Implementation of adaptive logic networks on an FPGA board
Resumen:
This work is part of a project that studies the implementation of neural network algorithms in reconfigurable hardware as a way to obtain a high performance neural processor. The results for Adaptive Logic Network (ALN) type binary networks with and without learning in hardware are presented. The designs were made on a hardware platform consisting of a PC compatible as the host computer and an ALTERA RIPP10 reconfigurable board with nine FLEX8K FPGAs and 512KB RAM. The different designs were run on the same hardware platform, taking advantage of its configurability. A software tool was developed to automatically convert the ALN network description resulting from the training process with the ATREE 2.7 for Windows software package into a hardware description file. This approach enables the easy generation of the hardware necessary to evaluate the very large combinatorial functions that results in an ALN. In an on-board learning version, an ALN basic node was designed optimizing it in the amount of cells per node used. Several nodes connected in a binary tree structure for each output bit, together with a control block, form the ALN network. The total amount of logic available on-board in the used platform limits the maximum size of the networks from a small to medium range. The performance was studied in pattern recognition applications. The results are compared with the software simulation of ALN networks.
| 1998 | |
| SISTEMAS y CONTROL | |
| Inglés | |
| Universidad de la República | |
| COLIBRI | |
| https://hdl.handle.net/20.500.12008/20760 | |
| Acceso abierto | |
| Licencia Creative Commons Atribución – No Comercial – Sin Derivadas (CC - By-NC-ND) |
| _version_ | 1807522890704224256 |
|---|---|
| author | de la Vega, Roberto J |
| author2 | Pérez Acle, Julio Fonseca de Oliveira, André Oliver, Juan Pablo Canetti, Rafael |
| author2_role | author author author author |
| author_facet | de la Vega, Roberto J Pérez Acle, Julio Fonseca de Oliveira, André Oliver, Juan Pablo Canetti, Rafael |
| author_role | author |
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| collection | COLIBRI |
| dc.creator.none.fl_str_mv | de la Vega, Roberto J Pérez Acle, Julio Fonseca de Oliveira, André Oliver, Juan Pablo Canetti, Rafael |
| dc.date.accessioned.none.fl_str_mv | 2019-05-29T15:28:09Z |
| dc.date.available.none.fl_str_mv | 2019-05-29T15:28:09Z |
| dc.date.issued.es.fl_str_mv | 1998 |
| dc.date.submitted.es.fl_str_mv | 20190528 |
| dc.description.abstract.none.fl_txt_mv | This work is part of a project that studies the implementation of neural network algorithms in reconfigurable hardware as a way to obtain a high performance neural processor. The results for Adaptive Logic Network (ALN) type binary networks with and without learning in hardware are presented. The designs were made on a hardware platform consisting of a PC compatible as the host computer and an ALTERA RIPP10 reconfigurable board with nine FLEX8K FPGAs and 512KB RAM. The different designs were run on the same hardware platform, taking advantage of its configurability. A software tool was developed to automatically convert the ALN network description resulting from the training process with the ATREE 2.7 for Windows software package into a hardware description file. This approach enables the easy generation of the hardware necessary to evaluate the very large combinatorial functions that results in an ALN. In an on-board learning version, an ALN basic node was designed optimizing it in the amount of cells per node used. Several nodes connected in a binary tree structure for each output bit, together with a control block, form the ALN network. The total amount of logic available on-board in the used platform limits the maximum size of the networks from a small to medium range. The performance was studied in pattern recognition applications. The results are compared with the software simulation of ALN networks. |
| dc.identifier.citation.es.fl_str_mv | de la Vega, R.J., Pérez Acle, J. Fonseca de Oliveira, A, Oliver, J.P, Canetti, R. Implementation of adaptive logic networks on an FPGA board. Publicado en: Proceedings of SPIE 3526. Configurable Computing: Technology and Applications, Boston, MA, United States8 October 1998, https://doi.org/10.1117/12.327045 |
| dc.identifier.uri.none.fl_str_mv | https://hdl.handle.net/20.500.12008/20760 |
| dc.language.iso.none.fl_str_mv | en eng |
| dc.rights.license.none.fl_str_mv | Licencia Creative Commons Atribución – No Comercial – Sin Derivadas (CC - By-NC-ND) |
| dc.rights.none.fl_str_mv | info:eu-repo/semantics/openAccess |
| dc.source.none.fl_str_mv | reponame:COLIBRI instname:Universidad de la República instacron:Universidad de la República |
| dc.subject.other.es.fl_str_mv | SISTEMAS y CONTROL |
| dc.title.none.fl_str_mv | Implementation of adaptive logic networks on an FPGA board |
| dc.type.es.fl_str_mv | Artículo |
| dc.type.none.fl_str_mv | info:eu-repo/semantics/article |
| dc.type.version.none.fl_str_mv | info:eu-repo/semantics/publishedVersion |
| description | This work is part of a project that studies the implementation of neural network algorithms in reconfigurable hardware as a way to obtain a high performance neural processor. The results for Adaptive Logic Network (ALN) type binary networks with and without learning in hardware are presented. The designs were made on a hardware platform consisting of a PC compatible as the host computer and an ALTERA RIPP10 reconfigurable board with nine FLEX8K FPGAs and 512KB RAM. The different designs were run on the same hardware platform, taking advantage of its configurability. A software tool was developed to automatically convert the ALN network description resulting from the training process with the ATREE 2.7 for Windows software package into a hardware description file. This approach enables the easy generation of the hardware necessary to evaluate the very large combinatorial functions that results in an ALN. In an on-board learning version, an ALN basic node was designed optimizing it in the amount of cells per node used. Several nodes connected in a binary tree structure for each output bit, together with a control block, form the ALN network. The total amount of logic available on-board in the used platform limits the maximum size of the networks from a small to medium range. The performance was studied in pattern recognition applications. The results are compared with the software simulation of ALN networks. |
| eu_rights_str_mv | openAccess |
| format | article |
| id | COLIBRI_37b90e6744b12bdef6bc7627fd0d91f5 |
| identifier_str_mv | de la Vega, R.J., Pérez Acle, J. Fonseca de Oliveira, A, Oliver, J.P, Canetti, R. Implementation of adaptive logic networks on an FPGA board. Publicado en: Proceedings of SPIE 3526. Configurable Computing: Technology and Applications, Boston, MA, United States8 October 1998, https://doi.org/10.1117/12.327045 |
| instacron_str | Universidad de la República |
| institution | Universidad de la República |
| instname_str | Universidad de la República |
| language | eng |
| language_invalid_str_mv | en |
| network_acronym_str | COLIBRI |
| network_name_str | COLIBRI |
| oai_identifier_str | oai:colibri.udelar.edu.uy:20.500.12008/20760 |
| publishDate | 1998 |
| reponame_str | COLIBRI |
| repository.mail.fl_str_mv | mabel.seroubian@seciu.edu.uy |
| repository.name.fl_str_mv | COLIBRI - Universidad de la República |
| repository_id_str | 4771 |
| rights_invalid_str_mv | Licencia Creative Commons Atribución – No Comercial – Sin Derivadas (CC - By-NC-ND) |
| spelling | 2019-05-29T15:28:09Z2019-05-29T15:28:09Z199820190528de la Vega, R.J., Pérez Acle, J. Fonseca de Oliveira, A, Oliver, J.P, Canetti, R. Implementation of adaptive logic networks on an FPGA board. Publicado en: Proceedings of SPIE 3526. Configurable Computing: Technology and Applications, Boston, MA, United States8 October 1998, https://doi.org/10.1117/12.327045https://hdl.handle.net/20.500.12008/20760This work is part of a project that studies the implementation of neural network algorithms in reconfigurable hardware as a way to obtain a high performance neural processor. The results for Adaptive Logic Network (ALN) type binary networks with and without learning in hardware are presented. The designs were made on a hardware platform consisting of a PC compatible as the host computer and an ALTERA RIPP10 reconfigurable board with nine FLEX8K FPGAs and 512KB RAM. The different designs were run on the same hardware platform, taking advantage of its configurability. A software tool was developed to automatically convert the ALN network description resulting from the training process with the ATREE 2.7 for Windows software package into a hardware description file. This approach enables the easy generation of the hardware necessary to evaluate the very large combinatorial functions that results in an ALN. In an on-board learning version, an ALN basic node was designed optimizing it in the amount of cells per node used. Several nodes connected in a binary tree structure for each output bit, together with a control block, form the ALN network. The total amount of logic available on-board in the used platform limits the maximum size of the networks from a small to medium range. The performance was studied in pattern recognition applications. The results are compared with the software simulation of ALN networks.Made available in DSpace on 2019-05-29T15:28:09Z (GMT). No. of bitstreams: 5 ofpdc98.pdf: 92732 bytes, checksum: 3255f1d135565b503c14f599168a680a (MD5) license_text: 21936 bytes, checksum: 9833653f73f7853880c94a6fead477b1 (MD5) license_url: 49 bytes, checksum: 4afdbb8c545fd630ea7db775da747b2f (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) license.txt: 4194 bytes, checksum: 7f2e2c17ef6585de66da58d1bfa8b5e1 (MD5) Previous issue date: 1998enengLas obras depositadas en el Repositorio se rigen por la Ordenanza de los Derechos de la Propiedad Intelectual de la Universidad De La República. (Res. Nº 91 de C.D.C. de 8/III/1994 – D.O. 7/IV/1994) y por la Ordenanza del Repositorio Abierto de la Universidad de la República (Res. Nº 16 de C.D.C. de 07/10/2014)info:eu-repo/semantics/openAccessLicencia Creative Commons Atribución – No Comercial – Sin Derivadas (CC - By-NC-ND)SISTEMAS y CONTROLImplementation of adaptive logic networks on an FPGA boardArtículoinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionreponame:COLIBRIinstname:Universidad de la Repúblicainstacron:Universidad de la Repúblicade la Vega, Roberto JPérez Acle, JulioFonseca de Oliveira, AndréOliver, Juan PabloCanetti, RafaelElectrónicaElectrónicaSistemas y ControlSistemas y ControlControlElectrónica AplicadaControlElectrónica 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- Universidad de la Repúblicafalse |
| spellingShingle | Implementation of adaptive logic networks on an FPGA board de la Vega, Roberto J SISTEMAS y CONTROL |
| status_str | publishedVersion |
| title | Implementation of adaptive logic networks on an FPGA board |
| title_full | Implementation of adaptive logic networks on an FPGA board |
| title_fullStr | Implementation of adaptive logic networks on an FPGA board |
| title_full_unstemmed | Implementation of adaptive logic networks on an FPGA board |
| title_short | Implementation of adaptive logic networks on an FPGA board |
| title_sort | Implementation of adaptive logic networks on an FPGA board |
| topic | SISTEMAS y CONTROL |
| url | https://hdl.handle.net/20.500.12008/20760 |
