OBDUCAT.......QUO VADIS ??? (Seite 2290)
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[posting]20.670.085 von Sandra4 am 14.03.06 01:19:49[/posting]ok, vielen Dank!!
Da ich meine Liebe bereits anderweitig gebunden ist, verbleibe ich mal ausnahmsweise „nur“ mit freundlichen Grüßen
Da ich meine Liebe bereits anderweitig gebunden ist, verbleibe ich mal ausnahmsweise „nur“ mit freundlichen Grüßen
@trosinette
Auf Deine Frage HD - DVD oder Blu - Ray, du findest die Antwort im 3. Absatz
http://www.obducat.com/pdf/Description_of_application_areas_…
Liebe Grüsse
Sandra4
Auf Deine Frage HD - DVD oder Blu - Ray, du findest die Antwort im 3. Absatz
http://www.obducat.com/pdf/Description_of_application_areas_…
Liebe Grüsse
Sandra4
Obducat & survival of neurons after injury
(Das Zauberwort heißt Alzheimer!)
Department of Cell and Organism Biology,
Animal Physiology Building, Helgonavägen 3B,
SE-223 62 Lund, Sweden
The induction of new sets of genes in response to axonal injury is studied by "RNA chip technology". Furthermore, we study contact guidance of neurons growing on nanometric patterns made by nanoimprint lithography. We anticipate that the program should yield new insights into the way by which regeneration is induced and the mechanisms that are responsible for survival of neurons after injury.
22 February 2006
http://www.biol.lu.se/cellorgbiol/nerveregen/index.html
Hier das gesamte Projekt:
In a separate program aimed at constructing a neuro-electronic junction, an interface between a nerve cell and a computer chip, we investigate how axons thrive on silicon chip surfaces and if nanoimprinting litography can be utilized to guide nerve cell processes to "hot spots", e.g. recording electrodes on a chip surface
12 January 2005
http://www.biol.lu.se/cellorgbiol/nerveregen/proj_descr.html
Liebe Grüsse
Sandra4
(Das Zauberwort heißt Alzheimer!)
Department of Cell and Organism Biology,
Animal Physiology Building, Helgonavägen 3B,
SE-223 62 Lund, Sweden
The induction of new sets of genes in response to axonal injury is studied by "RNA chip technology". Furthermore, we study contact guidance of neurons growing on nanometric patterns made by nanoimprint lithography. We anticipate that the program should yield new insights into the way by which regeneration is induced and the mechanisms that are responsible for survival of neurons after injury.
22 February 2006
http://www.biol.lu.se/cellorgbiol/nerveregen/index.html
Hier das gesamte Projekt:
In a separate program aimed at constructing a neuro-electronic junction, an interface between a nerve cell and a computer chip, we investigate how axons thrive on silicon chip surfaces and if nanoimprinting litography can be utilized to guide nerve cell processes to "hot spots", e.g. recording electrodes on a chip surface
12 January 2005
http://www.biol.lu.se/cellorgbiol/nerveregen/proj_descr.html
Liebe Grüsse
Sandra4
Obducat ist in einem 5,5 Mrd USD Markt tätig!
A semiconductor nanotools boom
By Charles Q. Choi
NEW YORK -- Semiconductor industry tools and instruments that work on the nanoscale could form a $5.5 billion market by 2012, experts told UPI`s Nano World.
"Without the growing toolbox of techniques that enable things to be created at the nanoscale, nanotechnology doesn`t exist, and a lot of these tools are coming from the semiconductor industry," said Lawrence Gasman, principal analyst for NanoMarkets, an industry research firm in Sterling, Va.
To keep computer power steadily advancing, as it has been for the last 30 years, the electronics industry is shrinking microchip features to 90 nanometers. Based on Moore`s Law -- the industry`s observed capability to double transistor density roughly every two years -- the 10-nanometer limit should arrive in roughly 15 years.
The practical limit on feature size for optical projection lithography, the technique currently used to manufacture high-performance chips, is roughly 65 nanometers. Given Moore`s Law, this platform should prove obsolete by 2007.
To meet this challenge, "there are now a growing number of alternatives to conventional lithography that are being developed for making silicon microelectronics," Gasman said. "All of them have considerable promise, but they will be expensive to develop and fully commercialize. In many cases, they are more suitable for R&D than volume production."
Extreme ultraviolet lithography employs ultraviolet lasers, and can in theory operate down to 13 nanometers, but has experienced "numerous teething problems which seem to have put off most backers except Intel," Gasman said.
Electron projection lithography uses electron sprays that are difficult to focus.
"The biggest retarding factor is lack of customer interest at the present time," Gasman said.
Optical projection lithography works by shining a laser through lenses and a pattern of transistor features onto a light-sensitive "photoresist" layer atop a silicon wafer. A similar technology, known as immersion lithography, works by placing a layer of water between the last lens and the silicon, which bends the light and leads to sharper features.
Lithography market leaders ASML, Canon and Nikon have announced plans to ship commercial immersion lithography tools by 2006, according to Lux Research in New York City.
"It may be very useful at 32 nanometers, but have weak legs beyond that," Gasman said.
"Immersion lithography is simpler, faster and potentially far more cost efficient than completely retooling your (fabricator) using extreme ultraviolet," said Nathan Tinker, co-founder and executive vice president of the NanoBusiness Alliance in New York.
Semiconductor lithography equipment should lead to a nearly $3.8 billion market by 2012, but semiconductor nanotech equipment probably will create a $1.7 billion sector with technologies that write features directly onto chips, Gasman said.
For instance, nanoimprint lithography directly presses a hard mask onto a photoresist to stamp the pattern physically without using expensive and cumbersome optics or lasers. The method can create perfect patterns down to 10 nanometers with "excellent economics," he noted.
In 2002, Motorola became the first large semiconductor manufacturer to test a nanoimprint tool, and key infrastructure companies such as KLA Tencor and LAM Research -- which are vital to supporting any new lithography technique -- have begun signing partnerships with nanoimprint vendors such as EVG, Molecular Imprints, Nanonex, Obducat and SUSS MicroTec, Lux Research reported in October 2004.
Another potentially revolutionary technology is dip-pen lithography, which draws features nanometers in size using infinitesimal pen tips dipped into wells of ink made of virtually any desired chemical. The technique has "a broad range of applications both within semiconductors and electronics and in the life sciences," Gasman said.
"If they can get it scaled up, it could steamroll everything else out there," Tinker added.
http://64.233.179.104/search?q=cache:ZxCuEOkeE3QJ:www.wphera…
Liebe Grüsse
Sandra4
A semiconductor nanotools boom
By Charles Q. Choi
NEW YORK -- Semiconductor industry tools and instruments that work on the nanoscale could form a $5.5 billion market by 2012, experts told UPI`s Nano World.
"Without the growing toolbox of techniques that enable things to be created at the nanoscale, nanotechnology doesn`t exist, and a lot of these tools are coming from the semiconductor industry," said Lawrence Gasman, principal analyst for NanoMarkets, an industry research firm in Sterling, Va.
To keep computer power steadily advancing, as it has been for the last 30 years, the electronics industry is shrinking microchip features to 90 nanometers. Based on Moore`s Law -- the industry`s observed capability to double transistor density roughly every two years -- the 10-nanometer limit should arrive in roughly 15 years.
The practical limit on feature size for optical projection lithography, the technique currently used to manufacture high-performance chips, is roughly 65 nanometers. Given Moore`s Law, this platform should prove obsolete by 2007.
To meet this challenge, "there are now a growing number of alternatives to conventional lithography that are being developed for making silicon microelectronics," Gasman said. "All of them have considerable promise, but they will be expensive to develop and fully commercialize. In many cases, they are more suitable for R&D than volume production."
Extreme ultraviolet lithography employs ultraviolet lasers, and can in theory operate down to 13 nanometers, but has experienced "numerous teething problems which seem to have put off most backers except Intel," Gasman said.
Electron projection lithography uses electron sprays that are difficult to focus.
"The biggest retarding factor is lack of customer interest at the present time," Gasman said.
Optical projection lithography works by shining a laser through lenses and a pattern of transistor features onto a light-sensitive "photoresist" layer atop a silicon wafer. A similar technology, known as immersion lithography, works by placing a layer of water between the last lens and the silicon, which bends the light and leads to sharper features.
Lithography market leaders ASML, Canon and Nikon have announced plans to ship commercial immersion lithography tools by 2006, according to Lux Research in New York City.
"It may be very useful at 32 nanometers, but have weak legs beyond that," Gasman said.
"Immersion lithography is simpler, faster and potentially far more cost efficient than completely retooling your (fabricator) using extreme ultraviolet," said Nathan Tinker, co-founder and executive vice president of the NanoBusiness Alliance in New York.
Semiconductor lithography equipment should lead to a nearly $3.8 billion market by 2012, but semiconductor nanotech equipment probably will create a $1.7 billion sector with technologies that write features directly onto chips, Gasman said.
For instance, nanoimprint lithography directly presses a hard mask onto a photoresist to stamp the pattern physically without using expensive and cumbersome optics or lasers. The method can create perfect patterns down to 10 nanometers with "excellent economics," he noted.
In 2002, Motorola became the first large semiconductor manufacturer to test a nanoimprint tool, and key infrastructure companies such as KLA Tencor and LAM Research -- which are vital to supporting any new lithography technique -- have begun signing partnerships with nanoimprint vendors such as EVG, Molecular Imprints, Nanonex, Obducat and SUSS MicroTec, Lux Research reported in October 2004.
Another potentially revolutionary technology is dip-pen lithography, which draws features nanometers in size using infinitesimal pen tips dipped into wells of ink made of virtually any desired chemical. The technique has "a broad range of applications both within semiconductors and electronics and in the life sciences," Gasman said.
"If they can get it scaled up, it could steamroll everything else out there," Tinker added.
http://64.233.179.104/search?q=cache:ZxCuEOkeE3QJ:www.wphera…
Liebe Grüsse
Sandra4
Samsung Shows Flash-Disk-Based Laptop
Company continues to develop more stable solid-state disks.
Martyn Williams, IDG News Service
Friday, March 10, 2006
HANOVER, GERMANY -- Samsung Electronics has developed a higher-capacity version of its solid-state disk, a flash-memory-based replacement for hard disks, and is showing it here at the CeBIT technology show.
The drive packs 32GB of flash memory into a case the same size as a 1.8-inch hard drive. That capacity is double the 16GB of a prototype device announced by Samsung last year and was made possible by the continuing miniaturization of flash-memory chip technology.
At CeBIT, the solid-state disk is being demonstrated inside a Samsung laptop computer. Because the SSD is the same size and shape as the computer`s hard drive it was relatively easy to replace the hard-disk drive with the SSD, said Yun Mini, a spokesperson for Samsung.
Benefits: Speed, Durability
The SSD technology has three major benefits over hard disks, said Yun. The first is that data access is faster. This could be seen when the SSD-based laptop was booted up alongside the same-model machine with a hard disk. The desktop appeared on the screen of the SSD laptop in about 18 seconds while the hard-drive-based computer took about 31 seconds to reach the same point.
The second advantage comes in durability. Because there are no moving parts in the SSD, it is much better at withstanding shock and much more unlikely that data will be lost if the laptop is dropped.
The third major advantage is that it works silently, said Yun.
Downside: Cost
But for all these advantages, there is a major hurdle that needs to be overcome before SSD can reach mass market: price. Flash memory costs around $30 per gigabyte; the memory needed for the 32GB SSD drive works out to about $960, before any other costs are taken into account.
Samsung thinks there are some military or industrial customers that have specialist applications that would benefit from the SSD and so might be more willing to pay a premium.
"At this moment it would be very expensive," said Yun, "but technology is moving very fast so in the near future it could be cheaper."
Prices for flash memory are coming down. In May last year, when Samsung first announced the technology, the flash memory price was about $55 per gigabyte. So it might just be a matter of time before such disks hit the mass market.
http://www.pcworld.com/resource/article/0,aid,125038,pg,1,RS…
Liebe Grüsse
Sandra4
Company continues to develop more stable solid-state disks.
Martyn Williams, IDG News Service
Friday, March 10, 2006
HANOVER, GERMANY -- Samsung Electronics has developed a higher-capacity version of its solid-state disk, a flash-memory-based replacement for hard disks, and is showing it here at the CeBIT technology show.
The drive packs 32GB of flash memory into a case the same size as a 1.8-inch hard drive. That capacity is double the 16GB of a prototype device announced by Samsung last year and was made possible by the continuing miniaturization of flash-memory chip technology.
At CeBIT, the solid-state disk is being demonstrated inside a Samsung laptop computer. Because the SSD is the same size and shape as the computer`s hard drive it was relatively easy to replace the hard-disk drive with the SSD, said Yun Mini, a spokesperson for Samsung.
Benefits: Speed, Durability
The SSD technology has three major benefits over hard disks, said Yun. The first is that data access is faster. This could be seen when the SSD-based laptop was booted up alongside the same-model machine with a hard disk. The desktop appeared on the screen of the SSD laptop in about 18 seconds while the hard-drive-based computer took about 31 seconds to reach the same point.
The second advantage comes in durability. Because there are no moving parts in the SSD, it is much better at withstanding shock and much more unlikely that data will be lost if the laptop is dropped.
The third major advantage is that it works silently, said Yun.
Downside: Cost
But for all these advantages, there is a major hurdle that needs to be overcome before SSD can reach mass market: price. Flash memory costs around $30 per gigabyte; the memory needed for the 32GB SSD drive works out to about $960, before any other costs are taken into account.
Samsung thinks there are some military or industrial customers that have specialist applications that would benefit from the SSD and so might be more willing to pay a premium.
"At this moment it would be very expensive," said Yun, "but technology is moving very fast so in the near future it could be cheaper."
Prices for flash memory are coming down. In May last year, when Samsung first announced the technology, the flash memory price was about $55 per gigabyte. So it might just be a matter of time before such disks hit the mass market.
http://www.pcworld.com/resource/article/0,aid,125038,pg,1,RS…
Liebe Grüsse
Sandra4
Trading Spotlight
Ad Hoc: Monday, March 13, 2006
Samsung Shifts to 80nm Manufacturing Technology
Samsung said Monday it has launched mass production of memory chips using its own 80-nanometer manufacturing technology.
The 80-nanometer technology, first developed by Samsung Electronics in September 2003, boosts productivity about 50 percent compared to the 90-nano technology, the company said.
Fewer nanometers mean more semiconductors can be produced from each wafer.
By using the new process, Samsung Electronics said it will manufacture 512-megabyte double data rate (DDR) 2 dynamic random access memory (DRAM) chips.
In 2003, Samsung Electronics commenced production of chips using 100-nano technology for the first time in the world, followed by the 90-nano technology in 2004 and the current 80-nano technology, which were also the first of their kind, the company said.
http://www.cdrinfo.com/Sections/News/Details.aspx?NewsId=165…
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Zur Erinnerung:
Obducat tips nano-imprint for mass production
Mark LaPedus
EE Times
02/24/2006 10:12 AM EST)
SAN JOSE, Calif. — Obducat AB is quietly showing its next-generation, nano-imprint lithography machine for mass production.
The system from Obducat (Malmo, Sweden) is a 200-mm tool said to handle resolutions of 30-nm and below. Unlike its current manual systems, the new tool incorporates FOUPs for batch processing.
The tool has an overall throughput of 30 wafers an hour, said Ken Mason, business development manager for North America at Obducat.
It also includes what the company calls soft press and stamp protection technology. Shipments are due by year’s end, according to Mason.
Obducat, the leading supplier of nano-imprint tools in terms of installed base, is focusing more on non-semiconductor applications. Recently, for example, Obducat entered into an agreement with Samsung Electronics Co. Ltd. on the production of stamping machines for DVD optical discs. Obducat said it would drop other projects to pursue its opportunities with Samsung.
http://eetimes.com/news/semi/showArticle.jhtml;jsessionid=0E…
Liebe Grüsse
Sandra4
Samsung Shifts to 80nm Manufacturing Technology
Samsung said Monday it has launched mass production of memory chips using its own 80-nanometer manufacturing technology.
The 80-nanometer technology, first developed by Samsung Electronics in September 2003, boosts productivity about 50 percent compared to the 90-nano technology, the company said.
Fewer nanometers mean more semiconductors can be produced from each wafer.
By using the new process, Samsung Electronics said it will manufacture 512-megabyte double data rate (DDR) 2 dynamic random access memory (DRAM) chips.
In 2003, Samsung Electronics commenced production of chips using 100-nano technology for the first time in the world, followed by the 90-nano technology in 2004 and the current 80-nano technology, which were also the first of their kind, the company said.
http://www.cdrinfo.com/Sections/News/Details.aspx?NewsId=165…
.
.
.
.
Zur Erinnerung:
Obducat tips nano-imprint for mass production
Mark LaPedus
EE Times
02/24/2006 10:12 AM EST)
SAN JOSE, Calif. — Obducat AB is quietly showing its next-generation, nano-imprint lithography machine for mass production.
The system from Obducat (Malmo, Sweden) is a 200-mm tool said to handle resolutions of 30-nm and below. Unlike its current manual systems, the new tool incorporates FOUPs for batch processing.
The tool has an overall throughput of 30 wafers an hour, said Ken Mason, business development manager for North America at Obducat.
It also includes what the company calls soft press and stamp protection technology. Shipments are due by year’s end, according to Mason.
Obducat, the leading supplier of nano-imprint tools in terms of installed base, is focusing more on non-semiconductor applications. Recently, for example, Obducat entered into an agreement with Samsung Electronics Co. Ltd. on the production of stamping machines for DVD optical discs. Obducat said it would drop other projects to pursue its opportunities with Samsung.
http://eetimes.com/news/semi/showArticle.jhtml;jsessionid=0E…
Liebe Grüsse
Sandra4
[posting]20.666.283 von Sandra4 am 13.03.06 19:12:39[/posting]Danke dir !! War jetzt kurz nicht online, darum erst jetzt mein Dank!!!
Du leistest wirklich super Arbeit!! Ich bin begeistert!!
Gruß roline
Du leistest wirklich super Arbeit!! Ich bin begeistert!!
Gruß roline
Liebe Grüsse
Sandra4
[posting]20.666.283 von Sandra4 am 13.03.06 19:12:39[/posting]Liebe Sandra4,
ich kann nur immer wieder meinen Hut vor Dir ziehen und sage,
bezüglich Obducat, einfach nur: Sandra4president
Ganz, ganz liebe Grüße und bitte weiter so...
Mamueba
ich kann nur immer wieder meinen Hut vor Dir ziehen und sage,
bezüglich Obducat, einfach nur: Sandra4president
Ganz, ganz liebe Grüße und bitte weiter so...
Mamueba
Hallo Roline_1!
Zuerst klickst Du:
http://www.wallstreet-online.de/ws/community/board/search.ph…
In der 1. Zeile siehst Du:
OBDUCAT.......QUO VADIS ??? 2285
Baroni 13.03.06 18:54:50
dann einfach auf: klicken und Du rollst den Thread von hinten auf
Liebe Grüsse
Sandra4
Zuerst klickst Du:
http://www.wallstreet-online.de/ws/community/board/search.ph…
In der 1. Zeile siehst Du:
OBDUCAT.......QUO VADIS ??? 2285
Baroni 13.03.06 18:54:50 dann einfach auf:
klicken und Du rollst den Thread von hinten aufLiebe Grüsse
Sandra4
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