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Sun Opens Doors to Next-Generation Technology
*Sun Opens Doors to Next-Generation Technology*
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The article from InfoWorld, Paul Krill; April 26, 2007
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http://www.infoworld.com/article/07/04/26/HNsunopenhouse_1.html
Sun Microsystems opened up its labs Thursday, spotlighting projects in
areas ranging from wire-free chip-to-chip communications to Web 2.0
security.
The Sun Labs Open House at Sun facilities in Menlo Park, Calif.,
featured presentations and demonstrations on technologies still in
development. One room even featured a slot car track embedded with
real-time Java sensor technology.
Fostering communications between different Sun engineers is one intent
of the open house, although customers, press, and students could be
found roaming the different Sun buildings to check out exhibits and
presentations.
"One of our constant efforts is technology transfer, which is getting
other people at Sun to understand what we're doing," so plans can be
formulated based on what each group is up to, said Robert Sproull, vice
president and Sun fellow at Sun Microsystems Laboratories.
The open house extends to Friday but only for Sun employees. The agenda
for Friday features a presentation on Project Flair, a project focused
on Web development.
One project drawing a lot of attention Thursday, Proximity
Communication, seeks to overcome limitations of Moore's Law. This famed
principle stipulates that the number of transistors per chip doubles
every 24 months at the same level of investment. In development for
several years now, Proximity Communication involves placing silicon
parts close to each other and transmitting signals between them sans wires.
This can increase bandwidth, make chips replaceable, and enable smaller
chips, according to Sun. But there still are challenges, such as heat
dissipation, said Robert Drost, director and distinguished engineer in
Sun Labs. "[The project] has a very high risk and high reward," he said.
Proximity Communication represents major progress if Sun can pull it
off, according to analyst Nathan Brookwood, founder of Insight64.
"Today, trying to build a system out of multiple chips really imposes
tremendous performance constraints," Brookwood said. "If they can
achieve this, if they can take several chips and make them behave like
one large chip from an electrical and signal timing perspective, then
that's a huge step forward."
Doing so would save power and enable the building of much larger caches,
for example, Brookwood said.
Sun officials differed on when Proximity Communication technology might
actually arrive in products. Drost would not comment on when this might
happen except to say there would be some "packaging-type announcements"
in the next year. But Sproull said it would be years, not months, before
Proximity Communication would be in products.
"We haven’t even gotten the first prototype working," he said.
Sun's SPARC CPU platform is a likely destination for Proximity
Communication. "You would get the most value out of this in something
like a SPARC processor," Drost said.
The Web 2.0 security project, meanwhile, would provide server-to-user
and user-to-server authentication, unlike SSL, which is limited to
authenticating a user to a server. "If you really want to spread
stronger trust models, especially in the e-commerce world, it would be
very nice to have mutual authentication," Sproull said.
Another effort, Project Squawk, is intended to produce a small Java
virtual machine. Squawk would extend Java down to
microcontroller-powered devices, which run on as little as 8K of flash
memory and 1K of RAM. Even a toaster is a possible destination. The VM
runs in the absence of an OS.
"Today, we're able to run Java on fairly large servers down to
workstations and phones. I would like to see Java running on
microcontrollers," said Eric Arseneau, a Sun principal investigator.
With Squawk running on multiple varieties of microcontrollers, embedded
application developers could be provided with a uniform set of tools to
build applications regardless of which microcontroller is present,
Arseneau said. The intention is to offer Squawk technology via open
source, he said.
Among the other projects on display, many of which have been detailed
before, were:
* Fortress, a high-performance computing language intended as a Fortran
replacement
* DReaM, which is Sun's digital rights management initiative
* SPOTs (Small Programmable Object Technology), providing
Java-programmable wireless sensors
* Celeste, presenting a new model for massively scalable storage
* Project Pulsar, which ports the embedded OpenSolaris OS to the PowerPC
platform
* MPK20, providing a Sun virtual workplace and featuring collaboration
and 3D capabilities. It is more of a gaming environment, Sproull said.
* Project Live, for system virtualization
* Sedna, presenting a next-generation switch
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Posted at 08:47AM Apr 27, 2007 by G S Hiregoudar in General |