Intel has said on multiple occasions that its 45nm process
is on track for
production 2007. In fact, Intel began sampling its Penryn
45nm chips just several weeks ago. At the IEDM, IBM and AMD described three
technologies that hope to compete with Intel’s 45nm development: the use of
immersion lithography, which AMD says will “deliver enhanced microprocessor
design definition and manufacturing consistency,” ultra-low-K interconnect
dielectrics to enhance performance-per-watt ratio and multiple enhanced
transistor strain techniques.
Current process technologies use conventional lithography,
which has significant limitations in defining microprocessor designs beyond the
technology generation. Immersion lithography uses a projection lens filled with
purified water as part of the step-and-repeat lithography -- think of the same
principles applied to immersion microscopy.
Immersion lithography provides increased flow of light, depth of focus and improved image
fidelity that can improve chip-level performance and manufacturing efficiency. For
example, the performance of an SRAM cell shows improvements of approximately 15
percent due to this enhanced process capability, without resorting to more
costly double-exposure techniques.
In addition, AMD and IBM say that the use of porous,
ultra-low-K dielectrics reduces interconnect capacitance, wiring delay, as well
as lowering power dissipation. This advance is enabled through the development
of an ultra-low-K process integration that reduces the dielectric constant of
the interconnect dielectric while maintaining the mechanical strength. The
addition of ultra-low-K interconnect provides a 15 percent reduction in
wiring-related delay as compared to conventional low-K dielectrics.
In spite of the increased packing density of the 45nm
generation transistors, IBM and AMD demonstrated multiple enhanced transistor
strain techniques that give an 80 per cent increase in p-channel transistor
drive current and a 24 per cent increase in n-channel transistor drive current
compared to unstrained transistors. The companies claim that their achievement
results in the highest CMOS performance reported to date in a 45nm process
In November 2005, AMD and IBM announced an extension of
their joint development efforts until 2011 covering 32nm and 22nm process
technology generations. AMD and IBM expect the first 45nm products using
immersion lithography and ultra-low-K interconnect dielectrics to be available
quote: Intel is supposed to meet Q307, which, even if AMD makes this goal, 6-9 months behind
quote: For half of that 26 month period, AMD was still proclaiming it was "on track", though they clearly weren't
quote: Intel demoed 45nm chips a year ago
quote: AMD wanted 65nm in 2005 aswell
quote: Only reason AMD can say 56nm for 2006 is due to a paperlaunch, else it would be 2007
quote: Oh, and I forgot to add. Intel ships 45nm CPUs in Q3 2007
quote: 11/27/2006: According to the director of Intel, the company is on-track to produce Penryn in volumes and ship them to customers in the second half of 2007 .
quote: Fab 36 was initially planned to be 65nm right from the start
quote: Early 2005, AMD was claiming it would begin 65nm processing that year, and deliver early 2006
quote: AMD opened its new chip making foundry, Fab 36, in Dresden, Germany yesterday with much fanfare. The new facility is intended to be a centerpiece of the company's growth and expansion. The foundry produces 300mm wafers using 90nm technology, but will support fabrication processes as thin as 32nm. Initial plans were for Fab 36 to produce 65nm wafers upon opening, but those plans had since changed ....
quote: When an AMD VP stands up and says they will "close the process gap" with Intel at 65nm, its hard to forget
quote: Well, you can always claim Intel was misquoted...that's a hard thing to prove or disprove now though. However, I've seen several quotes from Intel execs claiming delivery in late 2007
quote: AMD and IBM said the terms of their agreement would allow them to use the jointly-developed process technologies to manufacture products in their own chip fabrication facilities and in conjunction with selected manufacturing partners. The companies expect first products based on the new 65nm technologies to appear in 2005 ...