Leakage takes priority at 65 nm
Richard Goering, EE Times
(01/16/2006 10:00 AM EST)
As the first reports on 65-nanometer design come in from the field, the good news is that there don't appear to be any problems at 65 nm that weren't there are 90. The bad news is that some of the problems that plagued 90 nm get much worse at the new node.
Designers who have completed 65-nm projects generally identify leakage current as the biggest problem, and they're turning to a variety of strategies to manage power, including multiple voltage thresholds and voltage "islands."
"Clearly the threshold leakage and gate leakage are getting significantly worse. New design techniques have to be adopted," said Dermot Barry, general manager for the system IC business unit at design services firm Silicon & Software Systems (S3).
Design-for-manufacturability (DFM) also becomes a bigger issue at 65 nm because process variations worsen, sources said. And signal integrity problems grow as wiring gets denser.
On the manufacturing side, resolution enhancement technology (RET) becomes more complex at 65 nm, said Peter Rickert, technology development manager at Texas Instruments Inc. And process variations have much more impact. "A plus/minus 1-nm variation is a much higher percentage at 65 nm, where we might be talking about a 40-nm gate length, vs. 50 or 60 at 90 nm," Rickert noted.
(01/16/2006 10:00 AM EST)
As the first reports on 65-nanometer design come in from the field, the good news is that there don't appear to be any problems at 65 nm that weren't there are 90. The bad news is that some of the problems that plagued 90 nm get much worse at the new node.
Designers who have completed 65-nm projects generally identify leakage current as the biggest problem, and they're turning to a variety of strategies to manage power, including multiple voltage thresholds and voltage "islands."
"Clearly the threshold leakage and gate leakage are getting significantly worse. New design techniques have to be adopted," said Dermot Barry, general manager for the system IC business unit at design services firm Silicon & Software Systems (S3).
Design-for-manufacturability (DFM) also becomes a bigger issue at 65 nm because process variations worsen, sources said. And signal integrity problems grow as wiring gets denser.
On the manufacturing side, resolution enhancement technology (RET) becomes more complex at 65 nm, said Peter Rickert, technology development manager at Texas Instruments Inc. And process variations have much more impact. "A plus/minus 1-nm variation is a much higher percentage at 65 nm, where we might be talking about a 40-nm gate length, vs. 50 or 60 at 90 nm," Rickert noted.
To read the full article, click here
Related Semiconductor IP
- Ultra Ethernet MAC & PCS 100G/200G/400G/800G
- Ethernet PCS 100G/200G/400G/800G/1.6T
- Ethernet MAC 100G/200G/400G/800G/1.6T
- Junction Over-Temperature Detector with Linear Centigrade-to-Voltage Output - X-FAB XT018
- Performance P570 Gen 3
Related News
- Dolphin Integration offers first standard cell library to enable a leakage reduction of 1/350 at 65 and 55 nm
- DOLPHIN Integration releases a ROM in 65 nm with Ultra high density and ultra low leakage
- Dolphin Integration announces its ultra low power, low leakage and High density 65 nm ROMs and RAMs
- Standard Cells reducing leakage 40 to 60 times at 90 and 65 nm from Dolphin Integration
Latest News
- SkyeChip Berhad Delivers 35.0% Net Profit Growth Ahead of Main Market Debut on 20 May 2026
- Quantum eMotion and JMEM TEK Sign Consortium Agreement to Accelerate Quantum-Resilient Semiconductor SoC Development
- Silvaco Announces Immediate Availability of Mixel MIPI C-PHY/D-PHY Combo IP on TSMC N2P Process
- BrainChip Strikes IP Licensing Deal with ASICLAND
- Arteris Technology Adopted by Li Auto for Intelligent Vehicles