Péter Földesy, Ph.D.
Péter Földesy
Address: 1111 Budapest, Kende u. 13-17.
Room number: K 327
Phone: +36 1 279 6249
E-mail: foldesyEZT_TOROLJE_KI@EZT_TOROLJE_KIsztaki.hu
Department: Cellular Sensory and Optical Wave Computing Laboratory

Publications

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Book

Fault tolerant design of analogic CNN templates and algorithms. Part I: The binary output case.(Research report of the Analogical and Neural Computing Laboratory, DNS-3-1998.)
Authors: Földesy, P; Kék, L; Zarándy, Á; Roska, T; Bártfai, G
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1998.
Published by: Fault tolerant design of analogic CNN templates and algorithms. Part I: The binary output case.(Research report of the Analogical and Neural Computing Laboratory, DNS-3-1998.) (Page: 18)
Functional measurements of the first analog input/output CNN universal chip. (Research report of the Analogical and Neural Computing Laboratory, DNS-4-1997.)
Authors: Zarándy, Á; Cruz, M; Szolgay, P; Földesy, P; Chua, LO; Roska, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1997.
Published by: Functional measurements of the first analog input/output CNN universal chip. (Research report of the Analogical and Neural Computing Laboratory, DNS-4-1997.) (Page: 15)
Distance preserving 1D turing-pattern models via CNN, implementing of complex-valued CNN, and solving a simple inverse pattern problem (detection).( Research report of the Analogical and Neural Computing Laboratory, DNS-3-1996.)
Authors: Tóth, G; Földesy, P; Roska, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1996.
Published by: Distance preserving 1D turing-pattern models via CNN, implementing of complex-valued CNN, and solving a simple inverse pattern problem (detection).( Research report of the Analogical and Neural Computing Laboratory, DNS-3-1996.) (Page: 23)
A CNN platform to a discrete-time cellular neural network universal machine chip. (Research report of the Analogical and Neural Computing Laboratory DNS-12-1995.)
Authors: Földesy, P; Szolgay, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1995.
Published by: A CNN platform to a discrete-time cellular neural network universal machine chip. (Research report of the Analogical and Neural Computing Laboratory DNS-12-1995.) (Page: 13)

Book chapter

VISCUBE: a multi-layer vision chip.
Authors: Zarándy, Ákos; Rekeczky , Csaba; Földesy, Péter; Carmona-Galán, Ricardo; Linán-Cembrano, Gustavo; Sós , Gergely; Rodríguez-Vázquez, Angel; Roska, Tamás
Editor: Zarándy, Ákos
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2011.
Published by: Focal-plane sensor-processor chips. (Page: 181-208.)
Cellular multi-core processor carrier chip for nanoantenna integration and experiments.
Authors: Zarándy, Ákos; Földesy, Péter; Carmona, R.; Rekeczky, Cs.; Bean, J.A.; Porod, W.
Editor: Baatar, C.; Porod, W.
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2010.
Published by: Cellular nanoscale sensory wave computing. (Page: 147-162.)
A development system for prototyping and interfacing CNN chips and for analogic algorithm design.
Authors: Zarándy, Á; Roska, T; Szolgay, P; Földesy, P; Zöld, S
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: Towards the visual microprocessor. VLSI design and the use of cellular neural network universal machines. (Page: 30-38)

Conference issue

Digital micromirror device (DMD) projector based test bench for vision chips.
Authors: Gergelyi, Domonkos; Földesy, Péter
Editor: Roska, Tamás; Gilli, Marco; Zarándy, Ákos
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2010. 02. 03.
Published by: 12th international workshop on cellular nanoscale networks and their applications. CNNA 2010. Berkeley, 2010. (Page: 464-467.)
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Digital processor array implementation aspects of a 3D multi-layer vision architecture.
Authors: Földesy, Péter; Carmona-Galan, R.; Zarándy, Ákos; Rekeczky, Cs.; Rodríguez-Vázquez, A.; Roska, Tamás
Editor: Roska, Tamás; Gilli, Marco; Zarándy, Ákos
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2010. 02. 03.
Published by: 12th international workshop on cellular nanoscale networks and their applications. CNNA 2010. Berkeley, 2010. (Page: 329-332.)
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Displacement calculation algorithm on a heterogeneous multi-layer cellular sensor processor array.
Authors: Zarándy, Ákos; Fekete, D.; Földesy, Péter; Soós, G.; Rekeczky, Cs.
Editor: Roska, Tamás; Gilli, Marco; Zarándy, Ákos
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2010. 02. 03.
Published by: 12th international workshop on cellular nanoscale networks and their applications. CNNA 2010. Berkeley, 2010. (Page: 171-176.)
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A 3-D chip architecture for optical sensing and concurrent processing.
Authors: Rodríguez-Vázquez, A.; Carmona, R.; Domínguez Matas, C.; Suárez-Cambre, M.; Brea, V.; Pozas, F.; Linán, G.; Földesy, Péter; Zarándy, Ákos; Rekeczky, Csaba
Editor: Berghmans, F.; Mignani, A. G.; van Hof, C. A.
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2010.
Published by: Optical sensing and detection. Brussels, 2010. (Proceedings of SPIE 7726.) (Page: 772613-1-772613-12.)
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3D multi-layer vision architecture for surveillance and reconnaissance applications.
Authors: Földesy, Péter; Carmona-Galan, R.; Zarándy, Ákos; Rekeczky, Cs.; Rodríguez-Vázquez, A.; Roska, Tamás
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2009. 08. 23.
Published by: ECCTD 2009. 19th European conference on circuit theory and design. Antalya, 2009. (Page: 185-188.)
Analysis of 2D operators on topographic and non-topographic processor architectures.
Clusterable cellular visual microprocessor.
High performance processor array for image processing.
3D integrated scalable focal-plane processor array.
Various implementations of topographic, sensory, cellular wave computers
Authors: Zarándy, Á; Földesy, P; Szolgay, P; Tőkés, Sz; Rekeczky, Cs; Roska, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2005.
Published by: ISCAS 2005. IEEE international symposium on circuits and systems. Kobe, 2005. (Page: 5802-5805)
Per-pixel integration time controlled image sensor
Authors: Zarándy, Á; Földesy, P; Roska, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2005.
Published by: ECCTD’05. Proceedings of the 2005 European conference on circuit theory and design. Cork, 2005. (Page: 149-153)
Trends in design of massively parallel coprocessors implemented in digital ASICs
Authors: Földesy, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2004.
Published by: Neural Networks, 2004. Proceedings. IEEE International Joint Conference IJCNN'04, Vol. 4. (Page: 3131-3135)
Active wave computing on silicon: chip experiments
Authors: Rekeczky, CS; Petrás, I; Szatmári, I; Földesy, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2003.
Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 2. (Page: 430-433)
Image processing library for the ALADDIN visual computer.
Authors: Szatmári, I; Földesy, P; Rekeczky, CS; Zarándy, Á
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2002.
Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 563-570)
PDE based histogram modification with embedded morphological processing of the level-sets.
Authors: Cserey, GY; Rekeczky, CS; Földesy, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2002.
Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 315-322)
Statistical error modeling of CNN-UM architectures: The binary case.
Authors: Földesy, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2002.
Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 467-474)
Analogic cellular PDE machines.
Authors: Rekeczky, CS; Szatmári, I; Földesy, P; Roska, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2002.
Published by: Proceedings of the 2002 IEEE World Congress on Computational Intelligence (WCCI 2002) Honolulu
Moving object traking on panoramic images.
Authors: Földesy, P; Szatmári, I; Zarándy, Á
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2002.
Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 63-70)
Behavioral modeling concept and practice of CNN-UM VLSI implementations.
Authors: Földesy, P; Rodíguez-Vázquez, A
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2001.
Published by: Circuit paradigm in the 21st century. ECCTD '01. Proceedings of the 15th European conference on circuit theory and design. Espoo, 2001. Vol. 3. (Page: 97-100)
Computing on silicon with trigger-waves: experiments on CNN-UM chips.
Authors: Rekeczky, CS; Szatmári, I; Földesy, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2001.
Published by: IEEE international symposium on circuits and systems. ISCAS 2001. Sydney, 2001. Vol. 3. (Page: 49-52)
Implementation of non-linear templates using a decomposition technique by a 0.5mm CMOS CNN universal chip.
Authors: Linán, G; Földesy, P; Rodríguez-Vázquez, A; Espejo, S; Dominiguez-Castro, R
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: The 2000 IEEE international symposium on circuits and systems. Emerging technologies for the 21st century. ISCAS 2000. Geneva, 2000. Vol. 2. (Page: 401-404)
Object oriented image segmentation on the CNNUC3 chip.
Authors: Földesy, P; Linan, G; Rodriguez-Vázquez, A; Espejo, S; Dominguez-Castro, R
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: Proceedings of the 6th IEEE international workshop on cellular neural networks and their applications. (CNNA 2000). Catania, 2000. (Page: 283-288)
Sructure reconfigurability of the CNNUC3 for robust template operation.
Authors: Földesy, P; Linán, G; Rodriguez-Vázquez, A; Espejo, S; Dominguez-Castro, R
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: Proceedings of the 6th IEEE international workshop on cellular neural networks and their applications. (CNNA 2000). Catania, 2000. (Page: 289-293)
Realization of non-linear templates using the CNNUC3 prototype.
Authors: Linán, G; Földesy, P; Rodríguez-Vázquez, A; Espejo, S; Dominguez-Castro, R
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: Proceedings of the 6th IEEE international workshop on cellular neural networks and their applications. (CNNA 2000). Catania, 2000. (Page: 219-224)
CNN technology in action.
Authors: Zarándy, Á; Espejo, S; Földesy, P; Kék, L; Linán, G; Rekeczky, C; Rodriguez-Vázquez, A; Roska, T; Szatmári, I; Szirányi, T; Szolgay, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: Proceedings of the 6th IEEE international workshop on cellular neural networks and their applications. (CNNA 2000). Catania, 2000. (Page: 79-81)
An analogic CNN engine board with the 64x64 analog I/O CNN-UM chip.
Authors: Szatmári, I; Zarándy, Á; Földesy, P; Kék, L
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: The 2000 IEEE international symposium on circuits and systems. Emerging technologies for the 21st century. ISCAS 2000. Geneva, 2000. Vol. 2. (Page: 124-127)
The computational infrastructure for cellular visual microprocessors.
Authors: Szolgay, P; Zarándy, Á; Zöld, S; Roska, T; Földesy, P; Kék, L; Kozek, T; László, K; Petrás, I; Rekeczky, CS; Szatmári, I; Bálya, D
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1999.
Published by: MicroNeuro '99. Proceedings of the seventh international conference on microelectronics for neural, fuzzy, and bio-inspired systems. Granada, 1999. (Page: 54-60)
CNN chip prototyping and development systems.
Authors: Zarándy, Á; Roska, T; Szolgay, P; Zöld, S; Földesy, P; Petrás, I
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1999.
Published by: Design automation day on cellular visual microprocessor. Stresa, 1999. (Page: 69-81)
Fault tolerant CNN template design and optimatization based on chip measurements.
Authors: Földesy, P; Kék, L; Roska, T; Zarándy, Á; Bártfai, G
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1998.
Published by: 1998 fifth IEEE international workshop on cellular neural networks and their applications. CNNA 98. Proceedings. London, 1998 (Page: 404-409)
On the chip implementation of analogic algorithms for optical detection of some layout errors of printed circuit boards.
Authors: Tömördi, K; Földesy, P; Szolgay, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1998.
Published by: 1998 fifth IEEE international workshop on cellular neural networks and their applications. CNNA 98. Proceedings. London, 1998. (Page: 162-168)
A CNN engine board.
Authors: Földesy, P; Szolgay, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1997.
Published by: ECCTD '97. Design automation day on cellular computing architectures for multimedia and intelligent image sensors. Budapest, 1997. (Page: 199-204)
Real-life application case studies using CMOS 0.8 mm CNN universal chip: analogic algorithm for motion detection and texture segmentation.
Authors: Földesy, P; Zarándy, Á; Szolgay, P; Szirányi, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1996.
Published by: 1996 fourth IEEE international workshop on Cellular Neural Networks and their applications proceedings. CNNA-96. Seville, 1996. (Page: 363-368)
Distance preserving 1D turing-wave models via CNN, implementation of complex-valued CNN and solving a simple inverse pattern problem (detection).
Authors: Tóth, G; Földesy, P; Roska, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1996.
Published by: 1996 fourth IEEE international workshop on Cellular Neural Networks and their applications proceedings. CNNA-96. Seville, 1996. (Page: 109-114)
The first steps toward the application of the CNN chips.
Authors: Szolgay, P; Földesy, P; Gubai, GY; Kukoda, G
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1996.
Published by: Intelligent technologies. Proceedings of the 1-st Slovak neural networks symposium. Herl'any, 1996. Vol. 2. (Page: 243-252)

Dissertation

CNN-UM architektúrák hibamodellezése és alkalmazhatóságuk kiterjesztése - modellezés, analízis és műveleti szintézis.
Authors: Földesy, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2000.
Published by: (Page: 126)

ISI journal article

Configurable 3D-integrated focal-plane sensor-processor array architecture.
Authors: Földesy, Péter; Zarándy, Ákos; Rekeczky, Csaba
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2008.
Published by: International Journal of Circuit Theory and Applications (Volume no.: 36, Issue no.: 5-6, Page: 573-588.)
Digital implementation of the cellular sensor-computers
Authors: Földesy, Péter; Zarándy, Ákos; Rekeczky, Csaba; Roska, Tamás
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2006.
Published by: International Journal of Circuit Theory and Applications (Volume no.: 34, Page: 409-428)

Journal article

PDE-based histogram modification with embedded morphological processing of the level-sets
Authors: Cserey, GY; Rekeczky, CS; Földesy, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2003.
Published by: JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS (Volume no.: 12, Issue no.: 4, Page: 519-538)
The new framework of applications: the Aladdin system
Authors: Zarándy, Á; Rekeczky, CS; Földesy, P; Szatmári, I
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2003.
Published by: JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS (Volume no.: 12, Issue no.: 6, Page: 769-781)
A behavioural modelling technique for visual microprocessor mixed-signal VLSI chips.
Authors: Földesy, P; Rodríguez-Vázquez, Á
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 2002.
Published by: INTERNATIONAL JOURNAL OF CIRCUIT THEORY AND APPLICATIONS (Volume no.: 30, Issue no.: 2-3, Page: 139-245)
The computational infrastructure of analogic CNN computing - Part I: The CNN-UM chip prototyping system.
Authors: Roska, T; Zarándy, Á; Zöld, S; Földesy, P; Szolgay, P
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1999.
Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 46, Issue no.: 2, Page: 261-268)
Fault-tolerant design of analogic CNN templates and algorithms - Part I: The binary output case.
Authors: Földesy, P; Kék, L; Zarándy, Á; Roska, T; Bártfai, G
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1999.
Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 46, Issue no.: 2, Page: 312-322)
0.8-?m CMOS two-dimensional programmable mixed-signal focal-plane array processor with on-chip binary imaging and instructions storage.
Authors: Domínguez-Castro, R; Espejo, S; Rodríguez-Vázquez, A; Carmona, RA; Földesy, P; Zarándy, Á; Szolgay, P; Szirányi, T; Roska, T
Department: Cellular Sensory and Optical Wave Computing Laboratory
Date: 1997.
Published by: IEEE JOURNAL OF SOLID-STATE CIRCUITS (Volume no.: 32, Issue no.: 7, Page: 1013-1026)

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