Few areas in IT get less attention than storage.
In the past, if you needed more storage, you simply ordered it. After all, storage was cheap. Now in the days of cloud computing, you simply provision for more.
However, taking a commodity approach to storage doesn’t address the key storage issues that come with big data. With unstructured big data now comprising 80% of corporate data, and with data overall continuing to double worldwide every two years, how do you store and manage all of this data? See below for five ideas.
SEE: IT leader’s guide to big data security (Tech Pro Research)
1. Plan what goes where
Not all unstructured data is used every day. Other data is accessed often and continuously. When large files of unstructured data such as videos and images are in demand, more processing and throughput is required to get them to users. Consequently, storage professionals must decide how to tier this data. Does it get placed in rapid access, solid state memory to afford users immediate access or in mid-level media such as hard drives that provide a medium level of data retrieval? Maybe it should be stored on tape or very slow hard drives that are known as cold storage and are only used for data that is sparingly accessed, or not at all? Storage professionals, with the help of storage automation technologies, must consider and make these type of decisions.
2. Decide what stays and what goes
It’s important to ask: What big data stays on premises and what goes to the cloud? And if you need to aggregate this data for purposes of analytics, how do you coordinate secure data integration and transfers between all of these data sources?
Storage professionals need to get involved in several ways. First, they need to lay out a storage architecture that is both on premises and in the cloud. In doing so, they must take into account frequency of data access; and whether accessing the cloud introduces too much latency, making high-demand data transfers impractical.
SEE: Quick glossary: Storage (Tech Pro Research)
3. Choose your data
Initially, companies kept every big data payload, because they were concerned about regulatory pressures or a requirement to do a future e-discovery. Individuals in legal, security, or in other user departments normally make these decisions, but it is still incumbent on storage managers to orchestrate a storage architecture to fulfill these requirements. Along with this, decisions need to be made on which data to discard, and when.
4. Plan for disaster recovery
Disaster recovery isn’t what it used to be. Today, you not only worry about the systems and data that you manage in your data center—but you worry about what goes on in the cloud, too. If you’re using a SaaS (software as a service) vendor, for example, what if the vendor subcontracts to another vendor for its cloud services? If something happens to the data you store at the third party’s data center, what do you do since you won’t have much leverage? There is also the issue of big data that is collected at the edges of your enterprise. If you’re managing storage at remote sites as well as in your data center put security, backup, and failover procedures in place.
SEE: Research: Cloud vs. data center adoption rates, usage, and migration plans (Tech Pro Research)
5. Collaborate with security
Storage managers benefit when they collaborate with security managers for data safekeeping. Five years ago, this job was easier. You simply secured your storage inside the data center. Now, appropriate data safekeeping and storage policies and procedures need to be worked out with cloud vendors for your remote data. And if you’ve got local data being collected on shop room floors or in your marketing department, both the virtual security of the data and the physical security of storage hardware needs to be addressed.
Mary E. Shacklett is president of Transworld Data, a technology research and market development firm. Prior to founding the company, Mary was Senior Vice President of Marketing and Technology at TCCU, Inc., a financial services firm; Vice President of Product Research and Software Development for Summit Information Systems, a computer software company; and Vice President of Strategic Planning and Technology at FSI International, a multinational manufacturing company in the semiconductor industry. Mary is a keynote speaker and has more than 1,000 articles, research studies, and technology publications in print.