Network capacity planning

Abstract

Data representing application deployment attributes, network topology, and network performance attributes based on a reduced set of element attributes is utilized to simulate application deployment. The data may be received from a user directly, a program that models a network topology or application behavior, and a wizard that implies the data based on an interview process. The simulation may be based on application deployment attributes including application traffic pattern, application message sizes, network topology, and network performance attributes. The element attributes may be determined from a lookup table of element operating characteristics that may contain element maximum and minimum boundary operating values utilized to interpolate other operating conditions. Application response time may be derived using an iterative analysis based on multiple instances of one or more applications wherein a predetermined number of iterations is used or until a substantially steady state of network performance is achieved.

Description

[0001] This application claims the benefit of U.S. Provisional Patent Application No. 60 / 709,761, filed Aug. 19, 2005.BACKGROUND AND SUMMARY OF THE INVENTION [0002] The present system relates to the field of network capacity planning and particularly relates to a simplified system for determining an affect of application deployment on a network. [0003] A network is composed of a set of components, each with some associated behavior and properties. A simulation of such a network is a software program whose execution represents the network's components' properties and behavior. [0004] These simulations are often utilized to determine either an existing or planned network capacity. For example, the simulations may be utilized as a tool to determine how to resolve capacity issues in existing networks or as a tool to determine whether a planned network will have sufficient capacity. The elements of the simulation may be extracted from an existing network topology and / or may be modeled fr...

AI Technical Summary

Problems solved by technology

However, these network models often involve very complex network topology.

Simulation of transmission characteristics of a network are further complicated in that network behavior does not scale linearly with network traffic.

However, as the load increases, for example due to deployed application transactions, problems due to elements such as increased queuing delays, packet collision, buffer overflow, component delay, etc. impacts network performance in a way that is not directly scaleable based on behavior below these capacities.

In addition, the transmission control protocol (TCP) may also impact the application since TCP controls how data is sent onto the network.

Further, different applications may react differently to changes in the network, bringing even more complexity to the problem of determining how an application deployment will affect network and application performance.

These problems are particularly exacerbated when network load increases over numerous portions of the network simultaneously such as when a network wide application deployment or upgrade is implemented.

In these cases, typical performance characteristics are of little use to predict actual network and application performance.

Tools exist that enable modeling of real or anticipated network transmission characteristics however, network simulations often are very complex and require a tremendous amount of computing resources not to mention man hours to properly model and implement.

Images