Devices must function despite defects, says panel
Dylan McGrath, EE Times
(11/08/2005 7:59 PM EST)
SAN JOSE, Calif. — Major changes to design philosophy are need at sub-90-nanometer nodes to accommodate the shrinking number of atoms on each transistor, according to a Monday evening (Nov. 7) panel discussion at the International Conference on Computer Aided Design here.
The six panelists, mostly from academia, proposed radical ideas — including the creation of design tools with artificial intelligence (AI) — for dealing with the less reliable components resulting from the shrinking number of atoms and increase in complexity created by the growing number of transistors.
As the number of atoms in a transistor decreases, effects caused by variation in threshold voltage due to the number and placement of dopants as well as failures created during manufacturing become more pronounced.
Panelists, as well as the moderator, Seth Copen Goldstein of Carnegie Mellon University, agreed that faulty components would be unavoidable and that a successful design will need to account for this.
"We need to build processors that work despite having a large fraction of their transistors in some faulty state at any given time," said Josep Torrellas, a professor in the department of computer science at the University of Illinois at Urbana-Champaign, who suggested that this percentage could be 1-5 percent, or higher.
(11/08/2005 7:59 PM EST)
SAN JOSE, Calif. — Major changes to design philosophy are need at sub-90-nanometer nodes to accommodate the shrinking number of atoms on each transistor, according to a Monday evening (Nov. 7) panel discussion at the International Conference on Computer Aided Design here.
The six panelists, mostly from academia, proposed radical ideas — including the creation of design tools with artificial intelligence (AI) — for dealing with the less reliable components resulting from the shrinking number of atoms and increase in complexity created by the growing number of transistors.
As the number of atoms in a transistor decreases, effects caused by variation in threshold voltage due to the number and placement of dopants as well as failures created during manufacturing become more pronounced.
Panelists, as well as the moderator, Seth Copen Goldstein of Carnegie Mellon University, agreed that faulty components would be unavoidable and that a successful design will need to account for this.
"We need to build processors that work despite having a large fraction of their transistors in some faulty state at any given time," said Josep Torrellas, a professor in the department of computer science at the University of Illinois at Urbana-Champaign, who suggested that this percentage could be 1-5 percent, or higher.
To read the full article, click here
Related Semiconductor IP
- 1.6T Ultra Ethernet Controller
- Chiplet Die-to-Die Interconnect IP Solution
- High speed MACsec Engine 100G/200G/400G/800G/1.6T
- Temperature/Voltage sensors
- AMBA Bus Host to eSPI Controller/Target
Related News
- Veriest Solutions and CEVA develop functional safety verification methodology for automotive devices
- Panel debates value of mixed-signal design tools
- DAC panel fingers embedded design needs
- Panel probes SoC problems, solutions
Latest News
- Alliance for Open Media Releases AV2 Codec, Advancing Next-Generation Open Video Coding
- VeriSilicon Drives Commercial Adoption of AV2 Across Next-Generation Video and Streaming Applications
- Cadence Announces Collaboration with Intel Foundry to Accelerate Intel 14A Process Optimization for HPC and Mobile Designs
- Menta and Presto Engineering Announce Strategic Collaboration to Accelerate Adaptive ASIC Architectures with Embedded FPGA Technology
- MIPI A-PHY To Power Industry’s First Four-Company Automotive SerDes Interoperability Demonstration at AutoSens USA