WHITE PAPER:
This paper will explore the changing networking environment and how this new design approach helps organizations improve business and technology performance while minimizing investment risk.
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 will discuss both hard and soft QoS techniques including 802.1P, IP Precedence, Differentiated Services, Resource Reservation Protocol (RSVP) and ATM specific priority resources.
WHITE PAPER:
Converged services are being deployed extensively in enterprises to take advantage of the advances in IP-based voice, data and video service offerings.
WHITE PAPER:
This paper explains why and how to apply static analysis tools in the context of a policy-based security process that not only prevents security vulnerabilities, but also focuses on SDLC productivity.
WHITE PAPER:
SoIP providers can no longer ignore the harsh business reality of providing a fixed-income service while accommodating ever-growing monitoring demands. Read this paper to learn how Data Access Network (DAN) has emerged as the "Best Practice" data access and network monitoring architecture for cost-effective DPI monitoring.
WHITE PAPER:
This white paper highlights the 5 major factors that affects call quality, and offers a solution for these issues to ensure a top quality call experience.
WHITE PAPER:
This white paper describes the innovative approach introduced by the Cisco MDS 9000 Family to support an end-to-end virtualized SAN environment that is flexible, secure, scalable, and mobile.
WHITE PAPER:
This document describes the innovative approach introduced by the Cisco MDS 9000 Family to support an end-to-end virtualized SAN environment that is flexible, secure, scalable, and mobile.
WHITE PAPER:
In this white paper, we are going to discuss the application of QoS to networks with media flows installed within them, such as voice and video. We'll see that it is very unnatural for voice to even exist on a data network, because it was never designed to do so.