Interconnect and Thermal-aware Floorplanning for 3D Microprocessors

Interconnects are becoming an increasing problem from both performance and power consumption perspective in future technology nodes. The introduction of 3D chip architectures, with their intrinsic capability of reducing wire length, is one of the promising solutions to mitigate the interconnect prob...

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Bibliographic Details
Main Authors: Hung, W.-L., Link, G. M., Xie, Yuan, Vijaykrishnan, N., Irwin, M. J.
Format: Conference Proceeding
Language:English
Subjects:
Capacitance
Computer architecture
Computer systems organization > Architectures > Parallel architectures > Interconnection architectures
Computer systems organization > Dependable and fault-tolerant systems and networks
Degradation
Energy consumption
General and reference > Cross-computing tools and techniques > Performance
Hardware > Integrated circuits > Interconnect
Integrated circuit interconnections
Integrated circuit technology
Microprocessors
Networks > Network performance evaluation
Repeaters
Temperature
Wires
Online Access:Request full text
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Summary:Interconnects are becoming an increasing problem from both performance and power consumption perspective in future technology nodes. The introduction of 3D chip architectures, with their intrinsic capability of reducing wire length, is one of the promising solutions to mitigate the interconnect problem. While interconnect power consumption reduces due to the adoption of 3D designs, the stacking of multiple active layers leads to higher power densities. Thus, high peak temperatures are of major concern in 3D designs. Consequently, we present a thermal-aware floorplanner for 3D architectures. In contrast to most prior work, our floorplanner considers the interconnect power consumption in exploring a thermal-aware floorplan. Our results show that excluding interconnect power can result in peak temperatures being underestimated by as much as 15oC in 90nm technology. Finally, we demonstrate that our floorplanner is effective in lowering peak temperatures using a microprocessor design and four MCNC designs as benchmarks.
ISSN:1948-3287
1948-3295
DOI:10.1109/ISQED.2006.77