TSMC Announces Nexsys 90 Nanometer Volume Production; Breaks Power and Performance Barriers, Provides Complete Design Environment
HSINCHU, Taiwan & SAN JOSE, Calif.—(BUSINESS WIRE)—Dec. 29, 2004—
Taiwan Semiconductor Manufacturing
Company(NYSE:TSM)(TSE:2330) said today that its Nexsys(SM) 90
nanometer (nm) process continues a volume production ramp that will
accelerate dramatically throughout 2005. TSMC's Nexsys 90nm is the
only foundry process at that node to feature copper interconnect,
low-k dielectrics, and 12-inch wafer production as standard.
TSMC is already delivering 90nm products to industry-leading
companies such as Altera Corp. and QUALCOMM, Inc., as well as multiple
integrated device manufacturers (IDMs) around the world. The company
states that it has reached several thousand 300mm wafers per month
production level using Nexsys 90nm technology in the fourth quarter of
2004 and will ramp to higher volumes throughout 2005.
TSMC began 90nm volume production in the third quarter of 2004
following the successful delivery of numerous customer chips in
first-pass silicon. The company anticipates that near 40
single-product mask sets will tape out in 2004 and that 30 more
products will tape out on mask-sharing Cybershuttle wafers before
year's end. Among these products, close to ten have entered production
stage and many others are either in qualification or design
verification.
"TSMC expects that 90nm demand will increase at a rapid pace in
2005, across a range of applications in consumer, communications, PC
and industrial markets," said Dr. Genda Hu, vice president of
marketing for TSMC. To support this strong demand, TSMC is preparing a
major capacity expansion, and an aggressive ramp of 90nm technology in
Fab 12 and Fab 14 during 2005.
"Our customers are designing to the 90nm Nexsys technology for a
variety of reasons, including higher density and smaller chip size,
faster performance, battery-saving lower power consumption, and lower
die cost that is further enhanced by our 300mm production," continued
Dr. Hu. The Nexsys 90nm process has matured with very competitive
defect density and process control. The TSMC DFM (Design for
Manufacturing) offerings can help customers to reduce the time to
volume production.
"Altera's ramp of the 90nm process is going extremely well and we
are on track to have all six members of our Stratix II FPGA family
verified for production by the end of the year," said Francois
Gregoire, vice president of Technology at Altera Corporation. "This
smooth ramp is the result of three years of intense partnership,
during which the design and process teams have worked closely together
to solve all critical issues; including 'design for
manufacturability,' low-k, power management, and performance
optimization. The end result of this partnership is that Stratix II is
unrivaled in terms of density and performance, and yields are better
than any previous technology at the same stage."
The Nexsys 90nm process provides a 2-times gate density
improvement, 35 percent faster speed, 60 percent improvement in active
power savings and a 20 percent interconnect RC improvement versus
TSMC's 0.13-micron process, based on a general-purpose ring
oscillator.
About TSMC's Nexsys 90nm Process
TSMC's Nexsys 90nm process is a full system-on-chip platform
providing both CMOS logic and mixed-signal options with embedded
high-density memories including 1TRAM 6TRAM, and 8TRAM. In addition,
the new technology features multiple transistor types for improved
power/speed/leakage tradeoffs.
The Nexsys 90nm logic family includes the high-volume general
purpose (G) "G" process as well as low power (LP) and high-speed (GT)
options. Each supports multiple Vt options including low, standard,
and high. Operating voltage is 1-1.2V; the I/O voltages range from 1.8
to 3.3V, depending on family member. SRAM memory densities range from
1.65-micron(2) to 0.99-micron(2).
TSMC's Nexsys process is supported by the industry's most
extensive portfolio of validated, process-proven libraries, including
standard cells, SRAM, I/O and specialty libraries. Libraries come from
Artisan, Nurlogic, Synopsys, Virage Logic and TSMC. TSMC libraries are
distributed by Artisan, Cadence, Magma, Synopsys and Virage Logic.
The Nexsys process is also backed by TSMC Reference Flow 5.0, the
industry's first reference flow providing critical power closure and
integrated chip-to-package design for nanometer system-on-chip (SoC)
integrated circuits. Building on the powerful dual-track methodology,
which was built around major electronic design automation (EDA)
developers Cadence Design Systems and Synopsys, Inc. and introduced in
Reference Flow 4.0, the new reference flow includes significant new
power management, design-for-test, design-for-manufacturing, flip-chip
design capabilities, and the first integrated chip-to-package design
capabilities. In addition to Synopsys and Cadence, Reference Flow 5.0
includes specialty tools from Mentor Graphics Corp., and newly
introduced EDA partners Apache Design Solutions, Atrenta Inc., and
Optimal Corp.
TSMC's Nexsys 90nm technology is currently running in TSMC Fab 12
Phase I and will also be deployed in TSMC Fab 12 Phase II and TSMC Fab
14 as those 300mm production facilities ramp to production.
About TSMC
TSMC is the world's largest dedicated semiconductor foundry,
providing the industry's leading process technology and the foundry
industry's largest portfolio of process-proven library, IP, design
tools and reference flows. The company operates two advanced 300mm
wafer fabs, five eight-inch fabs and one six-inch wafer fab. TSMC also
has substantial capacity commitments at joint ventures fab SSMC and at
its wholly-owned subsidiary, WaferTech. In early 2001, TSMC became the
first IC manufacturer to announce a 90nm technology alignment program
with its customers. TSMC's corporate headquarters are in Hsinchu,
Taiwan. For more information about TSMC see http://www.tsmc.com.
Contact:
TSMC North America
Dan Holden, 408-382-7921 or 408-910-1141 (Cell)
Dholden@tsmc.com
