of a Self-Repairing Embryonic Machine. EUROMICRO 2000: 1356-1361 - [c12]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
- [j7]Eduardo Sanchez, Moshe Sipper, Jacques-Olivier Haenni, Jean-Luc Beuchat, André Stauffer, Andrés Pérez-Uribe:
Static and Dynamic Configurable Systems. IEEE Trans. Computers 48(6): 556-564 (1999) - 1998
- [j6]Gianluca Tempesti, Daniel Mange, André Stauffer:
Self-Replicating and Self-Repairing Multicellular Automata. Artif. Life 4(3): 259-282 (1998) - [j5]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) - [c11]André Stauffer, Moshe Sipper, Andrés Pérez-Uribe:
Some Applications of FPGAs in Bio-Inspired Hardware. FCCM 1998: 278-279 - [c10]Daniel Mange, André Stauffer, Gianluca Tempesti:
Embryonics: A Macroscopic View of the Cellular Architecture. ICES 1998: 174-184 - [c9]Daniel Mange, André Stauffer, Gianluca Tempesti:
Embryonics: A Microscopic View of the Molecular Architecture. ICES 1998: 185-195 - [c8]André Stauffer, Moshe Sipper:
Modeling Cellular Development Using L-Systems. ICES 1998: 196-205 - 1997
- [j4]Gianluca Tempesti, Daniel Mange, André Stauffer:
A robust multiplexer-based FPGA inspired by biological systems. J. Syst. Archit. 43(10): 719-733 (1997) - [j3]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) - [j2]Moshe Sipper, Eduardo Sanchez, Daniel Mange, Marco Tomassini, Andrés Pérez-Uribe, André Stauffer:
A phylogenetic, ontogenetic, and epigenetic view of bio-inspired hardware systems. IEEE Trans. Evol. Comput. 1(1): 83-97 (1997) - 1996
- [c7]Eduardo Sanchez, Daniel Mange, Moshe Sipper, Marco Tomassini, Andrés Pérez-Uribe, André Stauffer:
Phylogeny, Ontogeny, and Epigenesis: Three Sources of Biological Inspiration for Softening Hardware. ICES 1996: 35-54 - [c6]Maxime Goeke, Moshe Sipper, Daniel Mange, André Stauffer, Eduardo Sanchez, Marco Tomassini:
Online Autonomous Evolware. ICES 1996: 96-106 - 1995
- [c5]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 - [c4]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 - [c3]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 - 1994
- [c2]Daniel Mange, André Stauffer, Pierre Marchal, Christian Piguet:
Embryonics: Designing Programmable Circuits with Biological-like Properties. Applied Informatics 1994: 314-317
1980 – 1989
- 1988
- [j1]Corrado Pedron, André Stauffer:
Analysis and synthesis of combinational pass transistor circuits. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 7(7): 775-786 (1988) - [c1]André Stauffer, Ravi Nair:
Optimal CMOS cell transistor placement: a relaxation approach. ICCAD 1988: 364-367
Coauthor Index
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