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Open Access Publications from the University of California

Scholarly Works (2 results)

  • Thesis
  • Peer Reviewed
UC Santa Cruz Electronic Theses and Dissertations (2017)

Let \(V\) be a simple vertex operator algebra, and \(G\) a finite automorphism group of \(V\) such that \(V^G\) is regular. The definition of entries in \(S\)-matrix on \(V^G\) is discussed, and then is extended. The set of \(V^G\)-modules can be considered as a unitary space. In this paper, we obtain some connections between \(V\)-modules and \(V^G\)-modules over that unitary space. As an application, we determine the fusion rules for irreducible \(V^G\)-modules which occur as submodules of irreducible \(V\)-modules by the fusion rules for irreducible \(V\)-modules and by the structure of \(G\).

    Cover page: On \(S\)-matrix, and fusion rules for irreducible \(V^G\)-modules
    • Article
    • Peer Reviewed
    Technical Reports (2012)
    Power over-subscription can reduce costs for modern data centers. However, designing the power infrastructure for a lower operating power point than the aggregated peak power of all servers requires dynamic techniques to avoid high peak power costs and, even worse, tripping circuit breakers. This work presents an architecture for distributed per-server UPSs that stores energy during low activity periods and uses this energy during power spikes. This work advocates explicit sizing of the distributed UPS batteries for power capping and provides a methodology to properly select the properties of the battery in order to reduce total datacenter cost of ownership per server. Depending on workload diurnal patterns and oversubscription assumption this approach can achieve up 5-10% reduction in overall costs per server.

    Pre-2018 CSE ID: CS2012-0985

      Cover page: Battery Provisioning and Associated Costs for Data Center Power Capping
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