Researchers offer new insights on computer power growth, past and future

https://www.miragenews.com/researchers-offer-new-insights-on-computer-616015/

Researchers at The Rockefeller University have shed new light on “Moore’s Law” — perhaps the world’s most famous technological prediction ...

three years of negligible growth followed, according to authors Jesse Ausubel and David Burg of the Program for the Human Environment (PHE)

Ausubel,Burg

How long has the semiconductor industry got?

https://www.eenewseurope.com/news/how-long-has-semiconductor-industry-got

An analysis by two environmental scientists predicts that the semiconductor has at least two more ‘innovation cycles’ for transistor ...

is a challenge for the industry.\n\nBiostatistician David Burg and environmental researcher Jesse Ausubel have looked at the evolution of the

David Burg,Jesse Ausubel,Moore's Law

How long has the semiconductor industry got?

Moore’s Law: Wellen statt Exponentialkurve

https://www.focus.de/wissen/natur/moore-s-law-wellen-statt-exponentialkurve_id_17380941.html

nur noch wenige Nanometer groß sind.\nMoore's Law auf dem Prüfstand\nAber wie gut trifft Moore's Law wirklich auf die vergangene Entwicklung

David Burg,Moore's Law

Moore’s Law: Waves instead of Exponential Curve

Moore’s Law: Wellen statt Exponentialkurve

https://www.scinexx.de/news/technik/moores-law-wellen-statt-exponentialkurve/

zu? Und was sagt dies für die Zukunft aus? Das haben nun David Burg und Jesse Asubel von der Rockefeller University in New York untersucht.

Moore’s Law: Waves instead of Exponential Curve

Silicon twilight?The end of Moore’s Law, which saw silicon chip densities approaching physical limits

https://www.jioforme.com/silicon-twilightthe-end-of-moores-law-which-saw-silicon-chip-densities-approaching-physical-limits/687516/

HughLeading faster and better computing for decades, silicon chip densities are approaching physical limits.

on today’s state-of-the-art supercomputers in about 200 seconds.”\n\nAusubel, director of PHE, said: “We have climbed six higher valleys in

Ausubel,Burg

Silicon twilight?The end of Moore’s Law, which saw silicon chip densities approaching physical limits

https://fuentitech.com/silicon-twilightthe-end-of-moores-law-which-saw-silicon-chip-densities-approaching-physical-limits/197027/

HughLeading faster and better computing for decades, silicon chip densities are approaching physical limits.\n \nResearchers at Rockefeller ...

the complex evolution of diverse machines. Shows power.\n \nSee also: David Burg and Jesse H. Ausubel’s “Moore’s Law Rethought Through Intel

Silicon twilight? The end of Moore’s Law, which saw silicon chip densities approaching physical limits

Reappraisal of Moore’s Law Through Chip Density

https://www.eletimes.com/reappraisal-of-moores-law-through-chip-density

Researchers at The Rockefeller University have shed new light on Moore’s Law—perhaps the world’s most famous technological prediction—that ...

three years of negligible growth followed, according to authors Jesse Ausubel and David Burg of the Program for the Human Environment (PHE)

Jesse Ausubel,David Burg

Reappraisal of Moore’s Law Through Chip Density

Twilight for silicon? Paper reappraises Moore's law through chip density

https://www.newsr.in/n/Science/1zn36w5n3d/Twilight-for-silicon-Paper-reappraises-Moore-law.htm

Thursday, 19 August 2021 (33 minutes ago)\nNew York NY (SPX) Aug 19, 2021\nResearchers at The Rockefeller University have shed new light on ...

Aug 19, 2021\nResearchers at The Rockefeller University have shed new light on Moore's Law - perhaps the world's most famous technological

Moore's Law,Moore's law

Twilight for silicon? Paper reappraises Moore's law through chip density

研究员对影响半导体行业的摩尔定律有了新的认识

https://xw.qq.com/cmsid/20210820A05P0Q00

随着芯片制程工艺缩进难度的日渐提升，想要实现集成电路组件数量每两年翻一番的目标，似乎已经遇到了瓶颈。然而洛克菲勒大学的一支研究团队，刚刚对影响半导体行业数十年的“摩尔定律”有了新的认识。 在《PLOS One》期刊上的一篇文章中，其揭示了一种更微妙的“历史波动”模式 —— ...

弧线。研究配图 - 1：时间相关逻辑模型 / 半对数变换曲线研究作者、纽约洛克菲勒大学人类环境项目（PHE）成员的 Jesse Ausubel 和 David Burg 表示：在每 6 年的增长浪潮之后，大约有 3 年的增长可以忽略不计。此外他们认为，在面部识别、5G 移动网络和

Chinese (simpl.)

Jesse Ausubel,David Burg

Researchers have a new understanding of Moore's Law that affects the semiconductor industry

研究人员对影响半导体行业数十年的“摩尔定律”有了新的认识

https://new.qq.com/omn/20210820/20210820A046R600.html

▼\n 关注视频号，发现更多精彩\n 随着芯片制程工艺缩进难度的日渐提升，想要实现集成电路组件数量每两年翻一番的目标，似乎已经遇到了瓶颈。然而洛克菲勒大学的一支研究团队，刚刚对影响半导体行业数十年的“摩尔定律”有了新的认识。在《PLOS One》期刊上的一篇文章中， ...

研究配图 - 1：时间相关逻辑模型 / 半对数变换曲线\n 研究作者、纽约洛克菲勒大学人类环境项目（PHE）成员的 Jesse Ausubel 和 David Burg 表示：在每 6 年的增长浪潮之后，大约有 3 年的增长可以忽略不计。\n 此外他们认为，在面部识别、5G 移动

Chinese (simpl.)

Jesse Ausubel,David Burg

Researchers have a new understanding of "Moore's Law" that has affected the semiconductor industry for decades

研究员对影响半导体行业的摩尔定律有了新的认识

https://news.pconline.com.cn/1440/14405125.html

随着芯片制程工艺缩进难度的日渐提升，想要实现集成电路组件数量每两年翻一番的目标，似乎已经遇到了瓶颈。然而洛克菲勒大学的一支研究团队，刚刚对影响半导体行业数十年的“摩尔定律”有了新的认识。 在《PLOS One》期刊上的一篇文章中，其揭示了一种更微妙的“历史波动”模式 —— ...

研究配图 - 1：时间相关逻辑模型 / 半对数变换曲线\n 研究作者、纽约洛克菲勒大学人类环境项目（PHE）成员的 Jesse Ausubel 和 David Burg 表示：在每 6 年的增长浪潮之后，大约有 3 年的增长可以忽略不计。\n 此外他们认为，在面部识别、5G 移动

Chinese (simpl.)

Jesse Ausubel,David Burg

Researchers have a new understanding of Moore's Law that affects the semiconductor industry

研究人员对影响半导体行业数十年的“摩尔定律”有了新的认识

http://kuaibao.qq.com/s/20210820A046R600

▼关注视频号，发现更多精彩随着芯片制程工艺缩进难度的日渐提升，想要实现集成电路组件数量每两年翻一番的目标，似乎已经遇到了瓶颈。然而洛克菲勒大学的一支研究团队，刚刚对影响半导体行业数十年的“摩尔定律”有了新的认识。在《PLOS One》期刊上的一篇文章中，其揭示了一种更微妙的“ ...

弧线。研究配图 - 1：时间相关逻辑模型 / 半对数变换曲线研究作者、纽约洛克菲勒大学人类环境项目（PHE）成员的 Jesse Ausubel 和 David Burg 表示：在每 6 年的增长浪潮之后，大约有 3 年的增长可以忽略不计。此外他们认为，在面部识别、5G 移动网络和

Chinese (simpl.)

Jesse Ausubel,David Burg

Researchers have a new understanding of "Moore's Law" that has affected the semiconductor industry for decades

研究人员对影响半导体行业数十年的“摩尔定律”有了新的认识

https://www.cnbeta.com/articles/science/1168301.htm

随着芯片制程工艺缩进难度的日渐提升，想要实现集成电路组件数量每两年翻一番的目标，似乎已经遇到了瓶颈。然而洛克菲勒大学的一支研究团队，刚刚对影响半导体行业数十年的“摩尔定律”有了新的认识。在《PLOS One》期刊上的一篇文章中，其揭示了一种更微妙的“历史波动”模式 —— ...

研究配图 - 1：时间相关逻辑模型 / 半对数变换曲线\n\n研究作者、纽约洛克菲勒大学人类环境项目（PHE）成员的 Jesse Ausubel 和 David Burg 表示：在每 6 年的增长浪潮之后，大约有 3 年的增长可以忽略不计。\n\n此外他们认为，在面部识别、5G 移动网络

Chinese (simpl.)

Jesse Ausubel,David Burg

Researchers have a new understanding of "Moore's Law" that has affected the semiconductor industry for decades

研究人员对影响半导体行业数十年的“摩尔定律”有了新的认识

https://www.eet-china.com/mp/a71576.html

文章来源：TechEdge\n随着芯片制程工艺缩进难度的日渐提升，想要实现集成电路组件数量每两年翻一番的目标，似乎已经遇到了瓶颈。然而洛克菲勒大学的一支研究团队，刚刚对影响半导体行业数十年的“摩尔定律”有了新的认识。在《PLOS One》期刊上的一篇文章中，其揭示了一种更微妙的“ ...

的时间。\nPHE 主管 Jesse Ausubel 称：“我们已经在硅基芯片上实现了六次飞越，但最终可能转向其它材料和工艺方案，量子比特有望终结我们在现阶段的艰难攀越”。\n研究配图 - 4：逐步指数模型的参数值\n有关这项研究的详情，已经发表在近日出版的《PLOS One》 期刊上

Chinese (simpl.)

PLOS,Jesse Ausubel,David Burg

Moore's Law revisited through Intel chip density

https://ma.x-mol.com/paper/search/q?selectSearchType=0&option=moore%27s+law+intel

Study Sheds New Light on Moore's Law

https://www.azonano.com

Moore's Law revisited through Intel chip density

https://europepmc.org/article/MED/34407116

Twilight for Silicon? End of “Moore’s Law” in View As Silicon Chip Density Nears Physical Limit

https://scitechdaily.com/twilight-for-silicon-end-of-moores-law-in-view-as-silicon-chip-density-nears-physical-limit/

Fue\n\nled faster, better computing for decades, ever-increasing silicon chip density nears physical limit.\n\nResearchers at The Rockefeller ...

machinery.\n\nReference: “Moore’s Law Revisited through Intel Chip Density” by David Burg and Jesse H. Ausubel, 18 August 2021,\n\nPLoS ONE\n\n.

Burg,Ausubel

Scientists offer new insights on computer power growth, past and future

https://www.eurekalert.org/news-releases/925771

Researchers at The Rockefeller University have shed new light on “Moore’s Law” -- perhaps the world’s most famous technological prediction ...

three years of negligible growth followed, according to authors Jesse Ausubel and David Burg of the Program for the Human Environment (PHE)

Moore's Law,Jesse Ausubel,David Burg

Scientists offer new insights on computer power growth, past and future

Twilight for silicon? Paper reappraises “Moore’s law” through chip density

Twilight for silicon? Paper reappraises “Moore’s law” through chip density

https://www.eurekalert.org/news-releases/925501

Researchers at The Rockefeller University have shed new light on “Moore’s Law” -- perhaps the world’s most famous technological prediction ...

three years of negligible growth followed, according to authors Jesse Ausubel and David Burg of the Program for the Human Environment (PHE)

Jesse Ausubel,David Burg,Moore's Law

Twilight for Silicon? End of “Moore’s Law” in View As Silicon Chip Density Nears Physical Limit

https://californianewstimes.com/twilight-for-silicon-end-of-moores-law-in-view-as-silicon-chip-density-nears-physical-limit/488619/

HughLeading faster and better computing for decades, silicon chip densities are approaching physical limits.

complex evolution of diverse machines. Shows power.\n\nSee also: David Burg and Jesse H. Ausubel’s “Moore’s Law Rethought Through Intel Chip

Burg,Ausubel

Reappraisal of Moore's law through chip density

https://techxplore.com/news/2021-08-reappraisal-law-chip-density.html

Researchers at The Rockefeller University have shed new light on Moore's Law—perhaps the world's most famous technological prediction—that ...

three years of negligible growth followed, according to authors Jesse Ausubel and David Burg of the Program for the Human Environment (PHE)

Ausubel,Burg

Moore’s Law revisited through Intel chip density

https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0256245

Abstract\nGordon Moore famously observed that the number of transistors in state-of-the-art integrated circuits (units per chip) increases ...

2, 2021; Published: August 18, 2021\nCopyright: © 2021 Burg, Ausubel. This is an open access article distributed under the terms of the

Ausubel,Burg

Twilight for Silicon? End of “Moore’s Law” in View As Silicon Chip Density Nears Physical Limit

https://www.focustechnica.com/twilight-for-silicon-end-of-moores-law-in-view-as-silicon-chip-density-nears-physical-limit/

Fueled faster, better computing for decades, ever-increasing silicon chip density nears physical limit.

machinery.\n\nReference: “Moore’s Law Revisited through Intel Chip Density” by David Burg and Jesse H. Ausubel, 18 August 2021,\n\nPLoS ONE\n\n.

By Crystal Jones on August 18, 2021

Burg,Ausubel

Twilight for silicon? Paper reappraises "Moore's law" through chip density

https://www.spacedaily.com/reports/Twilight_for_silicon_Paper_reappraises_Moores_law_through_chip_density_999.html

Twilight for silicon? Paper reappraises "Moore's law" through chip density

https://techbyandroid.com/twilight-for-silicon-end-of-moores-law-in-view-as-silicon-chip-density-nears-physical-limit/

Reappraisal of Moore's Law through chip density

https://darksbox.com/home/reappraisal-of-moores-law-through-chip-density/