@prefix rdf: . @prefix dbr: . @prefix yago: . dbr:Cognitive_computer rdf:type yago:Whole100003553 , yago:WikicatComputers , yago:Device103183080 , yago:Machine103699975 , yago:Instrumentality103575240 , yago:Computer103082979 , yago:PhysicalEntity100001930 , yago:Artifact100021939 , yago:Object100002684 . @prefix rdfs: . dbr:Cognitive_computer rdfs:label "Cognitive computer"@en , "Neuromorpher Chip"@de , "\u8A8D\u77E5\u96FB\u8166"@zh ; rdfs:comment "Ein Neuromorpher Chip ist ein Mikrochip, der nach dem Beispiel von nat\u00FCrlichen Nervennetzen gebaut wird. Neuromorphe Chips sind Forschungsgebiet der Bionik und der Neuroinformatik. Existierende Prototypen umfassen k\u00FCnstliche Retinae oder noch weiter entwickelte Sehsysteme, k\u00FCnstliche Cochleae, , oder Taktgeber f\u00FCr naturnahe Bewegungsabl\u00E4ufe bei Robotern. Im Speziellen geh\u00F6ren auch zur Klasse der neuromorphen Mikrochips."@de , "A cognitive computer is a computer that hardwires artificial intelligence and machine-learning algorithms into an integrated circuit (printed circuit board) that closely reproduces the behavior of the human brain. It generally adopts a neuromorphic engineering approach. Synonyms are neuromorphic chip and cognitive chip."@en , "\u8A8D\u77E5\u96FB\u8166\u662F\u4E00\u7A2E\u8A66\u5716\u91CD\u73FE\u4EBA\u8166\u884C\u70BA\uFF0C\u4E26\u4E14\u7D50\u5408\u4E86\u4EBA\u5DE5\u667A\u6167\u53CA\u6A5F\u5668\u5B78\u7FD2\u6F14\u7B97\u6CD5\u7684\u6676\u7247\uFF0C\u4E00\u822C\u63A1\u7528\u7684\u65B9\u6CD5\uFF0C\u5176\u4E2D\u4E00\u4F8B\u70BAIBM\u516C\u53F8\u4EE5\u795E\u7D93\u7DB2\u8DEF\u548C\u6DF1\u5EA6\u5B78\u7FD2\u5BE6\u73FE\u7684\u83EF\u751F\u3002IBM\u516C\u53F8\u5F8C\u7E8C\u9084\u958B\u767C\u4E86TrueNorth\u5FAE\u6676\u7247\u67B6\u69CB\uFF0C\u8207\u50B3\u7D71\u96FB\u8166\u4E2D\u4F7F\u7528\u7684\u99AE\u00B7\u8AFE\u4F9D\u66FC\u67B6\u69CB\u76F8\u6BD4\uFF0C\u5176\u8A2D\u8A08\u7D50\u69CB\u66F4\u52A0\u63A5\u8FD1\u4EBA\u8166\u30022017\u5E74\uFF0C\u82F1\u7279\u723E\u4E5F\u516C\u4F48\u4E86\u81EA\u5BB6\u7248\u672C\u7684\u8A8D\u77E5\u6676\u7247\u300CLoihi\u300D\uFF0C\u65BC2018\u5E74\u63D0\u4F9B\u7D66\u5927\u5B78\u53CA\u7814\u7A76\u5BE6\u9A57\u5BA4\u3002\u82F1\u7279\u723E\u3001\u9AD8\u901A\u548C\u5176\u4ED6\u516C\u53F8\u4E5F\u6B63\u9010\u6B65\u6539\u9032\u795E\u7D93\u5F62\u614B\u8655\u7406\u5668\uFF0C\u5305\u62EC\u82F1\u7279\u723E\u7684Pohoiki Beach\u548CSprings\u7CFB\u7D71\u3002"@zh . @prefix foaf: . dbr:Cognitive_computer foaf:depiction . @prefix dcterms: . @prefix dbc: . dbr:Cognitive_computer dcterms:subject dbc:Unsupervised_learning , dbc:Computers , dbc:Artificial_intelligence . @prefix dbo: . dbr:Cognitive_computer dbo:wikiPageID 39177819 ; dbo:wikiPageRevisionID 1122061470 ; dbo:wikiPageWikiLink dbr:Manycore_processor , dbr:Milliwatts , dbr:Science_magazine , , dbr:Quanta_Magazine , dbr:SyNAPSE , dbr:Unary_numeral_system , dbr:USB , dbr:Carbon_monoxide , dbc:Unsupervised_learning , , dbr:Cornell_University , dbr:Simultaneous_localization_and_mapping , dbr:Isaac_Hale_Beach_Park , dbr:Cognitive_computing , , dbr:Integrate-and-fire , dbc:Computers , dbr:Tensor_Processing_Unit , dbr:Artificial_neuron , dbr:Dangerous_goods , dbr:Deep_learning , dbr:Intel , , dbr:Multi-core_processor , dbr:Backward_compatibility , , dbr:Integrated_development_environment , dbr:Integrated_circuit , dbr:Neuromorphic_engineering , dbr:Artificial_intelligence , dbr:SpiNNaker , dbr:Neuromorphic , dbr:Von_Neumann_architecture , dbr:Turing_test , dbr:Network_on_a_chip , dbr:Supercomputer_architecture , dbr:CMOS , dbr:Packet_switching , dbr:IBM , dbr:Computational_cognition , dbr:Rutgers_University , dbr:Narcotic , dbr:Massively_parallel , dbr:Skyrmion , dbr:AI_accelerator , dbr:Synapse , dbr:Transistor_count , dbr:Manycore , dbr:Qualcomm , dbr:Neural_network , dbr:Explosive , dbc:Artificial_intelligence , dbr:Neurons , dbr:Convolutional_neural_network , dbr:Vendor_lock-in , dbr:TrueNorth . @prefix ns8: . dbr:Cognitive_computer dbo:wikiPageExternalLink ns8:microchips-mimic-human-brain-could-make-ai-far-more-energy-efficient , , , , . @prefix owl: . @prefix ns10: . dbr:Cognitive_computer owl:sameAs ns10:eFXG . @prefix yago-res: . dbr:Cognitive_computer owl:sameAs yago-res:Cognitive_computer . @prefix wikidata: . dbr:Cognitive_computer owl:sameAs wikidata:Q16920587 . @prefix dbpedia-de: . dbr:Cognitive_computer owl:sameAs dbpedia-de:Neuromorpher_Chip , , , . @prefix dbp: . @prefix dbt: . dbr:Cognitive_computer dbp:wikiPageUsesTemplate dbt:Advert , dbt:Reflist , dbt:Cite_book , dbt:Cite_web , dbt:Cite_journal ; dbo:thumbnail ; dbo:abstract "Ein Neuromorpher Chip ist ein Mikrochip, der nach dem Beispiel von nat\u00FCrlichen Nervennetzen gebaut wird. Neuromorphe Chips sind Forschungsgebiet der Bionik und der Neuroinformatik. Existierende Prototypen umfassen k\u00FCnstliche Retinae oder noch weiter entwickelte Sehsysteme, k\u00FCnstliche Cochleae, , oder Taktgeber f\u00FCr naturnahe Bewegungsabl\u00E4ufe bei Robotern. Im Speziellen geh\u00F6ren auch zur Klasse der neuromorphen Mikrochips."@de , "\u8A8D\u77E5\u96FB\u8166\u662F\u4E00\u7A2E\u8A66\u5716\u91CD\u73FE\u4EBA\u8166\u884C\u70BA\uFF0C\u4E26\u4E14\u7D50\u5408\u4E86\u4EBA\u5DE5\u667A\u6167\u53CA\u6A5F\u5668\u5B78\u7FD2\u6F14\u7B97\u6CD5\u7684\u6676\u7247\uFF0C\u4E00\u822C\u63A1\u7528\u7684\u65B9\u6CD5\uFF0C\u5176\u4E2D\u4E00\u4F8B\u70BAIBM\u516C\u53F8\u4EE5\u795E\u7D93\u7DB2\u8DEF\u548C\u6DF1\u5EA6\u5B78\u7FD2\u5BE6\u73FE\u7684\u83EF\u751F\u3002IBM\u516C\u53F8\u5F8C\u7E8C\u9084\u958B\u767C\u4E86TrueNorth\u5FAE\u6676\u7247\u67B6\u69CB\uFF0C\u8207\u50B3\u7D71\u96FB\u8166\u4E2D\u4F7F\u7528\u7684\u99AE\u00B7\u8AFE\u4F9D\u66FC\u67B6\u69CB\u76F8\u6BD4\uFF0C\u5176\u8A2D\u8A08\u7D50\u69CB\u66F4\u52A0\u63A5\u8FD1\u4EBA\u8166\u30022017\u5E74\uFF0C\u82F1\u7279\u723E\u4E5F\u516C\u4F48\u4E86\u81EA\u5BB6\u7248\u672C\u7684\u8A8D\u77E5\u6676\u7247\u300CLoihi\u300D\uFF0C\u65BC2018\u5E74\u63D0\u4F9B\u7D66\u5927\u5B78\u53CA\u7814\u7A76\u5BE6\u9A57\u5BA4\u3002\u82F1\u7279\u723E\u3001\u9AD8\u901A\u548C\u5176\u4ED6\u516C\u53F8\u4E5F\u6B63\u9010\u6B65\u6539\u9032\u795E\u7D93\u5F62\u614B\u8655\u7406\u5668\uFF0C\u5305\u62EC\u82F1\u7279\u723E\u7684Pohoiki Beach\u548CSprings\u7CFB\u7D71\u3002"@zh , "A cognitive computer is a computer that hardwires artificial intelligence and machine-learning algorithms into an integrated circuit (printed circuit board) that closely reproduces the behavior of the human brain. It generally adopts a neuromorphic engineering approach. Synonyms are neuromorphic chip and cognitive chip. An example of an cognitive computer implemented using neural networks and deep learning techniques is IBM's Watson machine. A subsequent development by IBM is the 2014 TrueNorth microchip architecture, which is designed to be closer in structure to the human brain than the von Neumann architecture used in conventional computers. In 2017 Intel also announced its own version of a cognitive chip in \"Loihi\", which it intended to be available to university and research labs in 2018. Intel, Qualcomm, and others are improving neuromorphic processors steadily, Intel with its Pohoiki Beach and Springs systems."@en . @prefix prov: . dbr:Cognitive_computer prov:wasDerivedFrom . @prefix xsd: . dbr:Cognitive_computer dbo:wikiPageLength "18052"^^xsd:nonNegativeInteger . @prefix wikipedia-en: . dbr:Cognitive_computer foaf:isPrimaryTopicOf wikipedia-en:Cognitive_computer .