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Modeling of temperature scenarios in a multicore processor system
E. Glocker,
D. Schmitt-Landsiedel
Medicine and Health
Technical University of Munich
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
Overview
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Keyphrases
Multicore Systems
100%
Multi-core Processor System
100%
Temperature Scenarios
100%
High Activity
50%
Material Parameters
50%
System-on-chip
50%
Operating Temperature
50%
Allocation Method
50%
System Energy
50%
Application Characteristics
50%
Temperature Variation
50%
Physical Condition
50%
Temperature Distribution
50%
Task Allocation
50%
Global Temperature
50%
Local Fluctuations
50%
Core Temperature
50%
System Temperature
50%
Power Scenario
50%
Reciprocal Influence
50%
Local Hotspot
50%
CMOS Integrated
50%
Package Type
50%
Engineering
Hot Spot
100%
Simulation Result
50%
Material Parameter
50%
Power Engineering
50%
Case Scenario
50%
System-on-Chip
50%
Global Temperature
50%
Core Temperature
50%
System Temperature
50%
Integrated System
50%
Operating Temperature
50%
Temperature Distribution
50%
Computer Science
Multicore System
100%
Hotspot
100%
Multicore Processor
100%
Integrated System
50%
Physical Condition
50%
System Temperature
50%
Core Temperature
50%
System-on-Chip
50%
Temperature Distribution
50%