Matches in DBpedia 2015-10 for { <http://dbpedia.org/resource/Moores_law> ?p ?o }
- Moores_law abstract "Moore's law (/mɔərz.ˈlɔː/) is the observation that the number of transistors in a dense integrated circuit doubles approximately every two years. The observation is named after Gordon E. Moore, the co-founder of Intel and Fairchild Semiconductor, whose 1965 paper described a doubling every year in the number of components per integrated circuit, and projected this rate of growth would continue for at least another decade. In 1975, looking forward to the next decade, he revised the forecast to doubling every two years.His prediction proved accurate for several decades, and the law was used in the semiconductor industry to guide long-term planning and to set targets for research and development.Advancements in digital electronics are strongly linked to Moore's law: quality-adjusted microprocessor prices, memory capacity, sensors and even the number and size of pixels in digital cameras.Digital electronics have contributed to world economic growth in the late twentieth and early twenty-first centuries.Moore's law describes a driving force of technological and social change, productivity, and economic growth.The period is often quoted as 18 months because of Intel executive David House, who predicted that chip performance would double every 18 months (being a combination of the effect of more transistors and their being faster)."Moore's law" should be considered an observation or projection and obviously not a physical or natural law. Although the rate held steady from 1975 until around 2012, the rate was faster during the first decade. In general, it is not logically sound to extrapolate from the historical growth rate into the indefinite future. For example, the 2010 update to the International Technology Roadmap for Semiconductors, predicted that growth would slow around 2013, and Gordon Moore in 2015 foresaw that the rate of progress would reach saturation: "I see Moore’s law dying here in the next decade or so."Intel confirmed in 2015 that the pace of advancement has slowed, starting at the 22 nm node around 2012, and continuing at 14 nm. Brian Krzanich, CEO of Intel, announced that "our cadence today is closer to two and a half years than two.” This is scheduled to hold through the 10 nm node in late 2017. He cited Moore's 1975 revision as a precedent for the current deceleration, which results from technical challenges and is “a natural part of the history of Moore's law.”".
- Moores_law thumbnail Transistor_Count_and_Moores_Law_-_2011.svgwidth=300.
- Moores_law wikiPageExternalLink 2100-1006_3-5647824.html?tag=nefd.lede.
- Moores_law wikiPageExternalLink 921.
- Moores_law wikiPageExternalLink current_cpus.htm.
- Moores_law wikiPageExternalLink compsci.
- Moores_law wikiPageExternalLink index.htm.
- Moores_law wikiPageExternalLink www.itrs.net.
- Moores_law wikiPageExternalLink art0593.html.
- Moores_law wikiPageExternalLink no-technology-has-been-more-disruptive-presentation.
- Moores_law wikiPageExternalLink English.pdf.
- Moores_law wikiPageExternalLink watch?v=EzyJxAP6AQo.
- Moores_law wikiPageID "1364807".
- Moores_law wikiPageID "39418".
- Moores_law wikiPageLength "49".
- Moores_law wikiPageLength "78340".
- Moores_law wikiPageOutDegree "1".
- Moores_law wikiPageOutDegree "178".
- Moores_law wikiPageRedirects Moores_law.
- Moores_law wikiPageRevisionID "344997446".
- Moores_law wikiPageRevisionID "683165827".
- Moores_law wikiPageWikiLink 10_nanometer.
- Moores_law wikiPageWikiLink 14_nanometer.
- Moores_law wikiPageWikiLink 14_nm.
- Moores_law wikiPageWikiLink 22_nanometer.
- Moores_law wikiPageWikiLink 22_nm.
- Moores_law wikiPageWikiLink 3D_XPoint.
- Moores_law wikiPageWikiLink 3D_printing.
- Moores_law wikiPageWikiLink 7_nanometer.
- Moores_law wikiPageWikiLink 7_nm.
- Moores_law wikiPageWikiLink 800_nanometer.
- Moores_law wikiPageWikiLink ASML_Holding.
- Moores_law wikiPageWikiLink Accelerating_change.
- Moores_law wikiPageWikiLink Amdahls_law.
- Moores_law wikiPageWikiLink Area_density.
- Moores_law wikiPageWikiLink Areal_density.
- Moores_law wikiPageWikiLink Atom.
- Moores_law wikiPageWikiLink Back_end_of_line.
- Moores_law wikiPageWikiLink Bekenstein_bound.
- Moores_law wikiPageWikiLink Bell_Labs.
- Moores_law wikiPageWikiLink Bells_Law_of_Computer_Classes.
- Moores_law wikiPageWikiLink Bells_law_of_computer_classes.
- Moores_law wikiPageWikiLink Brian_Krzanich.
- Moores_law wikiPageWikiLink CMOS.
- Moores_law wikiPageWikiLink CPU_cache.
- Moores_law wikiPageWikiLink CPU_power_dissipation.
- Moores_law wikiPageWikiLink California_Institute_of_Technology.
- Moores_law wikiPageWikiLink Caltech.
- Moores_law wikiPageWikiLink Carlson_Curve.
- Moores_law wikiPageWikiLink Carver_Mead.
- Moores_law wikiPageWikiLink Category:1965_introductions.
- Moores_law wikiPageWikiLink Category:Electronic_design.
- Moores_law wikiPageWikiLink Category:Futurology.
- Moores_law wikiPageWikiLink Category:History_of_computing_hardware.
- Moores_law wikiPageWikiLink Category:Rules_of_thumb.
- Moores_law wikiPageWikiLink Chemical-mechanical_planarization.
- Moores_law wikiPageWikiLink Clock_rate.
- Moores_law wikiPageWikiLink Consumer.
- Moores_law wikiPageWikiLink Copper_interconnect.
- Moores_law wikiPageWikiLink DRAM.
- Moores_law wikiPageWikiLink Dennard_scaling.
- Moores_law wikiPageWikiLink Dense_WDM.
- Moores_law wikiPageWikiLink Digital_camera.
- Moores_law wikiPageWikiLink Dot-com_bubble.
- Moores_law wikiPageWikiLink Douglas_Engelbart.
- Moores_law wikiPageWikiLink Dynamic_random-access_memory.
- Moores_law wikiPageWikiLink EUVL.
- Moores_law wikiPageWikiLink Economic_growth.
- Moores_law wikiPageWikiLink Electronics_(magazine).
- Moores_law wikiPageWikiLink Electronics_Magazine.
- Moores_law wikiPageWikiLink Empirical_relationship.
- Moores_law wikiPageWikiLink Engelbarts_Law.
- Moores_law wikiPageWikiLink Engineering.
- Moores_law wikiPageWikiLink Ephemeralization.
- Moores_law wikiPageWikiLink Error_correcting_code.
- Moores_law wikiPageWikiLink Excimer_laser.
- Moores_law wikiPageWikiLink Exponential_growth.
- Moores_law wikiPageWikiLink Extreme_ultraviolet_lithography.
- Moores_law wikiPageWikiLink Fab_(semiconductors).
- Moores_law wikiPageWikiLink Fairchild_Semiconductor.
- Moores_law wikiPageWikiLink File:Intel_Lg_trend.png.
- Moores_law wikiPageWikiLink FinFET.
- Moores_law wikiPageWikiLink Financial_capital.
- Moores_law wikiPageWikiLink Flash_memory.
- Moores_law wikiPageWikiLink Forecasting.
- Moores_law wikiPageWikiLink Forward_error_correction.
- Moores_law wikiPageWikiLink Frank_Wanlass.
- Moores_law wikiPageWikiLink Fremont_Rider.
- Moores_law wikiPageWikiLink Fujio_Masuoka.
- Moores_law wikiPageWikiLink Giant_magnetoresistance.
- Moores_law wikiPageWikiLink Giant_magnetoresistive_effect.
- Moores_law wikiPageWikiLink Gordon_Moore.
- Moores_law wikiPageWikiLink Groschs_law.
- Moores_law wikiPageWikiLink Haitzs_law.
- Moores_law wikiPageWikiLink Hard_disk_drive.
- Moores_law wikiPageWikiLink Ilkka_Tuomi.
- Moores_law wikiPageWikiLink InfoWorld.
- Moores_law wikiPageWikiLink Information_Age.
- Moores_law wikiPageWikiLink Instruction_prefetch.
- Moores_law wikiPageWikiLink Integrated_circuit.