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DTSTART:20231105T010000
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BEGIN:VEVENT
DTSTAMP:20231014T171447Z
UID:39F83F54-56DC-48FC-8BD3-35E89CBEE0EF
DTSTART;TZID=America/Chicago:20231012T080000
DTEND;TZID=America/Chicago:20231012T170000
DESCRIPTION:Zoom link: https://argonne.zoomgov.com/j/1610260319?pwd=UUJrUlg
 2bHpQR285Rnp6eTMrQVRJZz09\n\nSpeaker: Professor Yoichiro Tanaka\n\n2023 IE
 EE Distinguished Lecturer in Magnetic Society\n\nResearch Institute of Ele
 ctrical Communication\nTohoku University\, Japan\n\nDate: Thursday\, Octob
 er 12\, 2023\nTime: 11:00 AM CDT\n\nAbstract\n\nThe digital world is produ
 cing nearly a hundred Zetta bytes of data per year and creating values for
  the quality of society. A huge amount of data is being stored\, processed
 \, transmitted\, and then shared via large scale networked datacenters whi
 ch consist of millions of data storage systems filled with perpendicular m
 agnetic recording (PMR) hard disk drives. The PMR technology was invented 
 by Shunichi Iwasaki in 1975 and the first commercial product was launched 
 in 2005. Since then\, the data storage has become the ever-growing foundat
 ion of the digital world and led the data-driven innovations such as bigda
 ta AI analytics\, internet of things\, medical science\, and even a blackh
 ole visualization in astronomy.\n\nThis lecture will provide the essential
  magnetics to create innovative data storage technology of PMR and the ori
 gin of the high-density recording performance which has led current record
 ing density growth. The storage performance stands on the stacked system f
 oundation and the building blocks are\, from the base\, physics of magneti
 cs\, 3D material controls of sub-nanometer in size\, magnetic and electron
 ic device design\, storage device integration\, and storage system archite
 ctures together with non-volatile memories to unleash the intrinsic perfor
 mance. The development of new storage devices and the system requires a mu
 lti-scale approach and a right guiding principle to establish expected fun
 ctions. As an extension of PMR research\, the lecture will also show the p
 rospect of future storage technology and the system architecture from the 
 multi-scale view of the storage system development. A new computational st
 orage system aiming at unifying computation power on data store and brain-
 inspired system considerations as well as the academism-industry relations
  to realize those systems will also be introduced.\n\nCo-sponsored by: IEE
 E Chicago\, IEEE NTC Young Professionals\n\n9700 S Cass Ave\, LEMONT\, Ill
 inois\, United States\, 60439\, Virtual: https://events.vtools.ieee.org/m/
 372632
LOCATION:9700 S Cass Ave\, LEMONT\, Illinois\, United States\, 60439\, Virt
 ual: https://events.vtools.ieee.org/m/372632
ORGANIZER:yili@anl.gov
SEQUENCE:12
SUMMARY:(Oct. 12\, 2023) Magnetic data storage technology\; from the invent
 ion of perpendicular magnetic recording (PMR) to the social integration
URL;VALUE=URI:https://events.vtools.ieee.org/m/372632
X-ALT-DESC:Description: <br /><p>Zoom link: <a href="https://argonne.zoomgo
 v.com/j/1610260319?pwd=UUJrUlg2bHpQR285Rnp6eTMrQVRJZz09">https://argonne.z
 oomgov.com/j/1610260319?pwd=UUJrUlg2bHpQR285Rnp6eTMrQVRJZz09</a></p>\n<p><
 strong>Speaker: Professor Yoichiro Tanaka</strong></p>\n<p><strong>2023 IE
 EE Distinguished Lecturer in Magnetic Society</strong></p>\n<p><strong>Res
 earch Institute of Electrical Communication</strong><br /><strong>Tohoku U
 niversity\, Japan&nbsp\;</strong></p>\n<p><strong>Date: Thursday\, October
  12\, 2023</strong><br /><strong>Time: 11:00 AM CDT</strong></p>\n<p><stro
 ng>Abstract</strong></p>\n<p>The digital world is producing nearly a hundr
 ed Zetta bytes of data per year and creating values for the quality of soc
 iety. A huge amount of data is being stored\, processed\, transmitted\, an
 d then shared via large scale networked datacenters which consist of milli
 ons of data storage systems filled with perpendicular magnetic recording (
 PMR) hard disk drives. The PMR technology was invented by Shunichi Iwasaki
  in 1975 and the first commercial product was launched in 2005. Since then
 \, the data storage has become the ever-growing foundation of the digital 
 world and led the data-driven innovations such as bigdata AI analytics\, i
 nternet of things\, medical science\, and even a blackhole visualization i
 n astronomy.</p>\n<p>This lecture will provide the essential magnetics to 
 create innovative data storage technology of PMR and the origin of the hig
 h-density recording performance which has led current recording density gr
 owth. The storage performance stands on the stacked system foundation and 
 the building blocks are\, from the base\, physics of magnetics\, 3D materi
 al controls of sub-nanometer in size\, magnetic and electronic device desi
 gn\, storage device integration\, and storage system architectures togethe
 r with non-volatile memories to unleash the intrinsic performance. The dev
 elopment of new storage devices and the system requires a multi-scale appr
 oach and a right guiding principle to establish expected functions. As an 
 extension of PMR research\, the lecture will also show the prospect of fut
 ure storage technology and the system architecture from the multi-scale vi
 ew of the storage system development. A new computational storage system a
 iming at unifying computation power on data store and brain-inspired syste
 m considerations as well as the academism-industry relations to realize th
 ose systems will also be introduced.</p>
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