department of electronics
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Advanced Information Storage 15. Atsufumi Hirohata. Department of Electronics. 16:00 21/November/2013 Thursday (V 120). Quick Review over the Last Lecture. MRAM read-out :. MRAM STT write-in :. Bit line. Sensing current. Magnetic free layer. Magnetic tunnel / spin-valve junctions. - PowerPoint PPT PresentationTRANSCRIPT
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Department of Electronics
Advanced Information Storage
15
Atsufumi Hirohata
16:00 21/November/2013 Thursday (V 120)
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Quick Review over the Last Lecture
MRAM read-out :
Bit lineSensing current
Word line
Parallel magnetisation
↓
Low resistant state “0”
Magnetic free layer
Magnetic pin layer
Antiparallel magnetisation
↓
High resistant state “1”
Selection transistor
(MOSFET)
Insulator /nonmagnet
Magnetic tunnel /
spin-valve junctions
* http://www.wikipedia.org/;** M. Oogane and T. Miyazaki, “Magnetic Random Access Memory,” in
Epitaxial Ferromagnetic Films and Spintronic Applications, A. Hirohata and Y. Otani (Eds.) (Research Signpost, Kerala, 2009) p. 335;
MRAM STT write-in :
*** http://www.toshiba.co.jp/
Perpendicularly magnetised MRAM :
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15 Ferroelectric / Phase Change
Random Access Memory
• FeRAM
• PRAM
• ReRAM
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Memory Types
* http://www.semiconductorjapan.net/serial/lesson/12.html
Rewritable
Read only
Read majority
(Writable)
Volatile
Non-volatile
Non-volatile
Non-volatile
Dynamic
Static
Static
Static
Static
DRAM
SRAM
MRAM
FeRAM
PRAM
PROM
Mask ROM
Flash
EPROM
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Comparison between Next-Generation Memories
* http://techon.nikkeibp.co.jp/article/HONSHI/20070926/139715/
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Ferroelectric Random Access Memory (FeRAM)
* http://www.DudleyBuck.com/;
In 1952, Dudley A. Buck invented ferroelectric RAM in his master’s thesis :
** http://www.wikipedia.org/
Utilise ferroelectric polarisations
Very fast latency : < 1 ns
CMOS process compatible
×Relatively large cell size : 15 F 2
×Destructive read-out
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FeRAM Cells 1
* http://loto.sourceforge.net/feram/doc/film.xhtml
1-transistor 1-capacitor type : 1-transistor type :
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FeRAM Cells 2
* http://www,wikipedia.org/
2-transistor 2-capacitor type :
Bit line 1 Bit line 2Word line
Plate line
Ferroelectric
capacitor 1
Ferroelectric
capacitor 2
Bit line 1
Bit line 2
Word line
Plate line
Capacitor V 1
Capacitor V 2
FeRAM Writing operation Reading operation
Prevent destructive read-out
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Requirements for Ferroelectric Materials
FeRAM cell structure :
• Large residual polarisation
→ High recording density
• Small dielectric constant
→ Read-out error reduction
• Small coercive electric field
→ Low power consumption
• High fatigue endurance
→ 10-year usage (> 10 12 polarisation reversal)
• High remanence
→ 10-year tolerance for data
• Small imprint
→ High recording density
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Ferroelectric Materials
* http://loto.sourceforge.net/feram/doc/film.xhtml
ABO3 type materials :
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Polarisation Hysteresis
* http://loto.sourceforge.net/feram/doc/film.xhtml
For example, BaTiO3 :
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Applications
2-Mb FeRAM introduced by Fujitsu :
* http://www.fujitsu.com/
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Comparison between Next-Generation Memories
* http://techon.nikkeibp.co.jp/article/HONSHI/20070926/139715/
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Phase Change
In 1960s, Stanford R. Ovshinsky studied phase-change properties of chalcogenide
** http://www.careace.net/2010/05/06/samsung-introducing-phase-change-memory-in-smartphones/
In 1969, Charles Sie demonstrated the feasibility for memory applications.
In 1999, Ovonyx was established for memory realisation :
• 512 Mbit (Samsung, 2006)
• 1 Gbit (Numonyx, 2009)
• 1.8 Gbit (Samsung, 2011)
* http://www.esrf.eu/news/general/phase-change-materials/index_html;
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Phase Change Random Access Memory (PRAM)
Required writing currents for several techniques dependent upon cell size :
* http://www.wikipedia.org/;
Utilise phase change
Low resistivity : crystalline phase
High resistivity : amorphous phase
CMOS process compatible
×Rewritability : 1,000 ~ 100,000 times
×Destructive read-out
http://nextgenlog.blogspot.com
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PRAM Properties
PRAM properties as compared with NOR-flash memory :
** http://www.hynix.com/mail/newsletter_2009_07/eng/sub02.html
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PRAM Operation
PRAM operation : *
* http://www.intechopen.com/books/advances-in-solid-state-circuit-technologies/impact-of-technology-scaling-on-phase-change-memory-performance
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PRAM Architecture
PRAM architecture : *
* http://www.intechopen.com/books/advances-in-solid-state-circuit-technologies/impact-of-technology-scaling-on-phase-change-memory-performance
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Resistive Random Access Memory (ReRAM)
In 1997, Yoshinori Tokura found colossal magnetoresistance (CMR) :
* http://www.cmr.t.u-tokyo.ac.jp/;
In 2002, Sharp demonstrated 64-bit ReRAM with Pr0.7Ca0.3MnO3 :
** http://phys.nsysu.edu.tw/ezfiles/85/1085/img/588/Oxide-basedResistiveMemoryTechnology_CHLien.pdf
Utilise large resistivity change
High endurance : ~ 10 12
Fast switching speed : < 1 ns
CMOS process compatible
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ReRAM Operation
Unipolar / bipolar operations : *
** http://phys.nsysu.edu.tw/ezfiles/85/1085/img/588/Oxide-basedResistiveMemoryTechnology_CHLien.pdf
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ReRAM Operation Cycle
Oxygen vacancy can be repaired during the operation cycle : *
** http://phys.nsysu.edu.tw/ezfiles/85/1085/img/588/Oxide-basedResistiveMemoryTechnology_CHLien.pdf
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ReRAM Demonstration
Samsung (2004) : * Stanford (2011) : *
** http://phys.nsysu.edu.tw/ezfiles/85/1085/img/588/Oxide-basedResistiveMemoryTechnology_CHLien.pdf