Micron today announced the industry’s first 2Gb DDR3 component. Micron’s newest DRAM innovation is the highest density DDR3 component available on the market. By using 2Gb components, Micron can enable 8GB and 16GB modules for servers and 4GB modules for desktop and notebook PCs, which are the industry’s highest density DDR3 modules available. This increase in memory density is ideal for optimizing today’s memory intensive operating systems. Micron is now sampling modules based on its 2Gb DDR3 component for server, desktop and notebook applications. Commercial availability for the product is planned for the first quarter of 2008.

Building on its heritage of innovation in DRAM technology, Micron Technology,
Inc., today announced the industry’s first 2 gigabit (Gb) double data rate (DDR)
3 component. Micron’s newest DRAM innovation is the highest density DDR3
component available on the market.

By using 2Gb components, Micron can enable 8 gigabyte (GB) and 16GB modules for
servers and 4GB modules for desktop and notebook PCs, which are the industry’s
highest density DDR3 modules available. This increase in memory density is ideal
for optimizing today’s memory intensive operating systems. Micron is now
sampling modules based on its 2Gb DDR3 component for server, desktop and
notebook applications. Commercial availability for the product is planned for
the first quarter of 2008.

“The graphic intensive features and functionalities designed into today’s new
operating systems are requiring more and more memory to perform at optimal
levels,” said Shane Rau, program director for computing, networking and storage
semiconductors at IDC. “IDC forecasts that, by the fourth quarter of 2008, the
average desktop PC will contain nearly 2.1GBs of DRAM, the average mobile PC
over 1.8GBs, and the average x86 server over 11.2GBs.”

Micron’s 78 nanometer (nm) 2Gb DDR3 memory technology provides increased speeds
of up to 1333 megabits per second (Mbps), enabling better system and graphics
performance, which provides for a more interactive user experience. For example,
when operating at peak performance, DDR3 can transfer a 100,000-page document in
approximately one second. And by reducing supply voltage from 1.8 volts to 1.5
volts, Micron’s 2Gb DDR3 provides a 20-30 percent memory power savings when
compared to DDR2 technology. Further memory power savings can also be realized
by using fewer components on a module, approximately 40 to 50 percent depending
on module form factor. Reduced memory power consumption can save money on
cooling costs in data center server systems and prolong battery life in notebook
applications.

“Just as we led the market last year with the introduction of our 1Gb DDR3
component, we are leading the market yet again with our new 2Gb component,” said
Brian Shirley, vice president of Micron’s memory group. “As power consumption
continues to be a top concern in the technology industry, Micron remains the
leader in the energy-efficient memory movement. It’s important that we show
customers opportunities for them to reduce memory power consumption. In addition
to the reduced core voltage of DDR3, our new 2Gb component allows customers to
lower their overall system memory power consumption by using less chips on a
module.”