Assuring user experience is big data job #1. This should be the top priority among big data projects for enterprises and cloud service providers. Megatrends such as mobile, cloud and social drive the need for application awareness via better visibility and control.
With survey after survey showing availability as the #1 priority, spending on user experience, also known as application performance management (APM), is expected to remain strong. However, only solutions that cover the entire application delivery chain from the end-user experience perspective will suffice.
This means visibility that extends from behind the corporate firewall out to the cloud, implying an end-to-end view from user devices back through the tiers of data center infrastructure. The “point of delivery”, which is where the user accesses a composite application, is the only perspective from which user experience should be addressed.
Cloud and Mobile ROI Drive User Experience
Cloud architectures – public, private or hybrid – beget complexity. Projects such as cloud computing, server and desktop virtualization and data center consolidation are undertaken for the perceived returns on investment (ROI) they can deliver. However, while one of the major benefits of virtualization was supposed to break down silos in IT, it actually created another management silo.
The majority of virtualization management tools focus on capacity planning, utilization and availability metrics. Most do not provide insights into how the user experience will be impacted if something changes in a virtualized environment. Without assuring user experience, lower costs and productivity gains become unattainable.
Another reason why user experience assurance must be a priority is the link between application performance and revenue generation. Studies have shown that slower end-user experience results in fewer page views, which in turn reduces the probability of completing the sales cycle, or transaction. Hence, transaction completion is the critical metric for successful business execution.
The adoption of agile practices implies changes to code on a much more frequent basis. This requires more visibility into the web browser given how applications are being developed. The typical web application today has a lot of content and third-party services. Many of these components are beyond the control of the IT organization.
For example, consider an online retail application comprising numerous functions derived from within the data center as well as external third-party services, such as a shopping cart, preference engine and ad networks. The average website connects as many as 10 hosts before ultimately being served to the end user.
While extensive third-party functions can enrich the online experience, they can also create performance risks. If any one component fails, it can degrade the performance of an application or an entire website. In addition, many third-party cloud services are opaque, providing little visibility into the overall health of the compute infrastructure.
With more processing occurring closer to the end-user on the user device or on the browser itself mandates better visibility inside the browser. Monitoring network traffic, database and servers does not provide visibility into how the browser affects user experience. Poor performance anywhere along the application delivery chain will negatively impact user experience. This includes cloud service providers, regional and local ISPs, content delivery networks, browsers and devices.
The Answer is Analytics
Transactions tracing and predictive analytics are the most important trends driving the market, and will soon be considered table stakes for any serious APM vendor. Transaction tracing goes beyond real-time monitoring to provide a more unified view into different components of the application delivery chain. Meanwhile, analytics is improving with new tools that can correlate thousands of metrics and identify patterns that provide early warning signs of impending trouble.
Analytics can help reduce time being spent on correlating and normalizing data from different sources. This includes information collected by different tools that monitor users, servers, mainframes and synthetic transactions. It also includes tools that are being deployed independent of IT. Deep-dive diagnostics also allows IT organizations to be more proactive by pinpointing the source of problems before calls to the help desk occur or before a visitor departs a website.
As such, the most relevant metric for any IT organization is not about infrastructure utilization. Instead, it is at what point of utilization the user experience begins to degrade. Being able to centrally store, manage and analyze this data provides a more accurate picture into user experience.
Amid a do-more-with-less budget environment and more pressure on IT to justify resource allocations, CIOs can strengthen their role in the strategic planning process by having intelligence about revenue-generating transactions, customer interactions and usage consumption patterns that drive improved business outcomes. Analytics should now be at the top of any CIO’s list. All the talk about realizing ROI on big data investments will also go for naught with inferior user experience.
Over the next few years, expect user experience assurance to become a feeder to, and a subset of, BI/analytics. In fact, it should be big data project #1. To ease the technology and vendor selection process, IT operations teams should define the use cases, application types, pain points and underlying technology to perform ROI analyses. For vendors, making the deployment process easier – from the adds, drops, and changes perspective – can open up new opportunities by solving the ROI equation.