"Landauer limit" meaning in All languages combined

See Landauer limit on Wiktionary

Noun [English]

Forms: Landauer limits [plural]
Etymology: After Landauer's principle, named after German-American physicist Rolf Landauer. Head templates: {{en-noun}} Landauer limit (plural Landauer limits)
  1. (physics, information theory) A theoretical lower limit on the energy consumption of a computation, derived from Landauer's principle. Wikipedia link: Landauer's principle, Rolf Landauer Categories (topical): Information theory, Physics Synonyms: Landauer's limit Related terms: Landauer erasure, Landauer's principle, Landauer's erasure principle

Inflected forms

{
  "etymology_text": "After Landauer's principle, named after German-American physicist Rolf Landauer.",
  "forms": [
    {
      "form": "Landauer limits",
      "tags": [
        "plural"
      ]
    }
  ],
  "head_templates": [
    {
      "args": {},
      "expansion": "Landauer limit (plural Landauer limits)",
      "name": "en-noun"
    }
  ],
  "lang": "English",
  "lang_code": "en",
  "pos": "noun",
  "senses": [
    {
      "categories": [
        {
          "kind": "other",
          "name": "English entries with incorrect language header",
          "parents": [
            "Entries with incorrect language header",
            "Entry maintenance"
          ],
          "source": "w"
        },
        {
          "kind": "other",
          "name": "Entries with translation boxes",
          "parents": [],
          "source": "w"
        },
        {
          "kind": "other",
          "name": "Pages with 1 entry",
          "parents": [],
          "source": "w"
        },
        {
          "kind": "other",
          "name": "Pages with entries",
          "parents": [],
          "source": "w"
        },
        {
          "kind": "topical",
          "langcode": "en",
          "name": "Information theory",
          "orig": "en:Information theory",
          "parents": [
            "Applied mathematics",
            "Mathematics",
            "Formal sciences",
            "Sciences",
            "All topics",
            "Fundamental"
          ],
          "source": "w"
        },
        {
          "kind": "topical",
          "langcode": "en",
          "name": "Physics",
          "orig": "en:Physics",
          "parents": [
            "Sciences",
            "All topics",
            "Fundamental"
          ],
          "source": "w"
        }
      ],
      "examples": [
        {
          "text": "2012, Rolf Drechsler, Robert Wille, Reversible Circuits: Recent Accomplishments and Future Challenges for an Emerging Technology, Hafizur Rahaman, Sanatan Chattopadhyay, Santanu Chattopadhyay (editors), Progress in VLSI Design and Test: 16th International Symposium, Proceedings, Springer, LNCS 7373, page 385,\nThe figure shows that today's technology is still a factor of 1,000 away from the Landauer limit and that the expected CMOS development will reduce this to a factor of 100 within the next 10 years."
        },
        {
          "ref": "2021, Caleb Scharf, The Ascent of Information, Penguin Random House (Riverhead Books), page 192:",
          "text": "This Landauer limit is simply an energy, given in equation form as kTln2 . The quantity k is a constant of nature called Boltzmann's constant. The T is the environmental temperature in Kelvin, and ln2 is the natural logarithm of two.",
          "type": "quote"
        },
        {
          "ref": "2022, Torben Ægidius Mogensen, Programming Language Design and Implementation, Springer, page 309:",
          "text": "Using such gates, we can (at least in theory) build a computer that can compute all bijective functions with no theoretical minimum energy use. There will be some energy use (nothing is free), but it can, in theory, be much smaller than the Landauer limit. Single reversible gates that can operate using less power than the Landauer limit have been constructed, but no complex circuitry has yet been constructed from these gates.",
          "type": "quote"
        }
      ],
      "glosses": [
        "A theoretical lower limit on the energy consumption of a computation, derived from Landauer's principle."
      ],
      "id": "en-Landauer_limit-en-noun-PUrqcFh1",
      "links": [
        [
          "physics",
          "physics"
        ],
        [
          "information theory",
          "information theory"
        ],
        [
          "energy",
          "energy"
        ],
        [
          "computation",
          "computation"
        ],
        [
          "Landauer's principle",
          "Landauer's principle"
        ]
      ],
      "raw_glosses": [
        "(physics, information theory) A theoretical lower limit on the energy consumption of a computation, derived from Landauer's principle."
      ],
      "related": [
        {
          "word": "Landauer erasure"
        },
        {
          "word": "Landauer's principle"
        },
        {
          "word": "Landauer's erasure principle"
        }
      ],
      "synonyms": [
        {
          "word": "Landauer's limit"
        }
      ],
      "topics": [
        "computing",
        "engineering",
        "information-theory",
        "mathematics",
        "natural-sciences",
        "physical-sciences",
        "physics",
        "sciences"
      ],
      "wikipedia": [
        "Landauer's principle",
        "Rolf Landauer"
      ]
    }
  ],
  "word": "Landauer limit"
}
{
  "etymology_text": "After Landauer's principle, named after German-American physicist Rolf Landauer.",
  "forms": [
    {
      "form": "Landauer limits",
      "tags": [
        "plural"
      ]
    }
  ],
  "head_templates": [
    {
      "args": {},
      "expansion": "Landauer limit (plural Landauer limits)",
      "name": "en-noun"
    }
  ],
  "lang": "English",
  "lang_code": "en",
  "pos": "noun",
  "related": [
    {
      "word": "Landauer erasure"
    },
    {
      "word": "Landauer's principle"
    },
    {
      "word": "Landauer's erasure principle"
    }
  ],
  "senses": [
    {
      "categories": [
        "English countable nouns",
        "English entries with incorrect language header",
        "English eponyms",
        "English lemmas",
        "English multiword terms",
        "English nouns",
        "English terms with quotations",
        "Entries with translation boxes",
        "Pages with 1 entry",
        "Pages with entries",
        "en:Information theory",
        "en:Physics"
      ],
      "examples": [
        {
          "text": "2012, Rolf Drechsler, Robert Wille, Reversible Circuits: Recent Accomplishments and Future Challenges for an Emerging Technology, Hafizur Rahaman, Sanatan Chattopadhyay, Santanu Chattopadhyay (editors), Progress in VLSI Design and Test: 16th International Symposium, Proceedings, Springer, LNCS 7373, page 385,\nThe figure shows that today's technology is still a factor of 1,000 away from the Landauer limit and that the expected CMOS development will reduce this to a factor of 100 within the next 10 years."
        },
        {
          "ref": "2021, Caleb Scharf, The Ascent of Information, Penguin Random House (Riverhead Books), page 192:",
          "text": "This Landauer limit is simply an energy, given in equation form as kTln2 . The quantity k is a constant of nature called Boltzmann's constant. The T is the environmental temperature in Kelvin, and ln2 is the natural logarithm of two.",
          "type": "quote"
        },
        {
          "ref": "2022, Torben Ægidius Mogensen, Programming Language Design and Implementation, Springer, page 309:",
          "text": "Using such gates, we can (at least in theory) build a computer that can compute all bijective functions with no theoretical minimum energy use. There will be some energy use (nothing is free), but it can, in theory, be much smaller than the Landauer limit. Single reversible gates that can operate using less power than the Landauer limit have been constructed, but no complex circuitry has yet been constructed from these gates.",
          "type": "quote"
        }
      ],
      "glosses": [
        "A theoretical lower limit on the energy consumption of a computation, derived from Landauer's principle."
      ],
      "links": [
        [
          "physics",
          "physics"
        ],
        [
          "information theory",
          "information theory"
        ],
        [
          "energy",
          "energy"
        ],
        [
          "computation",
          "computation"
        ],
        [
          "Landauer's principle",
          "Landauer's principle"
        ]
      ],
      "raw_glosses": [
        "(physics, information theory) A theoretical lower limit on the energy consumption of a computation, derived from Landauer's principle."
      ],
      "topics": [
        "computing",
        "engineering",
        "information-theory",
        "mathematics",
        "natural-sciences",
        "physical-sciences",
        "physics",
        "sciences"
      ],
      "wikipedia": [
        "Landauer's principle",
        "Rolf Landauer"
      ]
    }
  ],
  "synonyms": [
    {
      "word": "Landauer's limit"
    }
  ],
  "word": "Landauer limit"
}

Download raw JSONL data for Landauer limit meaning in All languages combined (2.9kB)


This page is a part of the kaikki.org machine-readable All languages combined dictionary. This dictionary is based on structured data extracted on 2024-11-06 from the enwiktionary dump dated 2024-10-02 using wiktextract (fbeafe8 and 7f03c9b). The data shown on this site has been post-processed and various details (e.g., extra categories) removed, some information disambiguated, and additional data merged from other sources. See the raw data download page for the unprocessed wiktextract data.

If you use this data in academic research, please cite Tatu Ylonen: Wiktextract: Wiktionary as Machine-Readable Structured Data, Proceedings of the 13th Conference on Language Resources and Evaluation (LREC), pp. 1317-1325, Marseille, 20-25 June 2022. Linking to the relevant page(s) under https://kaikki.org would also be greatly appreciated.