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==메타데이터==
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===위키데이터===
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* ID :  [https://www.wikidata.org/wiki/Q189088 Q189088]
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===Spacy 패턴 목록===
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* [{'LOWER': 'von'}, {'LOWER': 'neumann'}, {'LEMMA': 'architecture'}]

2021년 2월 17일 (수) 01:14 기준 최신판

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말뭉치

  1. - What does Von Neumann Architecture mean?[1]
  2. Von Neumann architecture is based on the stored-program computer concept, where instruction data and program data are stored in the same memory.[2]
  3. The basic physical organization of a modern computer, based on the von Neumann architecture model, comprises 5 units, namely memory, control, arithmetic-&-logic, input, and output.[3]
  4. The basic CISC architecture is essentially the von Neumann architecture in the sense of storing both the instruction and the data inside a common memory unit.[3]
  5. The term "von Neumann architecture" has evolved to mean any stored-program computer in which an instruction fetch and a data operation cannot occur at the same time because they share a common bus.[4]
  6. Von Neumann architecture is the design upon which many general purpose computers are based.[5]
  7. This is the origin of the term “Von Neumann Architecture,” although it is now known that other scientists had come up with similar architectures before Von Neumann.[6]
  8. The Von Neumann architecture is the reason why most software developers argue that learning a second programming language requires substantially less investment than learning the first.[6]
  9. As all things created by humans, the Von Neumann architecture is imperfect.[6]
  10. This method of putting together a computer is known as the Von Neumann Architecture.[7]
  11. In a modern computer built to the Von Neumann architecture, information passes back and forth along a 'bus'.[8]
  12. The Von Neumann architecture has been incredibly successful, with most modern computers following the idea.[8]
  13. The Von Neumann architecture is about the structure that a computer should follow.[9]
  14. But this requires replacement of the von Neumann architecture as system designs are aggressively advanced.[10]
  15. Amongst all of the change and innovation in the field since the 1940s, one concept has remained integral and unscathed: the von Neumann Architecture.[11]
  16. The von Neumann architecture was first introduced by John von Neumann in his 1945 paper, “First Draft of a Report on the EDVAC.[11]
  17. One of the major downsides to the von Neumann architecture is what has become known as the von Neumann bottleneck.[11]
  18. Von Neumann architecture, and its accompanying plethora of foundational software (assemblers, compilers, loaders etc.), are what enable the power of “programs running programs”.[12]
  19. The von Neumann architecture is the basis of almost all computing done today.[13]
  20. There is no doubt that his insights into the organization of machines led to the infrastructure which is now known as the "von Neumann Architecture".[14]
  21. The von Neumann Architecture is named after the mathematician and early computer scientist John von Neumann.[15]
  22. While a plethora of alternative architectures have been proposed over the years, none has managed to gain the sustained traction of the von Neumann architecture.[16]
  23. Memory-Augmented Neural Networks (MANNs) are differentiable versions of the von Neumann architecture (more on this in the next section).[17]
  24. The von Neumann architecture performs non-differentiable operations.[17]
  25. The Von Neumann architecture is a model that was developed in the 1940s by John von Neumann, a physicist and mathematician, who was an early computer researcher.[18]
  26. Computers that use the von Neumann architecture range from very simple (such as the one in your microwave) to the massive supercomputers that have dedicated buildings.[18]
  27. Pretty much any device that you use will have been built and designed with the von Neumann architecture in mind.[18]
  28. The von Neumann architecture is a design model for a stored-program digital computer that uses a processing unit and a single separate storage structure to hold both instructions and data.[19]

소스

  1. What is Von Neumann Architecture?
  2. Von-Neumann Model
  3. 3.0 3.1 Von Neumann Architecture - an overview
  4. von Neumann architecture
  5. Von Neumann architecture
  6. 6.0 6.1 6.2 A Farewell To The Von Neumann Architecture
  7. Architecture of a CPU (Von Neuman Architecture)
  8. 8.0 8.1 Teach-ICT A Level Computing OCR exam board
  9. Von Neumann Architecture
  10. A Declaration of Interdependence through Non von Neumann Architecture
  11. 11.0 11.1 11.2 AI Chip Strikes Down the von Neumann Bottleneck With In-Memory Neural Net Processing
  12. The von Neumann Architecture — Vish Ravindran
  13. Semiconductor Engineering
  14. John von Neuman and von Neumann Architecture for Computers (1945)
  15. GENERAL: Harvard Vs von Neumann Architectures
  16. Maximizing Von Neumann architecture
  17. 17.0 17.1 From von Neumann to Memory-Augmented Neural Networks
  18. 18.0 18.1 18.2 The von Neumann Architecture
  19. Computing History

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  • [{'LOWER': 'von'}, {'LOWER': 'neumann'}, {'LEMMA': 'architecture'}]
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