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SizeCap: Efficiently handling power surges in fuel cell powered data centers
2016
2016 IEEE International Symposium on High Performance Computer Architecture (HPCA)
Preserved Fulltext
We propose SizeCap, the first ESD sizing framework for fuel cell powered data centers, which coordinates ESD sizing with power capping to enable a cost-effective solution to power shortfalls in data centers ...
Fuel cells are a promising power source for future data centers, offering high energy efficiency, low greenhouse gas emissions, and high reliability. ...
Sanggyu Kang for helpful discussions on power system modeling. This work is supported by the NSF (award 1320531) and Microsoft Corporation. ...
doi:10.1109/hpca.2016.7446085
dblp:conf/hpca/LiWGLGJPSAM16
fatcat:pjw7ujz34zb5db4s46ncaa5utq
Techniques for Efficiently Handling Power Surges in Fuel Cell Powered Data Centers: Modeling, Analysis, Results
[article]
2018
arXiv
pre-print
Preserved Fulltext
A copy of this work was available on the public web and has been preserved in the Wayback Machine. The capture dates from 2020; you can also visit the original URL.
The file type is application/pdf.
We propose SizeCap, the first ESD sizing framework for fuel cell powered data centers, which coordinates ESD sizing with power capping to enable a cost-effective solution to power shortfalls in data centers ...
Fuel cells are a promising power source for future data centers, offering high energy efficiency, low greenhouse gas emissions, and high reliability. ...
Sanggyu Kang for helpful discussions on power system modeling. This work is supported by the NSF (award 1320531) and Microsoft Corporation. ...
arXiv:1806.04506v1
fatcat:u2nhvvvg5fae7pj2sugdkvclwe