- published: 13 Jul 2014
- views: 931272
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SciShow explains how SciShow exists -- and everything else that's ever been made or used on a computer -- by exploring how transistors work together in circuits to make all computing possible. Like all kinds of science, it has its limitations, but also awesome possibilities.
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Sources:
http://www.mooreslaw.org/
http://www.intel.com/content/dam/www/public/us/en/documents/corporate-information/museum-transistors-to-transformations-brochure.pdf
http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html
http://homepage.cs.uri.edu/book/binary_data/binary_data.htm
https://www.youtube.com/watch?v=qm67wbB5GmI
https://www.youtube.com/watch?v=cNN_tTXABUA
http://www.newscientist.com/article/mg21929301.000-parallel-sparking-many-chips-make-light-work.html#.U1iQ3vmSzmc
http://www.newscientist.com/article/mg20527441.600-spasers-set-to-sum-a-new-dawn-for-optical-computing.html#.U1iREfmSzmc
http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html
http://www.extremetech.com/computing/97469-is-14nm-the-end-of-the-road-for-silicon-lithography
http://www.amasci.com/miscon/speed.html
http://newsoffice.mit.edu/2013/computing-with-light-0704
Moore’s Law is a prediction formulated by Gordon E. Moore in 1965 about transistor density on integrated chips. The law has been remarkably accurate from 1965 to 2013 with transistor density doubling roughly every two years. Since 2013, the trend has changes slightly, with transistor density now doubling every three years, instead of every two years.
- published: 12 Feb 2015
- views: 22526
The doubling of transistor density every 18 months has been an exponential greater than any experienced in the human endeavor. But, as we know, the pace is slowing, creating uncertainty for our industry but also opportunity. Yeric will explore innovation from the transistor to the system level, and he sees the opportunity to not only continue effective transistor scaling, but to create exciting new products along the way.
About the speaker: Greg Yeric began his career at Motorola's Advanced Products Research and Development Laboratories in the area of semiconductor process integration, subsequently working at TestChip Technologies, HPL Technologies, and Synopsys, in the areas of test structures, technology development, and yield analysis. For the last 8 years, Dr. Yeric has been with ARM Holdings in Austin, Texas, where he leads the Future Silicon Technology group within ARM Research. His group's activities include novel technology incubation, design technology co-optimization and predictive technology. He earned PhD in Microelectronics at The University of Texas at Austin in 1993.
- published: 24 Nov 2016
- views: 267
What's beyond silicon? There have been a number of proposals: protein computers, DNA computers, optical computers, quantum computers, molecular computers.
- published: 13 Apr 2012
- views: 333371
Moore's Law has held true for 40 years, but many say it will soon end - Can chip designers avoid the laws of physics? Professor Derek McAuley explains how chips are built.
Domino Addition - Numberphile : http://youtu.be/lNuPy-r1GuQ
EXTRA BITS: http://youtu.be/mq6eWV5C-YE
http://www.facebook.com/computerphile
https://twitter.com/computer_phile
This video was filmed and edited by Sean Riley.
Computer Science at the University of Nottingham: http://bit.ly/nottscomputer
Computerphile is a sister project to Brady Haran's Numberphile. See the full list of Brady's video projects at: http://bit.ly/bradychannels
- published: 16 Apr 2014
- views: 227501
Made for Alford Academy, Aberdeenshire. I researched, planned, wrote, composited, edited, narrated and made music for it in half a day using Motion 5, Final Cut Pro X and Logic Pro X. © Finn Sims Films Ltd 2013 - http://finnsims.com
- published: 02 Dec 2013
- views: 21744
Distinguished Lecture Series in Electrical and Computer Engineering
Sponsoring Department: ECE
http://ece.umich.edu/
Stephen Forrest, Paul G. Goebel Collegiate Professor of Engineering
For 55 years, Moore’s Law of increasing the number of transistors on a chip by approximately twice every two years has led to unprecedented advances in technology never before experienced in human history. The laptop computers we use in everyday life have computational power that only a decade ago would have been considered a supercomputer. Likewise, our smart phones are amazing instruments of rapid communication, extraordinary computational power and utility that people in even the poorest parts of the planet deem essential to their very existence. Google, Facebook and other remarkable applications all owe their success to the advances in materials science that have driven this electronics revolution. And today, the scope of electronics technology is creating the “internet of things,” penetrating beyond sophisticated software applications to controlling and integrating every piece of physical equipment in our environment.
At long last, Moore’s Law is inevitably reaching its end. Nothing continues in an exponential fashion forever, and the same goes for the miniaturization of transistors that has led to this computational explosion. This device shrinkage is ultimately limited by physical constraints such as the size of a single atom. But Moore’s Law is less an expression of simple miniaturization of an electronic device; it is a road map for the productivity of virtually all modern, electronics-based economies. So the question that will be addressed in this talk is: “Are economics more powerful than physics?” Will progress toward increasing computational power, and its myriad of uses overcome the current, apparent limits and, if so, how? And from where will these advances emerge? These are exciting times when we are unsure if we face the creation of a new era, or the end of a period of unprecedented economic and technological growth with nothing there to replace its power going forward.
Speaker Bio: Steve Forrest, Peter A. Franken Distinguished University Professor, is a professor of Electrical Engineering and Computer Science, Physics, and Materials Science and Engineering. He is director of the Optoelectronic Components and Materials Group. He and his group conduct research on photovoltaic cells, organic light emitting diodes, and lasers & optics. His investigations in these areas span decades, and have resulted in five startup companies, 277 issued patents, and key technologies that are pervasive in the marketplace. In addition, he has graduated 54 Ph.D. students.
In 1985, Prof. Forrest joined the Electrical Engineering and Materials Science Departments at USC. In 1992, Prof. Forrest became the James S. McDonnell Distinguished University Professor of Electrical Engineering at Princeton University. He served as director of the National Center for Integrated Photonic Technology, and as Director of Princeton's Center for Photonics and Optoelectronic Materials (POEM), and from 1997-2001, he chaired Princeton’s Electrical Engineering Department. In 2006, he rejoined the University of Michigan as Vice President for Research, and returned to research full time in 2013.
Prof. Forrest is a Fellow of the APS, IEEE, OSA and, most recently, NAI. He is a member of the National Academy of Engineering. He received numerous distinctions throughout his career, including the IEEE/LEOS Distinguished Lecturer Award, the IPO National Distinguished Inventor Award (co-recipient), the Thomas Alva Edison Award, the MRS Medal, the IEEE/LEOS William Streifer Scientific Achievement Award, the Jan Rajchman Prize from the Society for Information Display, and the 2007 IEEE Daniel Nobel Award. Prof. Forrest has been honored by Princeton University establishing the Stephen R. Forrest Endowed Faculty Chair in Electrical Engineering in 2012.
Prof. Forrest has authored ~554 papers in refereed journals, and has 280 patents, with an h-index of 124 (Thomson Reuters) / 136 (Google Scholar). In May, 2015, Prof. Forrest was named the University of Michigan Distinguished University Innovator.
He is co-founder or founding participant in several companies, including Sensors Unlimited, Epitaxx, Inc., NanoFlex Power Corp. (OTC: OPVS), Universal Display Corp. (NASDAQ: OLED) and Apogee Photonics, Inc., and is on the Board of Directors of Applied Materials and PD-LD, Inc. He has also served from 2009-2012 as Chairman of the Board of Ann Arbor SPARK, the regional economic development organization, and serves on the Board of Governors of the Technion – Israel Institute of Technology. He is Chairman of the Board of the University Musical Society.
For more lectures on demand, please visit the MconneX website:
http://engin.umich.edu/mconnex
- published: 11 Dec 2015
- views: 5566
For 50 years, Moore's Law has set the pace of computer innovation. Now it's breaking down. Will a leap forward in technology save Moore's Law or is it forever broken?
Super special thanks to our Patreon Patrons:
Colin Young, Joseph Hegeman, Andrew Arrabaca, Dan Goodes, Jeff Brice, Matt Altieri, Cristina Quiroz, Torstein, Jeremy Nauta, Chris Hicks, Lars Hermann, Max, Yoselin Gallegos, and Ashley Beraneck.
►Support us on Patreon: https://www.patreon.com/thegoodstuff
►Subscribe: http://youtube.com/thegoodstuff
►Follow us on Twitter: http://www.twitter.com/goodstuffshow
►Follow us on instagram: goodstuffshow
►Like us on facebook: http://www.facebook.com/thegoodstuffshow
►Sign up for our mailing list: http://eepurl.com/bnSOcH
Music by
Todd Umhoefer (Old Earth)
http://oldearthcontact.bandcamp.com/
Oscillator Bug
http://www.facebook.com/oscillatorbug
Chris Zabriski
http://www.chriszabriski.com
Kevin Macleod
http://www.incompetech.com
Jason Shaw
http://www.audionautix.com
REFERENCES:
https://en.wikipedia.org/wiki/Moore%27s_law
https://en.wikipedia.org/wiki/Self-fulfilling_prophecy
https://www.technologyreview.com/s/601441/moores-law-is-dead-now-what/
http://spectrum.ieee.org/semiconductors/devices/leading-chipmakers-eye-euv-lithography-to-save-moores-law
https://www.quora.com/Is-Moores-law-a-self-fulfilling-prophecy
http://www.nature.com/news/the-chips-are-down-for-moore-s-law-1.19338
https://en.wikipedia.org/wiki/Gordon_Moore
https://en.wikipedia.org/wiki/Traitorous_eight
https://en.wikipedia.org/wiki/Silicon_Valley#The_silicon_transistor
http://journals.uic.edu/ojs/index.php/fm/article/view/1000/921
http://www.siliconvalleywatcher.com/mt/archives/2011/05/how_the_traitor.php
https://en.wikipedia.org/wiki/Transistor_count#Microprocessors
http://www.computerhistory.org/timeline/1965/
http://arstechnica.com/information-technology/2016/02/moores-law-really-is-dead-this-time/
http://www.itworld.com/article/2949368/hardware/the-impending-end-of-moores-law-is-not-intels-biggest-problem.html
http://www.intel.com/content/www/us/en/silicon-innovations/moores-law-technology.html
http://www.personal.psu.edu/lxb5198/Assign_6.html
- published: 16 Dec 2016
- views: 5113
Science gurus Adam Savage and Jamie Hyneman race through speed and time to show the wonders of Moore's Law, which is at the core of incredible advances in computer technology.Subscribe now to Intel on YouTube: http://bit.ly/1BZDtpf
About Intel:
Intel, the world leader in silicon innovation, develops technologies, products and initiatives to continually advance how people work and live. Founded in 1968 to build semiconductor memory products, Intel introduced the world's first microprocessor in 1971. This decade, our mission is to create and extend computing technology to connect and enrich the lives of every person on earth.
Connect with Intel:
Visit Intel WEBSITE: http://intel.ly/1WXmVMe
Like Intel on FACEBOOK: http://intel.ly/1wrbYGi
Follow Intel on TWITTER: http://intel.ly/1wrbXC8
Follow Intel on INSTAGRAM: http://bit.ly/1OJuPTg
Visit iQ: http://intel.ly/1wrbXCd
Moore's Law Got Me! | Intel
https://www.youtube.com/user/channelintel
- published: 15 Apr 2015
- views: 48616
Moore's law
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.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Moore's_law
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Moore
Moore may refer to:
People
Places
Science
Programming
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Moore
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Electrical engineering
Electrical engineering is a field of engineering that generally deals with the study and application of electricity, electronics, and electromagnetism. This field first became an identifiable occupation in the latter half of the 19th century after commercialization of the electric telegraph, the telephone, and electric power distribution and use. Subsequently, broadcasting and recording media made electronics part of daily life. The invention of the transistor, and later the integrated circuit, brought down the cost of electronics to the point they can be used in almost any household object.
Electrical engineering has now subdivided into a wide range of subfields including electronics, digital computers, power engineering, telecommunications, control systems, radio-frequency engineering, signal processing, instrumentation, and microelectronics. The subject of electronic engineering is often treated as its own subfield but it intersects with all the other subfields, including the power electronics of power engineering.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Electrical_engineering
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
The End
The End may refer to:
Arts, entertainment, and media
Film
Games
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/The_End
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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9:19Moore's Law and The Secret World Of Ones And Zeroes
Moore's Law and The Secret World Of Ones And ZeroesMoore's Law and The Secret World Of Ones And Zeroes
SciShow explains how SciShow exists -- and everything else that's ever been made or used on a computer -- by exploring how transistors work together in circuits to make all computing possible. Like all kinds of science, it has its limitations, but also awesome possibilities. ---------- Like SciShow? Want to help support us, and also get things to put on your walls, cover your torso and hold your liquids? Check out our awesome products over at DFTBA Records: http://dftba.com/artist/52/SciShow Or help support us by subscribing to our page on Subbable: https://subbable.com/scishow ---------- Looking for SciShow elsewhere on the internet? Facebook: http://www.facebook.com/scishow Twitter: http://www.twitter.com/scishow Tumblr: http://scishow.tumblr.com Thanks Tank Tumblr: http://thankstank.tumblr.com Sources: http://www.mooreslaw.org/ http://www.intel.com/content/dam/www/public/us/en/documents/corporate-information/museum-transistors-to-transformations-brochure.pdf http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html http://homepage.cs.uri.edu/book/binary_data/binary_data.htm https://www.youtube.com/watch?v=qm67wbB5GmI https://www.youtube.com/watch?v=cNN_tTXABUA http://www.newscientist.com/article/mg21929301.000-parallel-sparking-many-chips-make-light-work.html#.U1iQ3vmSzmc http://www.newscientist.com/article/mg20527441.600-spasers-set-to-sum-a-new-dawn-for-optical-computing.html#.U1iREfmSzmc http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html http://www.extremetech.com/computing/97469-is-14nm-the-end-of-the-road-for-silicon-lithography http://www.amasci.com/miscon/speed.html http://newsoffice.mit.edu/2013/computing-with-light-0704 -
3:00Moore's Law
Moore's LawMoore's Law
Moore’s Law is a prediction formulated by Gordon E. Moore in 1965 about transistor density on integrated chips. The law has been remarkably accurate from 1965 to 2013 with transistor density doubling roughly every two years. Since 2013, the trend has changes slightly, with transistor density now doubling every three years, instead of every two years. -
20:32Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016
Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016
The doubling of transistor density every 18 months has been an exponential greater than any experienced in the human endeavor. But, as we know, the pace is slowing, creating uncertainty for our industry but also opportunity. Yeric will explore innovation from the transistor to the system level, and he sees the opportunity to not only continue effective transistor scaling, but to create exciting new products along the way. About the speaker: Greg Yeric began his career at Motorola's Advanced Products Research and Development Laboratories in the area of semiconductor process integration, subsequently working at TestChip Technologies, HPL Technologies, and Synopsys, in the areas of test structures, technology development, and yield analysis. For the last 8 years, Dr. Yeric has been with ARM Holdings in Austin, Texas, where he leads the Future Silicon Technology group within ARM Research. His group's activities include novel technology incubation, design technology co-optimization and predictive technology. He earned PhD in Microelectronics at The University of Texas at Austin in 1993. -
6:06Michio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon Era
Michio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon EraMichio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon Era
What's beyond silicon? There have been a number of proposals: protein computers, DNA computers, optical computers, quantum computers, molecular computers. -
9:39Is it the End for Moore's Law? - Computerphile
Is it the End for Moore's Law? - ComputerphileIs it the End for Moore's Law? - Computerphile
Moore's Law has held true for 40 years, but many say it will soon end - Can chip designers avoid the laws of physics? Professor Derek McAuley explains how chips are built. Domino Addition - Numberphile : http://youtu.be/lNuPy-r1GuQ EXTRA BITS: http://youtu.be/mq6eWV5C-YE http://www.facebook.com/computerphile https://twitter.com/computer_phile This video was filmed and edited by Sean Riley. Computer Science at the University of Nottingham: http://bit.ly/nottscomputer Computerphile is a sister project to Brady Haran's Numberphile. See the full list of Brady's video projects at: http://bit.ly/bradychannels -
1:25What is Moore's Law?
What is Moore's Law?What is Moore's Law?
Made for Alford Academy, Aberdeenshire. I researched, planned, wrote, composited, edited, narrated and made music for it in half a day using Motion 5, Final Cut Pro X and Logic Pro X. © Finn Sims Films Ltd 2013 - http://finnsims.com -
8:49Transistors & The End of Moore's Law
Transistors & The End of Moore's Law -
32:51Stephen Forrest | The End of Moore's Law
Stephen Forrest | The End of Moore's LawStephen Forrest | The End of Moore's Law
Distinguished Lecture Series in Electrical and Computer Engineering Sponsoring Department: ECE http://ece.umich.edu/ Stephen Forrest, Paul G. Goebel Collegiate Professor of Engineering For 55 years, Moore’s Law of increasing the number of transistors on a chip by approximately twice every two years has led to unprecedented advances in technology never before experienced in human history. The laptop computers we use in everyday life have computational power that only a decade ago would have been considered a supercomputer. Likewise, our smart phones are amazing instruments of rapid communication, extraordinary computational power and utility that people in even the poorest parts of the planet deem essential to their very existence. Google, Facebook and other remarkable applications all owe their success to the advances in materials science that have driven this electronics revolution. And today, the scope of electronics technology is creating the “internet of things,” penetrating beyond sophisticated software applications to controlling and integrating every piece of physical equipment in our environment. At long last, Moore’s Law is inevitably reaching its end. Nothing continues in an exponential fashion forever, and the same goes for the miniaturization of transistors that has led to this computational explosion. This device shrinkage is ultimately limited by physical constraints such as the size of a single atom. But Moore’s Law is less an expression of simple miniaturization of an electronic device; it is a road map for the productivity of virtually all modern, electronics-based economies. So the question that will be addressed in this talk is: “Are economics more powerful than physics?” Will progress toward increasing computational power, and its myriad of uses overcome the current, apparent limits and, if so, how? And from where will these advances emerge? These are exciting times when we are unsure if we face the creation of a new era, or the end of a period of unprecedented economic and technological growth with nothing there to replace its power going forward. Speaker Bio: Steve Forrest, Peter A. Franken Distinguished University Professor, is a professor of Electrical Engineering and Computer Science, Physics, and Materials Science and Engineering. He is director of the Optoelectronic Components and Materials Group. He and his group conduct research on photovoltaic cells, organic light emitting diodes, and lasers & optics. His investigations in these areas span decades, and have resulted in five startup companies, 277 issued patents, and key technologies that are pervasive in the marketplace. In addition, he has graduated 54 Ph.D. students. In 1985, Prof. Forrest joined the Electrical Engineering and Materials Science Departments at USC. In 1992, Prof. Forrest became the James S. McDonnell Distinguished University Professor of Electrical Engineering at Princeton University. He served as director of the National Center for Integrated Photonic Technology, and as Director of Princeton's Center for Photonics and Optoelectronic Materials (POEM), and from 1997-2001, he chaired Princeton’s Electrical Engineering Department. In 2006, he rejoined the University of Michigan as Vice President for Research, and returned to research full time in 2013. Prof. Forrest is a Fellow of the APS, IEEE, OSA and, most recently, NAI. He is a member of the National Academy of Engineering. He received numerous distinctions throughout his career, including the IEEE/LEOS Distinguished Lecturer Award, the IPO National Distinguished Inventor Award (co-recipient), the Thomas Alva Edison Award, the MRS Medal, the IEEE/LEOS William Streifer Scientific Achievement Award, the Jan Rajchman Prize from the Society for Information Display, and the 2007 IEEE Daniel Nobel Award. Prof. Forrest has been honored by Princeton University establishing the Stephen R. Forrest Endowed Faculty Chair in Electrical Engineering in 2012. Prof. Forrest has authored ~554 papers in refereed journals, and has 280 patents, with an h-index of 124 (Thomson Reuters) / 136 (Google Scholar). In May, 2015, Prof. Forrest was named the University of Michigan Distinguished University Innovator. He is co-founder or founding participant in several companies, including Sensors Unlimited, Epitaxx, Inc., NanoFlex Power Corp. (OTC: OPVS), Universal Display Corp. (NASDAQ: OLED) and Apogee Photonics, Inc., and is on the Board of Directors of Applied Materials and PD-LD, Inc. He has also served from 2009-2012 as Chairman of the Board of Ann Arbor SPARK, the regional economic development organization, and serves on the Board of Governors of the Technion – Israel Institute of Technology. He is Chairman of the Board of the University Musical Society. For more lectures on demand, please visit the MconneX website: http://engin.umich.edu/mconnex -
7:52Is Moore's Law Broken?
Is Moore's Law Broken?Is Moore's Law Broken?
For 50 years, Moore's Law has set the pace of computer innovation. Now it's breaking down. Will a leap forward in technology save Moore's Law or is it forever broken? Super special thanks to our Patreon Patrons: Colin Young, Joseph Hegeman, Andrew Arrabaca, Dan Goodes, Jeff Brice, Matt Altieri, Cristina Quiroz, Torstein, Jeremy Nauta, Chris Hicks, Lars Hermann, Max, Yoselin Gallegos, and Ashley Beraneck. ►Support us on Patreon: https://www.patreon.com/thegoodstuff ►Subscribe: http://youtube.com/thegoodstuff ►Follow us on Twitter: http://www.twitter.com/goodstuffshow ►Follow us on instagram: goodstuffshow ►Like us on facebook: http://www.facebook.com/thegoodstuffshow ►Sign up for our mailing list: http://eepurl.com/bnSOcH Music by Todd Umhoefer (Old Earth) http://oldearthcontact.bandcamp.com/ Oscillator Bug http://www.facebook.com/oscillatorbug Chris Zabriski http://www.chriszabriski.com Kevin Macleod http://www.incompetech.com Jason Shaw http://www.audionautix.com REFERENCES: https://en.wikipedia.org/wiki/Moore%27s_law https://en.wikipedia.org/wiki/Self-fulfilling_prophecy https://www.technologyreview.com/s/601441/moores-law-is-dead-now-what/ http://spectrum.ieee.org/semiconductors/devices/leading-chipmakers-eye-euv-lithography-to-save-moores-law https://www.quora.com/Is-Moores-law-a-self-fulfilling-prophecy http://www.nature.com/news/the-chips-are-down-for-moore-s-law-1.19338 https://en.wikipedia.org/wiki/Gordon_Moore https://en.wikipedia.org/wiki/Traitorous_eight https://en.wikipedia.org/wiki/Silicon_Valley#The_silicon_transistor http://journals.uic.edu/ojs/index.php/fm/article/view/1000/921 http://www.siliconvalleywatcher.com/mt/archives/2011/05/how_the_traitor.php https://en.wikipedia.org/wiki/Transistor_count#Microprocessors http://www.computerhistory.org/timeline/1965/ http://arstechnica.com/information-technology/2016/02/moores-law-really-is-dead-this-time/ http://www.itworld.com/article/2949368/hardware/the-impending-end-of-moores-law-is-not-intels-biggest-problem.html http://www.intel.com/content/www/us/en/silicon-innovations/moores-law-technology.html http://www.personal.psu.edu/lxb5198/Assign_6.html -
1:34Moore's Law Got Me! | Intel
Moore's Law Got Me! | IntelMoore's Law Got Me! | Intel
Science gurus Adam Savage and Jamie Hyneman race through speed and time to show the wonders of Moore's Law, which is at the core of incredible advances in computer technology.Subscribe now to Intel on YouTube: http://bit.ly/1BZDtpf About Intel: Intel, the world leader in silicon innovation, develops technologies, products and initiatives to continually advance how people work and live. Founded in 1968 to build semiconductor memory products, Intel introduced the world's first microprocessor in 1971. This decade, our mission is to create and extend computing technology to connect and enrich the lives of every person on earth. Connect with Intel: Visit Intel WEBSITE: http://intel.ly/1WXmVMe Like Intel on FACEBOOK: http://intel.ly/1wrbYGi Follow Intel on TWITTER: http://intel.ly/1wrbXC8 Follow Intel on INSTAGRAM: http://bit.ly/1OJuPTg Visit iQ: http://intel.ly/1wrbXCd Moore's Law Got Me! | Intel https://www.youtube.com/user/channelintel
-
Moore's Law and The Secret World Of Ones And Zeroes
SciShow explains how SciShow exists -- and everything else that's ever been made or used on a computer -- by exploring how transistors work together in circuits to make all computing possible. Like all kinds of science, it has its limitations, but also awesome possibilities. ---------- Like SciShow? Want to help support us, and also get things to put on your walls, cover your torso and hold your liquids? Check out our awesome products over at DFTBA Records: http://dftba.com/artist/52/SciShow Or help support us by subscribing to our page on Subbable: https://subbable.com/scishow ---------- Looking for SciShow elsewhere on the internet? Facebook: http://www.facebook.com/scishow Twitter: http://www.twitter.com/scishow Tumblr: http://scishow.tumblr.com Thanks Tank Tumblr: http://thankstank.t...
published: 13 Jul 2014 -
Moore's Law
Moore’s Law is a prediction formulated by Gordon E. Moore in 1965 about transistor density on integrated chips. The law has been remarkably accurate from 1965 to 2013 with transistor density doubling roughly every two years. Since 2013, the trend has changes slightly, with transistor density now doubling every three years, instead of every two years.
published: 12 Feb 2015 -
Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016
The doubling of transistor density every 18 months has been an exponential greater than any experienced in the human endeavor. But, as we know, the pace is slowing, creating uncertainty for our industry but also opportunity. Yeric will explore innovation from the transistor to the system level, and he sees the opportunity to not only continue effective transistor scaling, but to create exciting new products along the way. About the speaker: Greg Yeric began his career at Motorola's Advanced Products Research and Development Laboratories in the area of semiconductor process integration, subsequently working at TestChip Technologies, HPL Technologies, and Synopsys, in the areas of test structures, technology development, and yield analysis. For the last 8 years, Dr. Yeric has been with ARM ...
published: 24 Nov 2016 -
Michio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon Era
What's beyond silicon? There have been a number of proposals: protein computers, DNA computers, optical computers, quantum computers, molecular computers.
published: 13 Apr 2012 -
Is it the End for Moore's Law? - Computerphile
Moore's Law has held true for 40 years, but many say it will soon end - Can chip designers avoid the laws of physics? Professor Derek McAuley explains how chips are built. Domino Addition - Numberphile : http://youtu.be/lNuPy-r1GuQ EXTRA BITS: http://youtu.be/mq6eWV5C-YE http://www.facebook.com/computerphile https://twitter.com/computer_phile This video was filmed and edited by Sean Riley. Computer Science at the University of Nottingham: http://bit.ly/nottscomputer Computerphile is a sister project to Brady Haran's Numberphile. See the full list of Brady's video projects at: http://bit.ly/bradychannels
published: 16 Apr 2014 -
What is Moore's Law?
Made for Alford Academy, Aberdeenshire. I researched, planned, wrote, composited, edited, narrated and made music for it in half a day using Motion 5, Final Cut Pro X and Logic Pro X. © Finn Sims Films Ltd 2013 - http://finnsims.com
published: 02 Dec 2013 -
Transistors & The End of Moore's Law
How does a transistor work? And when will Moore's Law break down? Supported by TechNYou - check out their great series on the scientific method: http://bit.ly/19bBX5G Thanks to A/Prof Morello and UNSW. Find out more here: http://bit.ly/17wZ7lt
published: 27 May 2013 -
Stephen Forrest | The End of Moore's Law
Distinguished Lecture Series in Electrical and Computer Engineering Sponsoring Department: ECE http://ece.umich.edu/ Stephen Forrest, Paul G. Goebel Collegiate Professor of Engineering For 55 years, Moore’s Law of increasing the number of transistors on a chip by approximately twice every two years has led to unprecedented advances in technology never before experienced in human history. The laptop computers we use in everyday life have computational power that only a decade ago would have been considered a supercomputer. Likewise, our smart phones are amazing instruments of rapid communication, extraordinary computational power and utility that people in even the poorest parts of the planet deem essential to their very existence. Google, Facebook and other remarkable applications all o...
published: 11 Dec 2015 -
Is Moore's Law Broken?
For 50 years, Moore's Law has set the pace of computer innovation. Now it's breaking down. Will a leap forward in technology save Moore's Law or is it forever broken? Super special thanks to our Patreon Patrons: Colin Young, Joseph Hegeman, Andrew Arrabaca, Dan Goodes, Jeff Brice, Matt Altieri, Cristina Quiroz, Torstein, Jeremy Nauta, Chris Hicks, Lars Hermann, Max, Yoselin Gallegos, and Ashley Beraneck. ►Support us on Patreon: https://www.patreon.com/thegoodstuff ►Subscribe: http://youtube.com/thegoodstuff ►Follow us on Twitter: http://www.twitter.com/goodstuffshow ►Follow us on instagram: goodstuffshow ►Like us on facebook: http://www.facebook.com/thegoodstuffshow ►Sign up for our mailing list: http://eepurl.com/bnSOcH Music by Todd Umhoefer (Old Earth) http://oldearthcontact.bandca...
published: 16 Dec 2016 -
Moore's Law Got Me! | Intel
Science gurus Adam Savage and Jamie Hyneman race through speed and time to show the wonders of Moore's Law, which is at the core of incredible advances in computer technology.Subscribe now to Intel on YouTube: http://bit.ly/1BZDtpf About Intel: Intel, the world leader in silicon innovation, develops technologies, products and initiatives to continually advance how people work and live. Founded in 1968 to build semiconductor memory products, Intel introduced the world's first microprocessor in 1971. This decade, our mission is to create and extend computing technology to connect and enrich the lives of every person on earth. Connect with Intel: Visit Intel WEBSITE: http://intel.ly/1WXmVMe Like Intel on FACEBOOK: http://intel.ly/1wrbYGi Follow Intel on TWITTER: http://intel.ly/1wrbXC8 F...
published: 15 Apr 2015
Moore's Law and The Secret World Of Ones And Zeroes
- Order: Reorder
- Duration: 9:19
- Updated: 13 Jul 2014
- views: 931272
SciShow explains how SciShow exists -- and everything else that's ever been made or used on a computer -- by exploring how transistors work together in circuits...
SciShow explains how SciShow exists -- and everything else that's ever been made or used on a computer -- by exploring how transistors work together in circuits to make all computing possible. Like all kinds of science, it has its limitations, but also awesome possibilities.
----------
Like SciShow? Want to help support us, and also get things to put on your walls, cover your torso and hold your liquids? Check out our awesome products over at DFTBA Records: http://dftba.com/artist/52/SciShow
Or help support us by subscribing to our page on Subbable: https://subbable.com/scishow
----------
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Twitter: http://www.twitter.com/scishow
Tumblr: http://scishow.tumblr.com
Thanks Tank Tumblr: http://thankstank.tumblr.com
Sources:
http://www.mooreslaw.org/
http://www.intel.com/content/dam/www/public/us/en/documents/corporate-information/museum-transistors-to-transformations-brochure.pdf
http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html
http://homepage.cs.uri.edu/book/binary_data/binary_data.htm
https://www.youtube.com/watch?v=qm67wbB5GmI
https://www.youtube.com/watch?v=cNN_tTXABUA
http://www.newscientist.com/article/mg21929301.000-parallel-sparking-many-chips-make-light-work.html#.U1iQ3vmSzmc
http://www.newscientist.com/article/mg20527441.600-spasers-set-to-sum-a-new-dawn-for-optical-computing.html#.U1iREfmSzmc
http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html
http://www.extremetech.com/computing/97469-is-14nm-the-end-of-the-road-for-silicon-lithography
http://www.amasci.com/miscon/speed.html
http://newsoffice.mit.edu/2013/computing-with-light-0704
https://wn.com/Moore's_Law_And_The_Secret_World_Of_Ones_And_Zeroes
SciShow explains how SciShow exists -- and everything else that's ever been made or used on a computer -- by exploring how transistors work together in circuits to make all computing possible. Like all kinds of science, it has its limitations, but also awesome possibilities.
----------
Like SciShow? Want to help support us, and also get things to put on your walls, cover your torso and hold your liquids? Check out our awesome products over at DFTBA Records: http://dftba.com/artist/52/SciShow
Or help support us by subscribing to our page on Subbable: https://subbable.com/scishow
----------
Looking for SciShow elsewhere on the internet?
Facebook: http://www.facebook.com/scishow
Twitter: http://www.twitter.com/scishow
Tumblr: http://scishow.tumblr.com
Thanks Tank Tumblr: http://thankstank.tumblr.com
Sources:
http://www.mooreslaw.org/
http://www.intel.com/content/dam/www/public/us/en/documents/corporate-information/museum-transistors-to-transformations-brochure.pdf
http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html
http://homepage.cs.uri.edu/book/binary_data/binary_data.htm
https://www.youtube.com/watch?v=qm67wbB5GmI
https://www.youtube.com/watch?v=cNN_tTXABUA
http://www.newscientist.com/article/mg21929301.000-parallel-sparking-many-chips-make-light-work.html#.U1iQ3vmSzmc
http://www.newscientist.com/article/mg20527441.600-spasers-set-to-sum-a-new-dawn-for-optical-computing.html#.U1iREfmSzmc
http://www.tldp.org/HOWTO/Unix-and-Internet-Fundamentals-HOWTO/core-formats.html
http://www.extremetech.com/computing/97469-is-14nm-the-end-of-the-road-for-silicon-lithography
http://www.amasci.com/miscon/speed.html
http://newsoffice.mit.edu/2013/computing-with-light-0704
- published: 13 Jul 2014
- views: 931272
Moore's Law
- Order: Reorder
- Duration: 3:00
- Updated: 12 Feb 2015
- views: 22526
Moore’s Law is a prediction formulated by Gordon E. Moore in 1965 about transistor density on integrated chips. The law has been remarkably accurate from 1965 t...
Moore’s Law is a prediction formulated by Gordon E. Moore in 1965 about transistor density on integrated chips. The law has been remarkably accurate from 1965 to 2013 with transistor density doubling roughly every two years. Since 2013, the trend has changes slightly, with transistor density now doubling every three years, instead of every two years.
https://wn.com/Moore's_Law
Moore’s Law is a prediction formulated by Gordon E. Moore in 1965 about transistor density on integrated chips. The law has been remarkably accurate from 1965 to 2013 with transistor density doubling roughly every two years. Since 2013, the trend has changes slightly, with transistor density now doubling every three years, instead of every two years.
- published: 12 Feb 2015
- views: 22526
Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016
- Order: Reorder
- Duration: 20:32
- Updated: 24 Nov 2016
- views: 267
The doubling of transistor density every 18 months has been an exponential greater than any experienced in the human endeavor. But, as we know, the pace is slow...
The doubling of transistor density every 18 months has been an exponential greater than any experienced in the human endeavor. But, as we know, the pace is slowing, creating uncertainty for our industry but also opportunity. Yeric will explore innovation from the transistor to the system level, and he sees the opportunity to not only continue effective transistor scaling, but to create exciting new products along the way.
About the speaker: Greg Yeric began his career at Motorola's Advanced Products Research and Development Laboratories in the area of semiconductor process integration, subsequently working at TestChip Technologies, HPL Technologies, and Synopsys, in the areas of test structures, technology development, and yield analysis. For the last 8 years, Dr. Yeric has been with ARM Holdings in Austin, Texas, where he leads the Future Silicon Technology group within ARM Research. His group's activities include novel technology incubation, design technology co-optimization and predictive technology. He earned PhD in Microelectronics at The University of Texas at Austin in 1993.
https://wn.com/Moore's_Law_Where_Are_We_And_Which_Way_Are_We_Going_By_Greg_Yeric_|_Arm_Techcon_2016
The doubling of transistor density every 18 months has been an exponential greater than any experienced in the human endeavor. But, as we know, the pace is slowing, creating uncertainty for our industry but also opportunity. Yeric will explore innovation from the transistor to the system level, and he sees the opportunity to not only continue effective transistor scaling, but to create exciting new products along the way.
About the speaker: Greg Yeric began his career at Motorola's Advanced Products Research and Development Laboratories in the area of semiconductor process integration, subsequently working at TestChip Technologies, HPL Technologies, and Synopsys, in the areas of test structures, technology development, and yield analysis. For the last 8 years, Dr. Yeric has been with ARM Holdings in Austin, Texas, where he leads the Future Silicon Technology group within ARM Research. His group's activities include novel technology incubation, design technology co-optimization and predictive technology. He earned PhD in Microelectronics at The University of Texas at Austin in 1993.
- published: 24 Nov 2016
- views: 267
Michio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon Era
- Order: Reorder
- Duration: 6:06
- Updated: 13 Apr 2012
- views: 333371
What's beyond silicon? There have been a number of proposals: protein computers, DNA computers, optical computers, quantum computers, molecular computers.
What's beyond silicon? There have been a number of proposals: protein computers, DNA computers, optical computers, quantum computers, molecular computers.
https://wn.com/Michio_Kaku_Tweaking_Moore's_Law_And_The_Computers_Of_The_Post_Silicon_Era
What's beyond silicon? There have been a number of proposals: protein computers, DNA computers, optical computers, quantum computers, molecular computers.
- published: 13 Apr 2012
- views: 333371
Is it the End for Moore's Law? - Computerphile
- Order: Reorder
- Duration: 9:39
- Updated: 16 Apr 2014
- views: 227501
Moore's Law has held true for 40 years, but many say it will soon end - Can chip designers avoid the laws of physics? Professor Derek McAuley explains how chips...
Moore's Law has held true for 40 years, but many say it will soon end - Can chip designers avoid the laws of physics? Professor Derek McAuley explains how chips are built.
Domino Addition - Numberphile : http://youtu.be/lNuPy-r1GuQ
EXTRA BITS: http://youtu.be/mq6eWV5C-YE
http://www.facebook.com/computerphile
https://twitter.com/computer_phile
This video was filmed and edited by Sean Riley.
Computer Science at the University of Nottingham: http://bit.ly/nottscomputer
Computerphile is a sister project to Brady Haran's Numberphile. See the full list of Brady's video projects at: http://bit.ly/bradychannels
https://wn.com/Is_It_The_End_For_Moore's_Law_Computerphile
Moore's Law has held true for 40 years, but many say it will soon end - Can chip designers avoid the laws of physics? Professor Derek McAuley explains how chips are built.
Domino Addition - Numberphile : http://youtu.be/lNuPy-r1GuQ
EXTRA BITS: http://youtu.be/mq6eWV5C-YE
http://www.facebook.com/computerphile
https://twitter.com/computer_phile
This video was filmed and edited by Sean Riley.
Computer Science at the University of Nottingham: http://bit.ly/nottscomputer
Computerphile is a sister project to Brady Haran's Numberphile. See the full list of Brady's video projects at: http://bit.ly/bradychannels
- published: 16 Apr 2014
- views: 227501
What is Moore's Law?
- Order: Reorder
- Duration: 1:25
- Updated: 02 Dec 2013
- views: 21744
Made for Alford Academy, Aberdeenshire. I researched, planned, wrote, composited, edited, narrated and made music for it in half a day using Motion 5, Final Cut...
Made for Alford Academy, Aberdeenshire. I researched, planned, wrote, composited, edited, narrated and made music for it in half a day using Motion 5, Final Cut Pro X and Logic Pro X. © Finn Sims Films Ltd 2013 - http://finnsims.com
https://wn.com/What_Is_Moore's_Law
Made for Alford Academy, Aberdeenshire. I researched, planned, wrote, composited, edited, narrated and made music for it in half a day using Motion 5, Final Cut Pro X and Logic Pro X. © Finn Sims Films Ltd 2013 - http://finnsims.com
- published: 02 Dec 2013
- views: 21744
Transistors & The End of Moore's Law
- Order: Reorder
- Duration: 8:49
- Updated: 27 May 2013
- views: 806348
How does a transistor work? And when will Moore's Law break down?
Supported by TechNYou - check out their great series on the scientific method: http://bit.ly/1...
How does a transistor work? And when will Moore's Law break down?
Supported by TechNYou - check out their great series on the scientific method: http://bit.ly/19bBX5G
Thanks to A/Prof Morello and UNSW. Find out more here: http://bit.ly/17wZ7lt
https://wn.com/Transistors_The_End_Of_Moore's_Law
Stephen Forrest | The End of Moore's Law
- Order: Reorder
- Duration: 32:51
- Updated: 11 Dec 2015
- views: 5566
Distinguished Lecture Series in Electrical and Computer Engineering
Sponsoring Department: ECE
http://ece.umich.edu/
Stephen Forrest, Paul G. Goebel Collegiat...
Distinguished Lecture Series in Electrical and Computer Engineering
Sponsoring Department: ECE
http://ece.umich.edu/
Stephen Forrest, Paul G. Goebel Collegiate Professor of Engineering
For 55 years, Moore’s Law of increasing the number of transistors on a chip by approximately twice every two years has led to unprecedented advances in technology never before experienced in human history. The laptop computers we use in everyday life have computational power that only a decade ago would have been considered a supercomputer. Likewise, our smart phones are amazing instruments of rapid communication, extraordinary computational power and utility that people in even the poorest parts of the planet deem essential to their very existence. Google, Facebook and other remarkable applications all owe their success to the advances in materials science that have driven this electronics revolution. And today, the scope of electronics technology is creating the “internet of things,” penetrating beyond sophisticated software applications to controlling and integrating every piece of physical equipment in our environment.
At long last, Moore’s Law is inevitably reaching its end. Nothing continues in an exponential fashion forever, and the same goes for the miniaturization of transistors that has led to this computational explosion. This device shrinkage is ultimately limited by physical constraints such as the size of a single atom. But Moore’s Law is less an expression of simple miniaturization of an electronic device; it is a road map for the productivity of virtually all modern, electronics-based economies. So the question that will be addressed in this talk is: “Are economics more powerful than physics?” Will progress toward increasing computational power, and its myriad of uses overcome the current, apparent limits and, if so, how? And from where will these advances emerge? These are exciting times when we are unsure if we face the creation of a new era, or the end of a period of unprecedented economic and technological growth with nothing there to replace its power going forward.
Speaker Bio: Steve Forrest, Peter A. Franken Distinguished University Professor, is a professor of Electrical Engineering and Computer Science, Physics, and Materials Science and Engineering. He is director of the Optoelectronic Components and Materials Group. He and his group conduct research on photovoltaic cells, organic light emitting diodes, and lasers & optics. His investigations in these areas span decades, and have resulted in five startup companies, 277 issued patents, and key technologies that are pervasive in the marketplace. In addition, he has graduated 54 Ph.D. students.
In 1985, Prof. Forrest joined the Electrical Engineering and Materials Science Departments at USC. In 1992, Prof. Forrest became the James S. McDonnell Distinguished University Professor of Electrical Engineering at Princeton University. He served as director of the National Center for Integrated Photonic Technology, and as Director of Princeton's Center for Photonics and Optoelectronic Materials (POEM), and from 1997-2001, he chaired Princeton’s Electrical Engineering Department. In 2006, he rejoined the University of Michigan as Vice President for Research, and returned to research full time in 2013.
Prof. Forrest is a Fellow of the APS, IEEE, OSA and, most recently, NAI. He is a member of the National Academy of Engineering. He received numerous distinctions throughout his career, including the IEEE/LEOS Distinguished Lecturer Award, the IPO National Distinguished Inventor Award (co-recipient), the Thomas Alva Edison Award, the MRS Medal, the IEEE/LEOS William Streifer Scientific Achievement Award, the Jan Rajchman Prize from the Society for Information Display, and the 2007 IEEE Daniel Nobel Award. Prof. Forrest has been honored by Princeton University establishing the Stephen R. Forrest Endowed Faculty Chair in Electrical Engineering in 2012.
Prof. Forrest has authored ~554 papers in refereed journals, and has 280 patents, with an h-index of 124 (Thomson Reuters) / 136 (Google Scholar). In May, 2015, Prof. Forrest was named the University of Michigan Distinguished University Innovator.
He is co-founder or founding participant in several companies, including Sensors Unlimited, Epitaxx, Inc., NanoFlex Power Corp. (OTC: OPVS), Universal Display Corp. (NASDAQ: OLED) and Apogee Photonics, Inc., and is on the Board of Directors of Applied Materials and PD-LD, Inc. He has also served from 2009-2012 as Chairman of the Board of Ann Arbor SPARK, the regional economic development organization, and serves on the Board of Governors of the Technion – Israel Institute of Technology. He is Chairman of the Board of the University Musical Society.
For more lectures on demand, please visit the MconneX website:
http://engin.umich.edu/mconnex
https://wn.com/Stephen_Forrest_|_The_End_Of_Moore's_Law
Distinguished Lecture Series in Electrical and Computer Engineering
Sponsoring Department: ECE
http://ece.umich.edu/
Stephen Forrest, Paul G. Goebel Collegiate Professor of Engineering
For 55 years, Moore’s Law of increasing the number of transistors on a chip by approximately twice every two years has led to unprecedented advances in technology never before experienced in human history. The laptop computers we use in everyday life have computational power that only a decade ago would have been considered a supercomputer. Likewise, our smart phones are amazing instruments of rapid communication, extraordinary computational power and utility that people in even the poorest parts of the planet deem essential to their very existence. Google, Facebook and other remarkable applications all owe their success to the advances in materials science that have driven this electronics revolution. And today, the scope of electronics technology is creating the “internet of things,” penetrating beyond sophisticated software applications to controlling and integrating every piece of physical equipment in our environment.
At long last, Moore’s Law is inevitably reaching its end. Nothing continues in an exponential fashion forever, and the same goes for the miniaturization of transistors that has led to this computational explosion. This device shrinkage is ultimately limited by physical constraints such as the size of a single atom. But Moore’s Law is less an expression of simple miniaturization of an electronic device; it is a road map for the productivity of virtually all modern, electronics-based economies. So the question that will be addressed in this talk is: “Are economics more powerful than physics?” Will progress toward increasing computational power, and its myriad of uses overcome the current, apparent limits and, if so, how? And from where will these advances emerge? These are exciting times when we are unsure if we face the creation of a new era, or the end of a period of unprecedented economic and technological growth with nothing there to replace its power going forward.
Speaker Bio: Steve Forrest, Peter A. Franken Distinguished University Professor, is a professor of Electrical Engineering and Computer Science, Physics, and Materials Science and Engineering. He is director of the Optoelectronic Components and Materials Group. He and his group conduct research on photovoltaic cells, organic light emitting diodes, and lasers & optics. His investigations in these areas span decades, and have resulted in five startup companies, 277 issued patents, and key technologies that are pervasive in the marketplace. In addition, he has graduated 54 Ph.D. students.
In 1985, Prof. Forrest joined the Electrical Engineering and Materials Science Departments at USC. In 1992, Prof. Forrest became the James S. McDonnell Distinguished University Professor of Electrical Engineering at Princeton University. He served as director of the National Center for Integrated Photonic Technology, and as Director of Princeton's Center for Photonics and Optoelectronic Materials (POEM), and from 1997-2001, he chaired Princeton’s Electrical Engineering Department. In 2006, he rejoined the University of Michigan as Vice President for Research, and returned to research full time in 2013.
Prof. Forrest is a Fellow of the APS, IEEE, OSA and, most recently, NAI. He is a member of the National Academy of Engineering. He received numerous distinctions throughout his career, including the IEEE/LEOS Distinguished Lecturer Award, the IPO National Distinguished Inventor Award (co-recipient), the Thomas Alva Edison Award, the MRS Medal, the IEEE/LEOS William Streifer Scientific Achievement Award, the Jan Rajchman Prize from the Society for Information Display, and the 2007 IEEE Daniel Nobel Award. Prof. Forrest has been honored by Princeton University establishing the Stephen R. Forrest Endowed Faculty Chair in Electrical Engineering in 2012.
Prof. Forrest has authored ~554 papers in refereed journals, and has 280 patents, with an h-index of 124 (Thomson Reuters) / 136 (Google Scholar). In May, 2015, Prof. Forrest was named the University of Michigan Distinguished University Innovator.
He is co-founder or founding participant in several companies, including Sensors Unlimited, Epitaxx, Inc., NanoFlex Power Corp. (OTC: OPVS), Universal Display Corp. (NASDAQ: OLED) and Apogee Photonics, Inc., and is on the Board of Directors of Applied Materials and PD-LD, Inc. He has also served from 2009-2012 as Chairman of the Board of Ann Arbor SPARK, the regional economic development organization, and serves on the Board of Governors of the Technion – Israel Institute of Technology. He is Chairman of the Board of the University Musical Society.
For more lectures on demand, please visit the MconneX website:
http://engin.umich.edu/mconnex
- published: 11 Dec 2015
- views: 5566
Is Moore's Law Broken?
- Order: Reorder
- Duration: 7:52
- Updated: 16 Dec 2016
- views: 5113
For 50 years, Moore's Law has set the pace of computer innovation. Now it's breaking down. Will a leap forward in technology save Moore's Law or is it forever b...
For 50 years, Moore's Law has set the pace of computer innovation. Now it's breaking down. Will a leap forward in technology save Moore's Law or is it forever broken?
Super special thanks to our Patreon Patrons:
Colin Young, Joseph Hegeman, Andrew Arrabaca, Dan Goodes, Jeff Brice, Matt Altieri, Cristina Quiroz, Torstein, Jeremy Nauta, Chris Hicks, Lars Hermann, Max, Yoselin Gallegos, and Ashley Beraneck.
►Support us on Patreon: https://www.patreon.com/thegoodstuff
►Subscribe: http://youtube.com/thegoodstuff
►Follow us on Twitter: http://www.twitter.com/goodstuffshow
►Follow us on instagram: goodstuffshow
►Like us on facebook: http://www.facebook.com/thegoodstuffshow
►Sign up for our mailing list: http://eepurl.com/bnSOcH
Music by
Todd Umhoefer (Old Earth)
http://oldearthcontact.bandcamp.com/
Oscillator Bug
http://www.facebook.com/oscillatorbug
Chris Zabriski
http://www.chriszabriski.com
Kevin Macleod
http://www.incompetech.com
Jason Shaw
http://www.audionautix.com
REFERENCES:
https://en.wikipedia.org/wiki/Moore%27s_law
https://en.wikipedia.org/wiki/Self-fulfilling_prophecy
https://www.technologyreview.com/s/601441/moores-law-is-dead-now-what/
http://spectrum.ieee.org/semiconductors/devices/leading-chipmakers-eye-euv-lithography-to-save-moores-law
https://www.quora.com/Is-Moores-law-a-self-fulfilling-prophecy
http://www.nature.com/news/the-chips-are-down-for-moore-s-law-1.19338
https://en.wikipedia.org/wiki/Gordon_Moore
https://en.wikipedia.org/wiki/Traitorous_eight
https://en.wikipedia.org/wiki/Silicon_Valley#The_silicon_transistor
http://journals.uic.edu/ojs/index.php/fm/article/view/1000/921
http://www.siliconvalleywatcher.com/mt/archives/2011/05/how_the_traitor.php
https://en.wikipedia.org/wiki/Transistor_count#Microprocessors
http://www.computerhistory.org/timeline/1965/
http://arstechnica.com/information-technology/2016/02/moores-law-really-is-dead-this-time/
http://www.itworld.com/article/2949368/hardware/the-impending-end-of-moores-law-is-not-intels-biggest-problem.html
http://www.intel.com/content/www/us/en/silicon-innovations/moores-law-technology.html
http://www.personal.psu.edu/lxb5198/Assign_6.html
https://wn.com/Is_Moore's_Law_Broken
For 50 years, Moore's Law has set the pace of computer innovation. Now it's breaking down. Will a leap forward in technology save Moore's Law or is it forever broken?
Super special thanks to our Patreon Patrons:
Colin Young, Joseph Hegeman, Andrew Arrabaca, Dan Goodes, Jeff Brice, Matt Altieri, Cristina Quiroz, Torstein, Jeremy Nauta, Chris Hicks, Lars Hermann, Max, Yoselin Gallegos, and Ashley Beraneck.
►Support us on Patreon: https://www.patreon.com/thegoodstuff
►Subscribe: http://youtube.com/thegoodstuff
►Follow us on Twitter: http://www.twitter.com/goodstuffshow
►Follow us on instagram: goodstuffshow
►Like us on facebook: http://www.facebook.com/thegoodstuffshow
►Sign up for our mailing list: http://eepurl.com/bnSOcH
Music by
Todd Umhoefer (Old Earth)
http://oldearthcontact.bandcamp.com/
Oscillator Bug
http://www.facebook.com/oscillatorbug
Chris Zabriski
http://www.chriszabriski.com
Kevin Macleod
http://www.incompetech.com
Jason Shaw
http://www.audionautix.com
REFERENCES:
https://en.wikipedia.org/wiki/Moore%27s_law
https://en.wikipedia.org/wiki/Self-fulfilling_prophecy
https://www.technologyreview.com/s/601441/moores-law-is-dead-now-what/
http://spectrum.ieee.org/semiconductors/devices/leading-chipmakers-eye-euv-lithography-to-save-moores-law
https://www.quora.com/Is-Moores-law-a-self-fulfilling-prophecy
http://www.nature.com/news/the-chips-are-down-for-moore-s-law-1.19338
https://en.wikipedia.org/wiki/Gordon_Moore
https://en.wikipedia.org/wiki/Traitorous_eight
https://en.wikipedia.org/wiki/Silicon_Valley#The_silicon_transistor
http://journals.uic.edu/ojs/index.php/fm/article/view/1000/921
http://www.siliconvalleywatcher.com/mt/archives/2011/05/how_the_traitor.php
https://en.wikipedia.org/wiki/Transistor_count#Microprocessors
http://www.computerhistory.org/timeline/1965/
http://arstechnica.com/information-technology/2016/02/moores-law-really-is-dead-this-time/
http://www.itworld.com/article/2949368/hardware/the-impending-end-of-moores-law-is-not-intels-biggest-problem.html
http://www.intel.com/content/www/us/en/silicon-innovations/moores-law-technology.html
http://www.personal.psu.edu/lxb5198/Assign_6.html
- published: 16 Dec 2016
- views: 5113
Moore's Law Got Me! | Intel
- Order: Reorder
- Duration: 1:34
- Updated: 15 Apr 2015
- views: 48616
Science gurus Adam Savage and Jamie Hyneman race through speed and time to show the wonders of Moore's Law, which is at the core of incredible advances in compu...
Science gurus Adam Savage and Jamie Hyneman race through speed and time to show the wonders of Moore's Law, which is at the core of incredible advances in computer technology.Subscribe now to Intel on YouTube: http://bit.ly/1BZDtpf
About Intel:
Intel, the world leader in silicon innovation, develops technologies, products and initiatives to continually advance how people work and live. Founded in 1968 to build semiconductor memory products, Intel introduced the world's first microprocessor in 1971. This decade, our mission is to create and extend computing technology to connect and enrich the lives of every person on earth.
Connect with Intel:
Visit Intel WEBSITE: http://intel.ly/1WXmVMe
Like Intel on FACEBOOK: http://intel.ly/1wrbYGi
Follow Intel on TWITTER: http://intel.ly/1wrbXC8
Follow Intel on INSTAGRAM: http://bit.ly/1OJuPTg
Visit iQ: http://intel.ly/1wrbXCd
Moore's Law Got Me! | Intel
https://www.youtube.com/user/channelintel
https://wn.com/Moore's_Law_Got_Me_|_Intel
Science gurus Adam Savage and Jamie Hyneman race through speed and time to show the wonders of Moore's Law, which is at the core of incredible advances in computer technology.Subscribe now to Intel on YouTube: http://bit.ly/1BZDtpf
About Intel:
Intel, the world leader in silicon innovation, develops technologies, products and initiatives to continually advance how people work and live. Founded in 1968 to build semiconductor memory products, Intel introduced the world's first microprocessor in 1971. This decade, our mission is to create and extend computing technology to connect and enrich the lives of every person on earth.
Connect with Intel:
Visit Intel WEBSITE: http://intel.ly/1WXmVMe
Like Intel on FACEBOOK: http://intel.ly/1wrbYGi
Follow Intel on TWITTER: http://intel.ly/1wrbXC8
Follow Intel on INSTAGRAM: http://bit.ly/1OJuPTg
Visit iQ: http://intel.ly/1wrbXCd
Moore's Law Got Me! | Intel
https://www.youtube.com/user/channelintel
- published: 15 Apr 2015
- views: 48616
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Moore's Law
The explanation of Moore's Law and evaluation of its future application.
published: 25 Nov 2015 -
Moore's Law 479072
published: 08 Oct 2016 -
50 years of Moore’s law
published: 18 Sep 2015 -
Opinion on Moore's Law
published: 29 Sep 2016 -
What is Moore's Law ExtremeTech
published: 12 Jun 2016 -
Conti Moore Law Commercial
published: 13 Feb 2015 -
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Moore's law
- Order: Reorder
- Duration: 2:35
- Updated: 10 Sep 2016
- views: 10
Moore's Law
- Order: Reorder
- Duration: 1:28
- Updated: 25 Nov 2015
- views: 15
The explanation of Moore's Law and evaluation of its future application.
The explanation of Moore's Law and evaluation of its future application.
https://wn.com/Moore's_Law
The explanation of Moore's Law and evaluation of its future application.
- published: 25 Nov 2015
- views: 15
Moore's Law 479072
- Order: Reorder
- Duration: 3:51
- Updated: 08 Oct 2016
- views: 5
- published: 08 Oct 2016
- views: 5
50 years of Moore’s law
- Order: Reorder
- Duration: 1:05
- Updated: 18 Sep 2015
- views: 498
- published: 18 Sep 2015
- views: 498
Opinion on Moore's Law
- Order: Reorder
- Duration: 0:42
- Updated: 29 Sep 2016
- views: 42
- published: 29 Sep 2016
- views: 42
What is Moore's Law ExtremeTech
- Order: Reorder
- Duration: 0:25
- Updated: 12 Jun 2016
- views: 22
- published: 12 Jun 2016
- views: 22
Conti Moore Law Commercial
- Order: Reorder
- Duration: 0:31
- Updated: 13 Feb 2015
- views: 1239
- published: 13 Feb 2015
- views: 1239
The Law of the Moor
- Order: Reorder
- Duration: 1:28:34
- Updated: 09 Jun 2012
- views: 141324
Moore's law lives
- Order: Reorder
- Duration: 2:45
- Updated: 26 Jul 2016
- views: 38
Moore's Law Lives... here is why?
Moore's Law Lives... here is why?
https://wn.com/Moore's_Law_Lives
Celebrating 50 Years of Moore's Law
- Order: Reorder
- Duration: 1:17
- Updated: 16 Apr 2015
- views: 1431
Celebrating 50 Years of Moore's Law
Celebrating 50 Years of Moore's Law
https://wn.com/Celebrating_50_Years_Of_Moore's_Law
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Davos 2015 ᴴᴰ ┇Beyond Moore's Law
published: 14 Jul 2016 -
Approaching the end of Moore's Law: time to reinvent the system stack?
Approaching the end of Moore's Law: time to reinvent the system stack?
published: 15 Jun 2016 -
How Technology Really Advances: Reflections on the 50th Anniversary of Moore's Law
Reflection on the 50th Anniversary of Moore's Law
published: 08 Feb 2016 -
Moore's Law The Life of Gordon Moore, Silicon Valley's Quiet Revolutionary
published: 24 Feb 2016 -
GLOBALFOUNDRIES Webinar: Extending Moore's Law with FD-SOI Technology
published: 25 Aug 2015 -
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
published: 21 Jun 2016 -
Lunch Talk with Yrjö Neuvo on Beyond Moore's Law on 10 Apr 2015
published: 08 Oct 2015 -
-
RFG CHOSEN ONE-MOOR ECONOMICS/MARTIAL LAW!!!
published: 10 May 2016
Davos 2015 ᴴᴰ ┇Beyond Moore's Law
- Order: Reorder
- Duration: 43:23
- Updated: 14 Jul 2016
- views: 7
- published: 14 Jul 2016
- views: 7
Approaching the end of Moore's Law: time to reinvent the system stack?
- Order: Reorder
- Duration: 1:44:25
- Updated: 15 Jun 2016
- views: 399
Approaching the end of Moore's Law: time to reinvent the system stack?
Approaching the end of Moore's Law: time to reinvent the system stack?
https://wn.com/Approaching_The_End_Of_Moore's_Law_Time_To_Reinvent_The_System_Stack
Approaching the end of Moore's Law: time to reinvent the system stack?
- published: 15 Jun 2016
- views: 399
How Technology Really Advances: Reflections on the 50th Anniversary of Moore's Law
- Order: Reorder
- Duration: 58:18
- Updated: 08 Feb 2016
- views: 70
Moore's Law The Life of Gordon Moore, Silicon Valley's Quiet Revolutionary
- Order: Reorder
- Duration: 1:22:15
- Updated: 24 Feb 2016
- views: 2
- published: 24 Feb 2016
- views: 2
GLOBALFOUNDRIES Webinar: Extending Moore's Law with FD-SOI Technology
- Order: Reorder
- Duration: 35:33
- Updated: 25 Aug 2015
- views: 2464
- published: 25 Aug 2015
- views: 2464
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
- Order: Reorder
- Duration: 1:51:38
- Updated: 21 Jun 2016
- views: 51
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
- published: 21 Jun 2016
- views: 51
Lunch Talk with Yrjö Neuvo on Beyond Moore's Law on 10 Apr 2015
- Order: Reorder
- Duration: 1:10:01
- Updated: 08 Oct 2015
- views: 35
- published: 08 Oct 2015
- views: 35
AWCF 2015 Ron Thompson
- Order: Reorder
- Duration: 1:24:39
- Updated: 07 Jul 2015
- views: 99
Thomas Moore Law Center
Thomas Moore Law Center
https://wn.com/Awcf_2015_Ron_Thompson
RFG CHOSEN ONE-MOOR ECONOMICS/MARTIAL LAW!!!
- Order: Reorder
- Duration: 31:19
- Updated: 10 May 2016
- views: 7810
- published: 10 May 2016
- views: 7810
back
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- Chat
back
- Playlist
- Chat
9:19
Moore's Law and The Secret World Of Ones And Zeroes
SciShow explains how SciShow exists -- and everything else that's ever been made or used o...
published: 13 Jul 2014
Moore's Law and The Secret World Of Ones And Zeroes
Moore's Law and The Secret World Of Ones And Zeroes
- Report rights infringement
- published: 13 Jul 2014
- views: 931272
3:00
Moore's Law
Moore’s Law is a prediction formulated by Gordon E. Moore in 1965 about transistor density...
published: 12 Feb 2015
Moore's Law
Moore's Law
- Report rights infringement
- published: 12 Feb 2015
- views: 22526
20:32
Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016
The doubling of transistor density every 18 months has been an exponential greater than an...
published: 24 Nov 2016
Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016
Moore's Law: Where are we and which way are we going? by Greg Yeric | ARM TechCon 2016
- Report rights infringement
- published: 24 Nov 2016
- views: 267
6:06
Michio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon Era
What's beyond silicon? There have been a number of proposals: protein computers, DNA compu...
published: 13 Apr 2012
Michio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon Era
Michio Kaku: Tweaking Moore's Law and the Computers of the Post-Silicon Era
- Report rights infringement
- published: 13 Apr 2012
- views: 333371
9:39
Is it the End for Moore's Law? - Computerphile
Moore's Law has held true for 40 years, but many say it will soon end - Can chip designers...
published: 16 Apr 2014
Is it the End for Moore's Law? - Computerphile
Is it the End for Moore's Law? - Computerphile
- Report rights infringement
- published: 16 Apr 2014
- views: 227501
1:25
What is Moore's Law?
Made for Alford Academy, Aberdeenshire. I researched, planned, wrote, composited, edited, ...
published: 02 Dec 2013
What is Moore's Law?
What is Moore's Law?
- Report rights infringement
- published: 02 Dec 2013
- views: 21744
8:49
Transistors & The End of Moore's Law
How does a transistor work? And when will Moore's Law break down?
Supported by TechNYou - ...
published: 27 May 2013
Transistors & The End of Moore's Law
Transistors & The End of Moore's Law
- Report rights infringement
- published: 27 May 2013
- views: 806348
32:51
Stephen Forrest | The End of Moore's Law
Distinguished Lecture Series in Electrical and Computer Engineering
Sponsoring Department:...
published: 11 Dec 2015
Stephen Forrest | The End of Moore's Law
Stephen Forrest | The End of Moore's Law
- Report rights infringement
- published: 11 Dec 2015
- views: 5566
7:52
Is Moore's Law Broken?
For 50 years, Moore's Law has set the pace of computer innovation. Now it's breaking down....
published: 16 Dec 2016
Is Moore's Law Broken?
Is Moore's Law Broken?
- Report rights infringement
- published: 16 Dec 2016
- views: 5113
1:34
Moore's Law Got Me! | Intel
Science gurus Adam Savage and Jamie Hyneman race through speed and time to show the wonder...
published: 15 Apr 2015
Moore's Law Got Me! | Intel
Moore's Law Got Me! | Intel
- Report rights infringement
- published: 15 Apr 2015
- views: 48616
back
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1:28
Moore's Law
The explanation of Moore's Law and evaluation of its future application.
published: 25 Nov 2015
Moore's Law
Moore's Law
- Report rights infringement
- published: 25 Nov 2015
- views: 15
3:51
Moore's Law 479072
published: 08 Oct 2016
Moore's Law 479072
Moore's Law 479072
- Report rights infringement
- published: 08 Oct 2016
- views: 5
1:05
50 years of Moore’s law
published: 18 Sep 2015
50 years of Moore’s law
50 years of Moore’s law
- Report rights infringement
- published: 18 Sep 2015
- views: 498
0:42
Opinion on Moore's Law
published: 29 Sep 2016
Opinion on Moore's Law
Opinion on Moore's Law
- Report rights infringement
- published: 29 Sep 2016
- views: 42
0:25
What is Moore's Law ExtremeTech
published: 12 Jun 2016
What is Moore's Law ExtremeTech
What is Moore's Law ExtremeTech
- Report rights infringement
- published: 12 Jun 2016
- views: 22
0:31
Conti Moore Law Commercial
published: 13 Feb 2015
Conti Moore Law Commercial
Conti Moore Law Commercial
- Report rights infringement
- published: 13 Feb 2015
- views: 1239
1:28:34
The Law of the Moor
The Law of the Moor
published: 09 Jun 2012
The Law of the Moor
The Law of the Moor
- Report rights infringement
- published: 09 Jun 2012
- views: 141324
2:45
Moore's law lives
Moore's Law Lives... here is why?
published: 26 Jul 2016
Moore's law lives
Moore's law lives
- Report rights infringement
- published: 26 Jul 2016
- views: 38
1:17
Celebrating 50 Years of Moore's Law
Celebrating 50 Years of Moore's Law
published: 16 Apr 2015
Celebrating 50 Years of Moore's Law
Celebrating 50 Years of Moore's Law
- Report rights infringement
- published: 16 Apr 2015
- views: 1431
back
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43:23
Davos 2015 ᴴᴰ ┇Beyond Moore's Law
published: 14 Jul 2016
Davos 2015 ᴴᴰ ┇Beyond Moore's Law
Davos 2015 ᴴᴰ ┇Beyond Moore's Law
- Report rights infringement
- published: 14 Jul 2016
- views: 7
1:44:25
Approaching the end of Moore's Law: time to reinvent the system stack?
Approaching the end of Moore's Law: time to reinvent the system stack?
published: 15 Jun 2016
Approaching the end of Moore's Law: time to reinvent the system stack?
Approaching the end of Moore's Law: time to reinvent the system stack?
- Report rights infringement
- published: 15 Jun 2016
- views: 399
58:18
How Technology Really Advances: Reflections on the 50th Anniversary of Moore's Law
Reflection on the 50th Anniversary of Moore's Law
published: 08 Feb 2016
How Technology Really Advances: Reflections on the 50th Anniversary of Moore's Law
How Technology Really Advances: Reflections on the 50th Anniversary of Moore's Law
- Report rights infringement
- published: 08 Feb 2016
- views: 70
1:22:15
Moore's Law The Life of Gordon Moore, Silicon Valley's Quiet Revolutionary
published: 24 Feb 2016
Moore's Law The Life of Gordon Moore, Silicon Valley's Quiet Revolutionary
Moore's Law The Life of Gordon Moore, Silicon Valley's Quiet Revolutionary
- Report rights infringement
- published: 24 Feb 2016
- views: 2
35:33
GLOBALFOUNDRIES Webinar: Extending Moore's Law with FD-SOI Technology
published: 25 Aug 2015
GLOBALFOUNDRIES Webinar: Extending Moore's Law with FD-SOI Technology
GLOBALFOUNDRIES Webinar: Extending Moore's Law with FD-SOI Technology
- Report rights infringement
- published: 25 Aug 2015
- views: 2464
1:51:38
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
published: 21 Jun 2016
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
Approaching the end of Moore's Law: time to reinvent the system stack? Afternoon Sessions
- Report rights infringement
- published: 21 Jun 2016
- views: 51
1:10:01
Lunch Talk with Yrjö Neuvo on Beyond Moore's Law on 10 Apr 2015
published: 08 Oct 2015
Lunch Talk with Yrjö Neuvo on Beyond Moore's Law on 10 Apr 2015
Lunch Talk with Yrjö Neuvo on Beyond Moore's Law on 10 Apr 2015
- Report rights infringement
- published: 08 Oct 2015
- views: 35
1:24:39
AWCF 2015 Ron Thompson
Thomas Moore Law Center
published: 07 Jul 2015
AWCF 2015 Ron Thompson
AWCF 2015 Ron Thompson
- Report rights infringement
- published: 07 Jul 2015
- views: 99
31:19
RFG CHOSEN ONE-MOOR ECONOMICS/MARTIAL LAW!!!
published: 10 May 2016
RFG CHOSEN ONE-MOOR ECONOMICS/MARTIAL LAW!!!
RFG CHOSEN ONE-MOOR ECONOMICS/MARTIAL LAW!!!
- Report rights infringement
- published: 10 May 2016
- views: 7810
Davos 2015 ᴴᴰ ┇Beyond Moore's Law...
Approaching the end of Moore's Law: time to reinve...
How Technology Really Advances: Reflections on the...
Moore's Law The Life of Gordon Moore, Silicon Val...
GLOBALFOUNDRIES Webinar: Extending Moore's Law wit...
Approaching the end of Moore's Law: time to reinve...
Lunch Talk with Yrjö Neuvo on Beyond Moore's Law o...
AWCF 2015 Ron Thompson...
RFG CHOSEN ONE-MOOR ECONOMICS/MARTIAL LAW!!!...
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Lyrics list:lyrics
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Lump Sum, Mars Ill
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Mars Ill, Mars Ill
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Inside Out, Mars Ill
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Fade To Black, Mars Ill
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Compound Fractures, Mars Ill
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Breathe Slow, Mars Ill
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Love's Not, Mars Ill
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Afterlife, Mars Ill
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Enterchange, Mars Ill
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Planes And Trains, Mars Ill
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Lump Sum
Dear Dad, the class began, hands were held and arms were open
Moments stolen from the globe and life's blood was always spoken
One was chosen for another. Broke my will against your wisdom
Pushed my face towards the light so I could cultivate the vision
Made decisions for the unit. Hard times, you moved us through it
By each word and every movement, you're the one who showed me what truth is
Thanks for the blueprint passed down. I'll grip it by the cover
Plus you showed me how to love my wife by the way you treat my mother
And Mom, you sacrificed your body, scarred beneath the weight
To usher my soul into the universe, human contact, you were first
Through the worst I had to offer, caught his mercy in your stare
You were there. Patched my wounds an protected me with your prayers
Gave me food when I was hungry. Gave me love when I was empty
Gave me a look of knowing solitude when I said where God would send me
Thanks for the days and the nights, the laughter and the fights
Teaching me wrong from right, Mom, the first woman in my life
To my brother, thanks for the beatdowns and the harassment
In you I learned to express my views with heated passion
Followed your footsteps good or bad, so please get the facts straight
My big brother introduced me to this and gave me my first rap tape
I watched you grow up, thrive, prosper and self destruct
Find the jewel in circumstances that sucked but still you stuck
A husband and a father, a brother and a son
Kevin, I'm so proud of the man that you've become
Pam, Jeff, Billy, Cliff, Paine, David, Terry, Chris, Ricky
The names stick with me, the names stick with me
Jason Lee, Ben Heaton, Josh Cleveland, Eric Sartain
Trent Gibson saw the best and the worst I've ever given
Sintax, I'd bend back the sky and shift the balance
I thank you for your strong mind, your friendship and your talent
Your example to all that witness 'cause there's no "I" in crew
You inspire me brother 'cause I can see Christ in you
Dust, where to start? The art's answer to my question
Blessed from lessons together that's always led to progression
This profession needs your genius to show cats what it's about
You keep making the music and I'll keep running my mouth
Playdough, Harry Krum, enough heart for every alias
Thanks for helping me carry the torch as we take these kids
Listener, Illtripp, Fred B, Recon
Rabbi, Manuel, Sev Statik and Sivion
It's on until we change the face and finish what we started
I'm thankful that you're all a part of this
Yeah it's on until we change expression, finish what we started
Deepspace5, it's never stopping
Mary, I don't have the words to get across my feelings
I breathe a purer form of oxygen when I'm staring at your face
I can rise above my limits and break through this vaulted ceiling
I'm a better man today because you occupy my space
I hit the road, you hold it down and shun the glory
I'll be the mouthpiece for your heart and I'll tell the world our story
Thanks for bearing our children. Thanks for sharing your life
Thanks for saying, "Yes," May. Thanks for being my wife
To my daughters and all unborn and future seeds
I look at the world through your eyes and you always help me see
Inspiration in your innocence and the future in your face
I write these songs so I can make your world a better place
And that's all to say that all that I am is a collection of souls
That God has used to touch me. Changed a reflection
Made a man from a simple stick-figure
And if I've ever met you, then you helped him paint the picture..
back
NASA Discovers Comet And Another Mysterious Object Racing Toward Earth
Edit WorldNews.com 05 Jan 2017
NASA has discovered two new space objects rapidly approaching the vicinity of Earth, Sputnik reports.One has been identified as a comet and is of great interest to sky watchers, but the other is more mysterious, and has yet to be classified ... – Paul ChodasC/2016 U1 likely has an orbit that takes it millions of years to complete, meaning this will probably be the only chance anyone alive will have to see it....
back
US Intelligence: Conclusive Evidence Russia Provided Hacked Material To Wikileaks
Edit WorldNews.com 05 Jan 2017
On Wednesday officials from U.S. intelligence agencies said they had conclusive evidence after the November election that Russia provided hacked material from the Democratic National Committee to Wikileaks via a third party, according to Reuters. Previously, officials only knew that Russian intelligence agencies directed the hacking but this latest update helps U.S ... government had obtained the information ... -WN.com, Maureen Foody....
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Pence: Trump To Take Action Against Obama Executive Orders ‘On Day One’
Edit WorldNews.com 04 Jan 2017
U.S. President-elect Donald Trump won’t let the chair in the White House’s Oval Office grow cold on Inauguration Day, Vice President-elect Mike Pence said Wednesday, and will begin work undoing some of President Barack Obama’s executive orders, Sputnik reported ... Pence said Trump's first priority when he takes office later this month is to replace the Affordable Care Act, known as Obamacare, Sputnik reported ... On Tuesday, Sen....
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Republicans voice disdain after Trump tweets support for Julian Assange
Edit The Guardian 04 Jan 2017
The president-elect’s tweets approvingly repeated Wikileaks founder’s claim that the Russian state was not the source of the hacked emails from the DNC. Leading Republicans broke with Donald Trump on Wednesday after the president-elect appeared to put more faith in Wikileaks founder Julian Assange than in US intelligence agencies ... Julian Assange gives guarded praise of Trump and blasts Clinton in interview. Read more ... Trump added ... ....
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Is Saudi Arabia’s Terrorist Factory Now Flying 'Terrorist' Skies?
Edit WorldNews.com 04 Jan 2017
Even if this means committing violent acts in themselves to either spread fear or produce terror to divide, the Saudis will certainly continue to roll back the West and other Islamic regimes by perfecting terrorism at home through harsh laws, imprisonment and torture and public beheadings.Saudi Regime’s Foreign Legion of TerroristsWith more than ......
Deadpool the Duck #1 Review
Edit IGN Insider 05 Jan 2017
However, through some surprisingly strong scripting by Stuart Moore and an equally strong showing by artist Jacopo Camagni, this unlikely marriage manages to actually exceed expectations, the duo delivering with a premise that stands confidently on its two webbed feet ... Despite that likely fact, Moore ......
Dolphins QB Tannehill sits out drills; unlikely vs Steelers
Edit WPXI 05 Jan 2017
DAVIE, Fla. (AP) - Ryan Tannehill stood on the practice field Wednesday wearing a cap, T-shirt and knee brace, idly spinning a ball in his hands as he watched teammate Matt Moore throw ... Moore, who is 2-1 as Tannehill's replacement, will make his first career postseason start "unless something changes drastically here in the next two days or three days," Gase said ... "He's going crazy," said Moore, a close friend....
Moore scores 20, Utah State beats New Mexico 79-75
Edit The Miami Herald 05 Jan 2017
Jalen Moore had 20 points, seven rebounds and five assists, Koby McEwen scored 16 of his 18 points in the second half and Utah State beat New Mexico 79-75 on Wednesday night to snap a three-game skid....
Moore's 24 helps George Mason past UMass 86-81 in A-10 play
Edit The Miami Herald 05 Jan 2017
Marquise Moore scored 24 points, including four free throws in the last half-minute as George Mason rallied for its first Atlantic 10 Conference win this season, beating UMass 86-81 on Wednesday night....
Russell leads Quakers to 5th straight win 92-82
Edit Wilmington News Journal 05 Jan 2017
WILMINGTON — In a game tied 9 times with 17 lead changes, free throws were bound to make a difference. And they did ... The win puts the Fightin’ Quakers 6-6 overall and 1-4 in the OAC ... Jones 1-0-0-2 Smith 1-0-0-2 Greene 0-0-3-3 Pittman 0-0-0-0 Moore 3-0-0-6 Scott 8-4-0-20 ... C 31-60 (Weingartner 9-18 Schreck 6-10 Jackson 6-10); W 29-53 (Scott 8-10 Russell 7-10 Lewis 4-7 Moore 3-4) ... Jones 4 Chatman 3 Pittman 3 Scott 3 Moore 2) ... ....
Photo gallery: Miami Dolphins practice | Wed., Jan. 4, 2017
Edit The Miami Herald 05 Jan 2017
Miami Dolphins quarterback Ryan Tannehill, center, speaks with Matt Moore, left, and T.J ... Miami Dolphins quarterback Ryan Tannehill, center, speaks with Matt Moore, left, and T.J ... Miami Dolphins quarterback Ryan Tannehill, center, speaks with Matt Moore, left, and T.J ... Miami Dolphins quarterback Matt Moore practices in the team’s training facility in Davie on Wednesday, January 4, 2017....
Borges: Nos. 10 & 19 will live on in Falmouth hockey rink
Edit Boston Herald 05 Jan 2017
“They were such good kids,’’ Falmouth High hockey coach Paul Moore said several hours before the game ... We needed to play hockey, but the focus will be on those two young men and how they lived,” Moore said ... Moore had been a Clipper himself 30 years ago, a member of their 1981 Division 2 state championship hockey team....
Review: Loach film is a searing call for humanity, decency
Edit The Washington Times 05 Jan 2017
Just like a Michael Moore documentary, there's nothing subtle about a Ken Loach drama. The 80-year-old British director and social critic has long been an ardent, insistent, eloquent champion of the more vulnerable members of society - particularly working-class folks who are trying to do the right thing but just ... ....
Moore’s Law isn’t dead: Intel teases a 2-in-1 PC sporting a ‘Cannon Lake’ CPU
Edit Digital Trends 05 Jan 2017
During Intel's press conference at CES 2017, CEO Brian Krzanich showcased a 2-in-1 PC sporting a Cannon Lake processor made using 10nm process technology. This is the first time Intel teased a 10nm CPU, but didn't provide any demos. The post Moore’s Law isn’t dead. Intel teases a 2-in-1 PC sporting a ‘Cannon Lake’ CPU appeared first on Digital Trends ... ....
Dolphins likely to start Moore vs. Steelers, but Gase still not ruling Tannehill out
Edit Orlando Sentinel 05 Jan 2017
Matt Moore is emerging as a much stronger candidate than Ryan Tannehill to be the Miami Dolphins' starting quarterback for Sunday's wild-card playoff game at Pittsburgh, according to coach Adam Gase. "Unless something changes drastically here in the next two days or three days," Gase said Wednesday... ....
Around the NFL: Moore appears to be likely starter for Dolphins
Edit The Los Angeles Times 05 Jan 2017- 1
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