Why Flash Alone Won’t Close the App-Data Gap

Why Flash Alone Won’t Close the App-Data Gap

Why Flash Alone Won’t Close the App-Data Gap

We live in an era of high-speed wireless, flash storage and cloud computing on tap. But it doesn’t always feel that way, does it? The spinning ball on your desktop, the query that takes hours to run—IT delays are still a fact of life.

That’s one of the reasons for the surge of interest in flash storage. IDC recently reported that the total all flash-based storage market generated $955.4 million in revenue during the fourth quarter of 2015, up 71.9 percent year over year. But anyone expecting flash alone to solve their performance problems is in for a disappointment. New research shows that slow storage is just one reason for delays between data requests and data delivery—a phenomenon known as the app-data gap. The full explanation lies deeper in the data center.

The app-data gap is real, to be sure. A recent study found that application delays cost U.S. companies as much as $7.5 billion a year. Of the 3,000 IT professionals surveyed, nearly half said they lose more than 10 percent of their workdays waiting for software to load. More than 40 percent of business users say they avoid using certain applications at work because they run too slowly.

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The problems created by the app-data gap are real as well. The gap disrupts data delivery, degrades worker productivity, creates customer dissatisfaction and damages a company’s overall speed of business and reputation. But the source of the gap is hard to pin down. Slow storage usually takes the blame. But another recent study, which examined operations at thousands of different data centers, found that only 46 percent of all application delays could be attributed to slow storage.

The greater culprit is growing data center complexity, with its multiple layers of networks, servers, storage, hypervisors, operating systems and applications. The study shows that a full 37 percent of application delays have to do with problems in configuration and interoperability. Another 15 percent relates to problems having to do with compute, virtualization and best practices.

Flash storage can take you a long way. But it leaves more than half the problem untouched—which is the harder bit to fix. Even IT experts can’t predict where problems deep in the data center are going to crop up. Luckily, machine learning can.

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To close the app-data gap, IT organizations need to leverage predictive analytics that harness data gathered from thousands of sensors across every piece of the data center. This enables them to:

– Identify poor performance before users are affected. Machine learning can be used to identify high-performing environments across an organization’s data center, creating a baseline to be used for identifying poor performance and automatically providing actionable insight.

– Minimize or eliminate the effects of an issue.


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