WHITE PAPER:
In this white paper, you will discover an innovative unified storage switch that provides a comprehensive platform and modular design that supports leading edge networking protocols – enabling IT organizations to converge LAN and SAN throughput in high I/O, virtualized environments.
WHITE PAPER:
This whitepaper discloses the results of an evaluation of end-to-end storage area network/local area network (SAN/LAN) networking issues including Fibre Channel over Ethernet (FCoE) adoption.
WHITE PAPER:
This exclusive paper examines a virtual network solution that offers a low-cost, efficient, and centrally-managed virtual network specifically designed for the enterprise LAN and WAN edge network deployment.
WHITE PAPER:
This whitepaper discusses what can be the weakest link in many video applications cabling infrastructure. Learn how media conversion can be an economical and effective means to convert to the cabling medium of your choice.
WHITE PAPER:
High-performance businesses demand a high-performance network infrastructure that provides fast, secure and reliable delivery of the applications that drive the business. Switches deployed in regional offices, campuses and data centers enable these business processes by connecting users.
WHITE PAPER:
This paper explains how Oracle Real Application Clusters (RAC) allows Oracle Database to run any packaged or custom application, unchanged across a set of clustered events.
WHITE PAPER:
Discover how implementing a Unified Fabric can reduce costs and improve the alignment of data center assets to better fulfill business requirements.
WHITE PAPER:
This whitepaper first describes the test environment and the methodology used and then it provides detailed descriptions of the various scalability test results.
WHITE PAPER:
Branch office solutions based upon converged infrastructure can deliver higher levels of security to ensure data protection and prevent costly, damaging breaches. Read this set of documents to learn more about servers, storage and network resources can be safely shared without inhibiting system response and availability.