Key Big Data Challenges

Sixty-one percent of IT leaders expect spending on big data initiatives to increase, while only 5% expect decreases. The challenge: Finding the right big data talent to fulfill those initiatives, according to a recent survey.

Nearly 60% of the respondents are confident that their IT department can satisfy big data demands of the business and 14% are not confident.
"The data indicates current expectations of big data are still somewhat unrealistic due to market hype,”the report states. “Despite IT leaders expecting spending to increase, the confidence level in their department’s ability to meet big data demands in comparison to broader IT initiatives is lower.”


  
About two thirds of the IT executives rank big data architects as the most difficult role to fill. Data scientists (48%) and data modelers (43%) round out the top three most difficult positions to fill. More technical big data positions are ranked less difficult to fill.

Not by coincidence, big data companies are introducing online and face-to-face training programs and certifications for Hadoop and other related software platforms.
Still, other big data challenges remain. Variety—the dimension of big data dealing with the different forms of data—hinders organizations from deriving value from big data the most, according to 45% of those surveyed. Speed of data is next in terms of challenges, at 31%, followed by the amount of data, at 24%.

The application of big data is happening in a number of business areas, according to the study, with 81% of organizations viewing operations and fulfillment as priority areas within the next 12 months. This was followed by customer satisfaction (53%), business strategy (52%), governance/risk/compliance (51%) and sales/marketing (49%).
More than 200 IT leaders participated in the February 2015 survey.

ADDRESSING FIVE EMERGING CHALLENGES

 OF BIG DATA


Introduction - Big Data Challenges 
Challenge #1: Uncertainty of the Data Management Landscape 
Challenge #2: The Big Data Talent Gap 
Challenge #3: Getting Data into the Big Data Platform 
Challenge #4: Synchronization across the Data Sources 
Challenge #5: Getting Useful Information out of the Big Data Platform 
Considerations: What Risks Do These Challenges Really Pose? 
Conclusion: Addressing the Challenge with a Big Data Integration Strategy 


INTRODUCTION - BIG DATA CHALLENGES
Big data technologies are maturing to a point in which more organizations are prepared to pilot and adopt big data as a core component of the information management and analytics infrastructure. Big data, as a compendium of emerging disruptive tools and technologies, is positioned as the next great step in enabling integrated analytics in many common business scenarios.
As big data wends its inextricable way into the enterprise, information technology (IT) practitioners and business sponsors alike will bump up against a number of challenges that must be addressed before any big data program can be successful. Five of those challenges are:
1.     Uncertainty of the Data Management Landscape – There are many competing technologies, and within each technical area there are numerous rivals. Our first challenge is making the best choices while not introducing additional unknowns and risk to big data adoption.
2.     The Big Data Talent Gap – The excitement around big data applications seems to imply that there is a broad community of experts available to help in implementation. However, this is not yet the case, and the talent gap poses our second challenge.
3.     Getting Data into the Big Data Platform – The scale and variety of data to be absorbed into a big data environment can overwhelm the unprepared data practitioner, making data accessibility and integration our third challenge.
4.     Synchronization Across the Data Sources – As more data sets from diverse sources are incorporated into an analytical platform, the potential for time lags to impact data currency and consistency becomes our fourth challenge.
5.     Getting Useful Information out of the Big Data Platform – Lastly, using big data for different purposes ranging from storage augmentation to enabling high-performance analytics is impeded if the information cannot be adequately provisioned back within the other components of the enterprise information architecture, making big data syndication our fifth challenge.

In this paper, we examine these challenges and consider the requirements for tools to help address them. First, we discuss each of the challenges in greater detail, and then we look at understanding and then quantifying the risks of not addressing these issues. Finally, we explore how a strategy for data integration can be crafted to manage those risks.

CHALLENGE #1: UNCERTAINTY OF THE DATA MANAGEMENT LANDSCAPE
One disruptive facet of big data is the use of a variety of innovative data management frameworks whose designs are intended to support both operational and to a greater extent, analytical processing. These approaches are generally lumped into a category referred to as NoSQL (that is, “not only SQL”) frameworks that are differentiated from the conventional relational database management system paradigm in terms of storage model, data access methodology, and are largely designed to meet performance demands for big data applications (such as managing massive amounts of data and rapid response times).
There are a number of different NoSQL approaches. Some employ the paradigm of a document store that maintains a hierarchical object representation (using standard encoding methods such as XML, JSON, or BSON) associated with each managed data object or entity. Others are based on the concept of a key-value store that allows applications to associate values associated with varying attributes (as named “keys”) to be associated with each managed object in the data set, basically enabling a schema-less model. Graph databases maintain the interconnected relationships among different objects, simplifying social network analyses. And other paradigms are continuing to evolve.
The wide variety of NoSQL tools, developers and the status of the market are creating uncertainty within the data management landscape.
We are still in the relatively early stages of this evolution, with many competing approaches and companies. In fact, within each of these NoSQL categories, there are dozens of models being developed by a wide contingent of organizations, both commercial and non-commercial. Each approach is suited differently to key performance dimensions—some models provide great flexibility, others are eminently scalable in terms of performance while others support a wider range of functionality.

   
In other words, the wide variety of NoSQL tools developers and the status of the market lend a great degree of uncertainty to the data management landscape. Choosing a NoSQL tool can be difficult, but committing to the wrong core data management technology can prove to be a costly error if the selected vendor’s tool does not live up to expectations, the vendor company fails, or if third-party application development tends to adopt different data management schemes. For any organization seeking to institute big data, this challenge is to propose a means for your organization to select NoSQL alternatives while mitigating the technology risk.


CHALLENGE #2: THE BIG DATA TALENT GAP

It is difficult to peruse the analyst and high-tech media without being bombarded with content touting the value of big data analytics and corresponding reliance on a wide variety of disruptive technologies. These new tools range from traditional relational database tools with alternative data layouts designed to increased access speed while decreasing the storage footprint, in-memory analytics, NoSQL data management frameworks, as well as the broad Hadoop ecosystem.

There is a growing community of application developers who are increasing their knowledge of tools like those comprising the Hadoop ecosystem. That being said, despite the promotion of these big data technologies, the reality is that there is not a wealth of skills in the market. The typical expert, though, has gained experience through tool implementation and its use as a programming model, rather than the data management aspects. That suggests that many big data tools experts remain somewhat naïve when it comes to the practical aspects of data modeling, data architecture, and data integration. And in turn, this can lead to less-then-successful implementations whose performance is negatively impacted by issues related to data accessibility.

And the talent gap is real—consider these statistics: According to analyst firm McKinsey & Company, “By 2018, the United States alone could face a shortage of 140,000 to 190,000 people with deep analytical skills as well as 1.5 million managers and analysts with the know-how to use the analysis of big data to make effective decisions.”2 And in a report from 2012, “Gartner analysts predicted that by 2015, 4.4 million IT jobs globally will be created to support big data with 1.9 million of those jobs in the United States. … However, while the jobs will be created, there is no assurance that there will be employees to fill those positions.”


NoSQL and other innovative data management options are predicted to grow in 2015 and beyond.
The big data talent gap is real. Consider this statistic: “By 2018, the US alone could face a shortage of 140,000 to 190,000 people with deep analytical skills as well as 1.5 million managers and analysts with the know-how to use the analysis of big data to make effective decisions.”

 There is no doubt that as more data practitioners become engaged, the talent gap will eventually close. But when developers are not adept at addressing these fundamental data architecture and data management challenges, the ability to achieve and maintain a competitive edge through technology adoption will be severely impaired. In essence, for an organization seeking to deploy a big data framework, the challenge lies in ensuring a level of the usability for the big data ecosystem as the proper expertise is brought on board.


CHALLENGE #3: GETTING DATA INTO THE BIG DATA PLATFORM



It might seem obvious that the intent of a big data program involves processing or analyzing massive amounts of data. Yet while many people have raised expectations regarding analyzing massive data sets sitting in a big data platform, they may not be aware of the complexity of facilitating the access, transmission, and delivery of data from the numerous sources and then loading those various data sets into the big data platform.
The impulse toward establishing the ability to manage and analyze data sets of potentially gargantuan size can overshadow the practical steps needed to seamlessly provision data to the big data environment. The intricate aspects of data access, movement, and loading are only part of the challenge. The need to navigate extraction and transformation is not limited to structured conventional relational data sets. Analysts increasingly want to import older mainframe data sets (in VSAM files or IMS structures, for example) and at the same time want to absorb meaningful representations of objects and concepts refined out of different types of unstructured data sources such as emails, texts, tweets, images, graphics, audio files, and videos, all accompanied by their corresponding metadata.
An additional challenge is navigating the response time expectations for loading data into the platform. Trying to squeeze massive data volumes through “data pipes” of limited bandwidth will both degrade performance and may even impact data currency. This actually implies two challenges for any organization starting a big data program. The first involves both cataloging the numerous data source types expected to be incorporated into the analytical framework and ensuring that there are methods for universal data accessibility, while the second is to understand the performance expectations and ensure that the tools and infrastructure can handle the volume transfers in a timely manner.

CHALLENGE #4: SYNCHRONIZATION ACROSS THE DATA SOURCES
Once you have figured out how to get data into the big data platform, you begin to realize that data copies migrated from different sources on different schedules and at different rates can rapidly get out of synchronization with the originating systems. There are different aspects of synchrony. From a data currency perspective, synchrony implies that the data coming from one source is not out of date with data coming from another source. From a semantics perspective, synchronization implies commonality of data concepts, definitions, metadata, and the like.
With conventional data marts and data warehouses, sequences of data extractions, transformations, and migrations all provide situations in which there is a risk for information to become unsynchronized. But as the data volumes explode and the speed at which updates are expected to be made, ensuring the level of governance typically applied for conventional data management environments becomes much more difficult.
The inability to ensure synchrony for big data poses the risk of analyses that use inconsistent or potentially even invalid information. If inconsistent data in a conventional data warehouse poses a risk of forwarding faulty analytical results to downstream information consumers, allowing more rampant inconsistencies and asynchrony in a big data environment can have a much more disastrous effect.
Many people may not be aware of the complexity of facilitating the access, transmission, and delivery of data from the numerous sources and then loading those data sets into the big data platform.
The inability to ensure synchrony for big data poses the risk of analyses that use inconsistent or potentially even invalid information.


CHALLENGE #5: GETTING USEFUL INFORMATION OUT OF THE BIG DATA PLATFORM


Most of the most practical uses cases for big data involve data availability: augmenting existing data storage as well as providing access to end-users employing business intelligence tools for the purpose of data discovery. These BI tools not only must be able to connect to one or more big data platforms, they must provide transparency to the data consumers to reduce or eliminate the need for custom coding. At the same time, as the number of data consumers grows, we can anticipate a need to support a rapidly expanding collection of many simultaneous user accesses. That demand may spike at different times or the day or in reaction to different aspects of business process cycles. Ensuring right-time data availability to the community of data consumers becomes a critical success factor.
This frames our fifth and final challenge: enabling a means of making data accessible to the different types of downstream applications in a way that is seamless and transparent to the consuming applications while elastically supporting demand.
CONSIDERATIONS: WHAT RISKS DO THESE CHALLENGES REALLY POSE?
Considering the business impacts of these challenges suggests some serious risks to successfully deploying a big data program. In Table 1, we reflect on the impacts of our challenges and corresponding risks to success.

Challenge
Impact
Risk
Uncertainty of the market land­scape
Difficulty in choosing technology components
Vendor lock-in
Committing to failing product or failing vendor
Big data talent gap
Steep learning curve
Extended time for design, development, and implementation
Delayed time to value
Big data loading
Increased cycle time for analytical platform data population
Inability to actualize the program due to unmanageable data latencies
Synchronization
Data that is inconsistent or out of date
Flawed decisions based on flawed data
Big data accessibility
Increased complexity in syndicating data to end-user discovery tools
Inability to appropriately satisfy the growing community of data consumers