242 research outputs found
MAINTENANCE AND POWER SAVINGS IN LARGE MULTIPLANE DATA CENTER FABRICS
Within a Data Center (DC) environment network upgrades are often challenging and may consume significant amounts of time and network administrator resources. Additionally, DC networks tend to consume large amounts of energy and dissipate considerable amounts of heat that can be challenging to evacuate in densely populated fabrics. To address these challenges techniques are presented herein that support, possibly among other things, the construction of a network model; the use of Machine Learning (ML) to predict low and high load periods and, in low periods, determining the ratio of resources that may be taken offline; updating the equal-cost multi-path (ECMP) rules in the leaves to avoid selected planes so as to take the full plane spine and super-spine nodes offline; and upgrading one of the super-spine nodes and then one of the spine nodes to ensure that there is always a rollback path in case of a problem. If the upgrading is successful, the techniques may include proceeding to upgrade all of the super-spine nodes and all of the spine nodes
MULTICAST OPERATIONS, ADMINISTRATION, AND MANAGEMENT (OAM) TECHNIQUES UTILIZING PROTOCOL INDEPENDENT MULTICAST (PIM) FLOODING MECHANISMS
Multicast networks are often complex and to provide a visualization of traffic flows within a multicast network often involves the full knowledge of a distribution tree for the network. Further, isolating problems within a multicast network can involve tracing of multiple nodes across the distribution tree. Techniques presented provide efficient multicast tree discovery through Protocol Independent Multicast (PIM) flooding mechanisms, which can be further used to facilitate network visualizations and fault isolation within a network
Neottiospora curcumæ sp. Nov.
This article does not have an abstract
Tuning Catalytic Activity and Selectivity in Photocatalysis on Dielectric Cuprous Oxide Particles
Dye degradation has been for more than forty years in the scientific
community. All these studies have primarily focused on breaking various dyes
using catalysts driven by either light or heat. Most studies started to focus
on metal-oxides after the discovery of water-splitting by TiO2. Among the many
catalysts used plasmonic metal nanostructures have been explored significantly
in recent times due to their special property called localized surface plasmon
resonances (LSPR). However, facing multiple problems of heat losses and
instability, people started to focus on dielectric medium-to-high refractive
indexed materials for photonic applications. Most of these dielectric materials
have been studied from a physics point of view and less from chemistry. In this
work, we have focused on how these materials can be used for tuning selectivity
through wavelength-dependent studies by performing methylene blue (MB) dye
degradation.Comment: Main draft & SI - 15 page
The life-history of Puccinia blepharidis P. Henn.
The life-history of P. blepharidis was worked out. Pycnia, æcia and telia are produced. Uredia have been omitted in the life-cycle. The æciospores function as the repeating spores. Pycnia develop when infection is through basidiospores. It is felt that P. makenensis and P. boerhaaviœfoliĹ“ recorded on the same host should be merged with P. blepharidis
Additions to fungi of Madras-XVI
This article does not have an abstract
HITLESS GRACEFUL INSERTION AND REMOVAL OF A ROUTER/SWITCH IN HIGHLY RELIABLE MULTICAST NETWORKS
Currently, the support for graceful insertion and removal (GIR) within a Protocol-Independent Multicast (PIM) environment is limited. As a result, there is no mechanism today that allows for a soft migration of flows when, for example, planning for a maintenance window. Techniques are presented herein that support a hitless upgrade capability that avoids impacting any flow during the upgrade and reload of a spine switch. This is the most difficult task today for customer networks, where multicast flows run all of the time and no disruption is acceptable. Aspects of the presented techniques include a new PIM hello message type-length-value (TLV) option. Such an option may be referred to herein as a progressive graceful insertion and removal (PGIR) capability option
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