Paper Info
Title
Dynamic Power Management of Voltage-Frequency Island Partitioned Networks-on-Chip using Intel Sing-Chip Cloud Computer
Abstract
Continuous technology scaling has enabled the integration of multiple cores on the same chip. To overcome the disadvantages of buses, the Network-on-Chip (NoC) architecture has been proposed as a new communication paradigm. To further mitigate the tradeoff between performance and power consumption, dynamic voltage and frequency scaling (DVFS) became the de facto approach in multi-core design. DVFS-based NoC communication was implemented in Intel's most recent Singlechip Cloud Computer (SCC). Using the SCC we demonstrate a power management algorithm that runs in real time and dynamically adjusts the performance of the islands to reduce power consumption while maintaining the same level of performance.
Year
DOI
Venue
2011
10.1145/1999946.1999989
NOCS '11 Proceedings of the Fifth ACM/IEEE International Symposium on Networks-on-Chip
Keywords
Field
DocType
frequency scaling,intel sing-chip cloud computer,voltage-frequency island partitioned networks-on-chip,dynamic voltage,new communication paradigm,dvfs-based noc communication,multiple core,multi-core design,power consumption,real time,dynamic power management,power management algorithm,continuous technology scaling,chip,network on chip,integrated circuit design,multicore,single chip cloud computer,cloud computing
Dynamic voltage scaling,Power management,Computer science,Parallel computing,Network on a chip,Real-time computing,Chip,Dynamic frequency scaling,Frequency scaling,Multi-core processor,Embedded system,Single-chip Cloud Computer
Conference
Citations 
PageRank 
References 
14
0.66
2
Authors
4
Name
Order
Citations
PageRank
Radu David1140.66
Paul Bogdan269548.66
Radu Marculescu34366267.69
Ümit Y. Ogras420315.03