By Barclay T. Blair
The business case for information governance (IG) programs has historically been difficult to justify. It is hard to apply a strict, short-term return on investment (ROI) calculation. A lot of time, effort, and expense is involved before true economic benefits can be realized. So a commitment to the long view and an understanding of the many areas where an organization will improve as a result of a successful IG program are needed. But the bottom line is that reducing exposure to business risk, improving the quality and security of data and e-documents, cutting out unneeded stored information, and streamlining information technology (IT) development while focusing on business results add up to better organizational health and viability and, ultimately, an improved bottom line.
Let us take a step back and examine the major issues affecting information costing and calculating the real cost of holding information, consider Big Data and e-discovery ramifications, and introduce some new concepts that may help frame information costing issues differently for business managers. Getting a good handle on the true cost of information is essential to governing it properly, shifting resources to higher-value information, and discarding information that has no discernible business value and carries inherent, avoidable risks.
The information environment is changing. Data volumes are growing, but unstructured information (such as e-mail, word processing documents, social media posts) is growing faster than our ability to manage it. Some unstructured information has more structure than others containing some identifiable metadata (e.g., e-mail messages all have a header, subject line, time/date stamp, and message body). This is often termed as semistructured information, but for purposes of this book, we use the term “unstructured information” to include semistructured information as well.
The volume of unstructured information is growing dramatically. Analysts estimate that, over the next decade, the amount of data worldwide will grow by 44 times (from .8 zettabytes to 35 zettabytes: 1 zettabyte = 1 trillion gigabytes).1 However, the volume of unstructured information will actually grow 50 percent faster than structured data. Analysts also estimate that fully 90 percent of unstructured information will require formal governance and management by 2020. In other words, the problem of unstructured IG is growing faster than the problem of data volume itself.
The problem of unstructured IG is growing faster than the problem of data volume itself.
What makes unstructured information so challenging? There are several factors, including
Taken together, these factors reveal a simple truth: Managing unstructured information is a separate and distinct discipline from managing databases. It requires different methods and tools. Moreover, determining the costs and benefits of owning and managing unstructured information is a unique—but critical—challenge.
The governance of unstructured information creates enormous complexity and risk for business managers to consider while making it difficult for organizations to generate real value from all this information. Despite the looming crisis, most organizations have limited ability to quantify the real cost of owning and managing unstructured information. Determining the total cost of owning unstructured information is an essential precursor to managing and monetizing that information while cutting information costs—key steps in driving profit for the enterprise.
Storing things is cheap … I've tended to take the attitude, “Don't throw electronic things away.”
—Data scientist quoted in Anne Eisenberg, “What 23 Years of E-Mail May Say About You,” New York Times, April 7, 2012
The company spent $900,000 to produce an amount of data that would consume less than one-quarter of the available capacity of an ordinary DVD.
—Nicholas M. Pace and Laura Zakaras, “Where the Money Goes: Understanding Litigant Expenditures for Producing Electronic Discovery,” RAND Institute for Civil Justice, 2012
We are not very good at figuring out what information costs—truly costs. Many organizations act as if storage is an infinitely renewable resource and the only cost of information. But, somehow, enterprise storage spending rises each year and IT support costs rise, even as the root commodity (disk drives) grows ever cheaper and denser. Obviously, they are not considering labor and overhead costs incurred with managing information, and the additional knowledge worker time wasted sifting through mountains of information to find what they need.
Some of this myopic focus on disk storage cost is simple ignorance. The executive who concludes that a terabyte costs less than a nice meal at a restaurant after browsing storage drives on the shelves of a favorite big-box retailer on the weekend is of little help.
Rising information storage costs cannot be dismissed. Each year the billions that organizations worldwide spend on storage grows, even though the cost of a hard drive is less than 1 percent of what it was about a decade ago. We have treated storage as a resource that has no cost to the organization outside of the initial capital outlay and basic operational costs. This is shortsighted and outdated.
Some of the reason that managers and executives have difficulty comprehending the true cost of information is old-fashioned miscommunication. IT departments do not see (or pay for) the full cost of e-discovery and litigation. Even when IT “partners” with litigators, what IT learn rarely drives strategic IT decisions. Conversely, law departments (and outside firms) rarely own and pay for the IT consequences of their litigation strategies. It is as if when the litigation fire needs to be put out, nobody calculates the cost of gasoline and water for the fire trucks.
But calculating the cost of information—especially information that does not sit neatly in the rows and columns of enterprise database “systems of record”—is complex. It is more art than science. And it is more politics than art. There is no Aristotelian Golden Mean for information.
The true cost of mismanaging information is much more profound than simply calculating storage unit costs. It is the cost of opportunity lost—the lost benefit of information that is disorganized, created and then forgotten, cast aside and left to rot. It is the cost of information that cannot be brought to market. Organizations that realize this, and invest in managing and leveraging their unstructured information, will be the winners of the next decade.
Most organizations own vast pools of information that is effectively “dark”: They do not know what it is, where it is, who is responsible for managing it, or whether it is an asset or a liability. It is not classified, indexed, or managed according to the organization's own policies. It sits in shared drives, mobile devices, abandoned content systems, single-purpose cloud repositories, legacy systems, and outdated archives.
And when the light is finally flicked on for the first time by an intensive hunt for information during e-discovery, this dark information can turn out to be a liability. An e-mail message about “paying off fat people who are a little afraid of some silly lung problem” might seem innocent—until it is placed in front of a jury as evidence that a drug company did not care that its diet drug was allegedly killing people.2
The importance of understanding the total cost of owning unstructured information is growing. We are at the beginning of a “seismic economic shift” in the information landscape, one that promises to not only “reinvent society,” (according to an MIT data scientist) but also to create “the new oil … a new asset class touching all aspects of society.”3
We are entering the epoch of Big Data—an era of Internet-scale enterprise infrastructure, powerful analytical tools, and massive data sets from which we can potentially wring profound new insights about business, society, and ourselves. It is an epoch that, according to the consulting firm McKinsey, promises to save the European Union public sector billions of euros, increase retailer margins by 60 percent, and reduce U.S. national health care spending by 8 percent, while creating hundreds of thousands of jobs.4 Sounds great, right?
However, the early days of this epoch are unfolding in almost total ignorance of the true cost of information. In the near nirvana contemplated by some Big Data proponents, all data is good, and more data is better. Yet it would be an exaggeration to say that there is no awareness of potential Big Data downsides. A recent study by the Pew Research Center was positive overall but did note concerns about privacy, social control, misinformation, civil rights abuses, and the possibility of simply being overwhelmed by the deluge of information.5
Smart leaders across industries will see using big data for what it is: a management revolution.
—Andrew McAfee and Erik Brynjolfsson, “Big Data: The Management Revolution,” Harvard Business Review (October 2012)
But the real-world burdens of managing, protecting, searching, classifying, retaining, producing, and migrating unstructured information are foreign to many Big Data cheerleaders. This may be because the Big Data hype cycle6 is not yet in the “trough of disillusionment” where the reality of corporate culture and complex legal requirements sets in. But set in it will, and when it does, the demand for intelligent analysis of costs and benefits will be high.
IG professionals must be ready for these new challenges and opportunities—ready with new models for thinking about unstructured information. Models that calculate the risks of keeping too much of the wrong information as well as the benefits of clean, reliable, and accessible pools of the right information. Models that drive desirable behavior in the enterprise, and position organizations to succeed on the “next frontier for innovation, competition, and productivity.”7
It is difficult for organizations to make educated decisions about unstructured information without knowing its full cost. Models like total cost of ownership (TCO) and ROI are designed for this purpose and have much in common with full cost accounting (FCA) models. FCA seeks to create a complete picture of costs that includes past, future, direct, and indirect costs rather than direct cash outlays alone.
FCA has been used for many purposes, including the decidedly earthbound task of determining what it costs to take out the garbage and the loftier task of calculating how much the International Space Station really costs. A closely related concept, often called triple bottom line, has gained traction in the world of environmental accounting, positing that organizations must take into account societal and environmental costs as well as monetary costs.
The U.S. Environmental Protection Agency promotes the use of FCA for municipal waste management, and several states have adopted laws requiring its use. It is fascinating—and no accident—that this accounting model has been widely used to calculate the full cost of managing an unwanted by-product of modern life. The analogy to outdated, duplicate, and unmanaged unstructured information is clear.
Applying the principles of FCA to information can increase cost transparency and drive better management decisions. In municipal garbage systems where citizens do not see a separate bill for taking out the garbage, it is more difficult to get new spending on waste management approved.8 Without visibility into the true cost, how can citizens—or CEOs—make informed decisions?
IG professionals must be ready with new models that calculate the risks of storing too much of the wrong information and also the benefits of clean, reliable, accessible information.
Organizations can learn from accounting models used by cities to calculate the total cost of managing municipal waste and apply them to the IG problem.
Responsible, innovative managers and executives should investigate FCA models for calculating the total cost of owning unstructured information. Consider costs such as:
Any system designed to calculate the cost or benefit of a business strategy is inherently political. That is, it is an argument designed to convince an audience. Well-known models like TCO and ROI are primarily decision tools designed to help organizations predict the economic consequences of a decision. While there are certainly objective truths about the information environment, human decision making is a complex and imperfect process. There are plenty of excellent guides on how to create a standard TCO or ROI. That is not our purpose here. Rather, we want to inspire creative thinking about how to calculate the cost of owning unstructured information and help organizations minimize the risk—and maximize the value—of unstructured information.
Any economic model for calculating the cost of unstructured information depends on reliable facts. But facts can be hard to come by. A client recently went in search of an accurate number for the annual cost per terabyte of Tier 1 storage in her company. The company's storage environment was completely outsourced, leading her to believe that the number would be transparent and easy to find. However, after days spent poring over the massive contract, she was no closer to the truth. Although there was a line item for storage costs, the true costs were buried in “complexity fees” and other opaque terms.
Organizations need tools that help them establish facts about their unstructured information environment. The business case for better management depends on these facts. Look for tools that can help you:
Unstructured information is ubiquitous. It is typically not the product of a single-purpose business application. It often has no clearly defined owner. It is endlessly duplicated and transmitted across the organization. Determining where and how unstructured information generates cost is difficult.
However, doing so is possible. Our research shows that at least 10 key factors that drive the total cost of owning unstructured information. These 10 factors identify where organizations typically spend money throughout the life cycle of managing unstructured information. These factors are listed in Figure 7.1, along with examples of elements that typically increase cost (“Cost Drivers,” on the left side) and elements that typically reduce costs (“Cost Reducers,” on the right side).
Source: Barclay T. Blair
At its peak during World War II, the Brooklyn Navy Yard had 70,000 people coming to work every day. The site was once America's premier shipbuilding facility, building the steam-powered Ohio in 1820 and the aircraft carrier USS Independence in the 1950s. But the site fell apart after it was decommissioned in the 1960s. Today, an “Admiral's Row” of Second Empire–style mansions once occupied by naval officers are an extraordinary sight, with gnarled oak trees pushing through the rotting mansard roofs.12
Seventy percent of managers and executives say data are “extremely important” for creating competitive advantage. “The key, of course, is knowing which data matter, who within a company needs them, and finding ways to get that data into users' hands.”
—The Economist Intelligence Unit, “Levelling the Playing Field: How Companies Use Data to Create Advantage” (January 2011)
However, after decades of decay, the Navy Yard is being reborn as the home of hundreds of businesses—from major movie studios to artisanal whisky makers—taking advantage of abundant space and a desirable location. There were three phases in the yard's rebirth:
Most organizations face a similar problem. However, our Navy Yards are the vast piles of unstructured information that were created with little thought to how and when the pile might go away. They are records management programs built for a different era—like an automobile with a metal dashboard, six ashtrays, and no seat belts. Our Navy Yards are information environments no longer fit for purpose in the Big Data era, overwhelmed by volume and complexity.
We are doing a bad job at managing information. McKinsey estimates that in some circumstances, companies are using up to 80 percent of their infrastructure to store duplicate data.13 Nearly half of respondents in a survey ViaLumina recently conducted said that at least 50 percent of the information in their organization is duplicate, outdated, or unnecessary.14 We can do better.
We should put the Navy Yard's blueprint to work, first by identifying our piles of rotting unstructured information. Duplicate information. Information that has not been accessed in years. Information that no longer supports a business process and has little value. Information that we have no legal obligation to keep. The economics of such “defensible deletion” projects can be compelling simply on the basis of recovering the storage space and thus reallocating capital that would have been spent on the annual storage purchase.
Cleaning up the Navy Yard is only the first step. We cannot repeat the past mistakes. We avoid this by building and maintaining an IG program that establishes our information constitution (why), laws (what), and regulations (how). We need a corporate governance, compliance, and audit plan that gives the program teeth, and a technology infrastructure that makes it real. It must be a defensible program to ensure we comply with the law and manage regulatory risk.
IG is a means to an end, and that end is value creation. IG also mitigates risk and drives down cost. But extracting value is the key. Although monetization and value creation often are associated with structured data, new tools and techniques create exciting new opportunities for value creation from unstructured information.
For example, what if an organization could use sophisticated analytics on the email account of their top salesperson (the more years of e-mail the better), look for markers of success, then train and hire salespeople based on that template? What is the pattern of a salesperson's communications with customers and prospects in her territory? What is the substance of the communications? What is the tone? When do successful salespeople communicate? How are the patterns different between successful deals and failed deals? What knowledge and insight resides in the thousands of messages and gigabytes of content? The tools and techniques of Big Data applied to e-mail can bring powerful business insights. However, we have to know what questions to ask. According to Computerworld, “the hardest part of using big data is trying to get business people to sit down and define what they want out of the huge amount of unstructured and semi-structured data that is available to enterprises these days.”15
Key steps in driving information value are: (1) clean; (2) build and maintain; and (3) monetize.
Source: Barclay T. Blair
The analytics challenges of Big Data create opportunities. For example, McKinsey predicts that demand for “deep analytical talent in the United States could be 50 to 60 percent greater than its projected supply by 2018.” A chief reason for this gap is that “this type of talent is difficult to produce, taking years of training in the case of someone with intrinsic mathematical abilities.” However, the more profound opportunity is for the “1.5 million extra additional managers and analysts in the United States who can ask the right questions and consume the results of the analysis of big data effectively.”16
Some companies are using analytics to set prices. For example, the largest distributor of heating oil in the United States sets prices on the fly, based on commodity prices and customer retention risks.17 In a case that caught the attention of morning news shows, with breathless headlines like “Are Mac Users Paying More?” an online travel company revealed that “Mac users are 40 percent more likely to book four or five-star hotels … compared to PC users.”18 Despite the headlines, the company was not charging Mac users more. Rather, computer brand was a variable used to determine which products were highlighted.
The path to information value is not necessarily linear. Different parts of your business may achieve maturity at different rates, driven by the unique risks and opportunities of the information they possess.
The best models for calculating the total cost of owning unstructured are those that information professionals can use to challenge and change organizational culture. Much of the unstructured information that represents the greatest cost and risk to organizations is created, communicated, and managed directly by employees—that is, by human beings. As such, better IG relies in part on improving the way those human beings use and manage information.
The “information calorie” and “information cap-and-trade,” explored next, are two new models designed to help with the challenge of governing information.
The Western world is suffering from an embarrassment of riches when it comes to calories. The calorie has been weaponized in the form of tasty, cheap, and fast food loaded with sugar and fat. Even a cup of “coffee” can contain as much as 800 calories.19 We have gotten very, very good at maximizing available calories, at a staggering cost: $190 billion per year in additional medical spending as a result of obesity in the United States, greater than the cost of smoking.20
Governments are taking action. A new national health care law in the United States requires restaurant chains to disclose calorie counts for the food they sell by 2013, building on similar state laws.21 Calories are not inherently bad. We would literally die without them. But too many calories make us sick.
The analogy to information is clear. Information is the “lifeblood” of our organizations and is central to our survival. But too much unmanaged unstructured information leaves us fat, slow, and coughing and wheezing at the back of the pack.
In 2012, New York City initially passed a controversial law limiting the size of soft drinks that can be sold at movie theaters and convenience stores (later challenged in court). The “Bloomberg soda ban” was based on the premise that humans need help making good choices. There is some basis for this approach, with studies showing that, for example, the size of the candy scoop determines how much free candy we eat.22 Under the new law, it was still possible in New York to buy two smaller cups of soda, but it was hoped that inconvenience (and cost) will reduce overconsumption.
A new study … examined consumer behavior before and after calorie counts were posted, and determined that when restaurants post calories on menu boards, there is a reduction in calories per transaction.
—Bryan Bollinger, Phillip Leslie, Alan Sorensen, “Calorie Posting in Chain Restaurants,” Stanford University, January 2010
Thinking about information as calories at your organization can improve awareness of its costs and drive change. The goal is not to add friction to desirable behaviors, like collaboration and mobile work, but rather to make it more difficult to create and consume empty information calories.
Here are some tips to get started:
Originally designed as a regulatory approach for fighting acid rain in the 1980s, cap-and-trade has gained new attention as a method of curbing carbon emissions. Cap-and-trade systems differ from command-and-control regulatory approaches that mandate, rather than economically encourage, a course of action. In other words, rather than forcing companies to install scrubbers on power plant exhausts (command and control), cap-and-trade provides companies with an emissions quota, which they can hit as they see fit, and even profit from. Companies with unused room on their quota can sell those “credits” on specialized markets.
Consider a cap-and-trade system for information. Do not limit the creation and storage of useful information—that defeats the purpose of investing in IT in the first place. Rather, design a cap-and-trade system that controls the amount of information pollution and rewards innovation and management discipline.
While there is no objective “right amount” of information for every organization or department, we can certainly do better than “as much as you want, junk or not.” After all, “nearly all sectors in the US economy had at least an average of 200 terabytes of stored data … and many sectors had more than 1 petabyte in mean stored data per company.”23 Moreover, up to 50 percent of that information is easily identifiable as data pollution.24 So, we have a reasonable starting point.
Here are some tips for creating an information cap-and-trade system:
“There's not a person in a business anywhere who gets up in the morning and says, ‘Gee, I want to race into the office to follow some regulation.’ On the other hand, if you say, ‘There's an upside potential here, you're going to make money,’ people do get up early and do drive hard around the possibility of finding themselves winners on this.”
—Dan Etsy, environmental policy professor at Yale University, quoted in Richard Conniff, “The Political History of Cap and Trade,” Smithsonian Magazine (August 2009)
When an organization is IG enabled, or “IG mature”—meaning IG is infused into operations throughout the enterprise and coordinated on an organization-wide level—it will look significantly different from most organizations today. Not only will the organization have a solid handle on the total cost of information; not only will it have shifted resources to capitalize on the opportunities of Big Data; not only will it be managing the deluge in a systematic, business-oriented way by cutting out data debris and leveraging information value; it will also look significantly different in key operational areas including legal, records and information management (RIM), and IT.
In legal matters, the mature IG-enabled organization will be better suited to address litigation in a more efficient way through a standardized legal hold notification (LHN) process. Legal risk is reduced through improved IG, which will manage information privacy in accordance with applicable laws and regulations. During litigation, your legal team will be able to sort through information more rapidly and efficiently, improving your legal posture, cutting e-discovery costs, and allowing for attorney time to be focused on strategy and to zero in on key issues. This means attorneys should have the technology tools to be more effective. Adherence to retention schedules means that records and documents can be discarded at the earliest possible time, which reduces the chances that some information could pose a legal risk. Hard costs can be saved by eliminating that approximately 69 percent of stored information that no longer has business value. That cost savings may be the primary rationale for the initial IG program effort. By leveraging advanced technologies such as predictive coding, the organization can reduce the costs of e-discovery and better utilize attorney time.
Your RIM functions will operate with more efficiency and in compliance with laws and regulations. Appropriate retention periods will be applied and enforced, and authentic, original copies of business records will be easily identifiable, so that managers are using current and accurate information on which to base their decisions. Over the long term, valuable information from projects, product development, marketing programs, and strategic initiatives will be retained in corporate memory, reducing the impact of turnover and providing distilled information and knowledge to contribute to a knowledge management (KM) program. KM programs can facilitate innovation in organizations, as a knowledge base is built, retained, expanded, and leveraged.
In your IT operations, a focus on how IT can contribute to business objectives will bring about a new perspective. Using more of a business lens to view IT projects will help IT to contribute toward the achievement of business objectives. IT will be working more closely with legal, RIM, risk, and other business units, which should help these groups to have their needs and issues better addressed by IT solutions. Having a standardized data governance program in place means cleaning up corrupted or duplicated data and providing users with clean, accurate data as a basis for line-of-business software applications and for decision support analytics in business intelligence (BI) applications. Better data is the basis for improved insights, which can be gained by leveraging BI and will improve management decision-making capabilities and help to provide better customer service, which can impact customer retention. It costs a lot more to gain a new customer than to retain an existing one, and with better data quality, the opportunities to cross-sell and upsell customers are improved. This can provide a sustainable competitive advantage. Standardizing the use of business terms will facilitate improved communications between IT and other business units, which should lead to improved software applications that address user needs. Adhering to information life cycle management principles will help the organization to apply the proper level of IT resources to its high-value information while decreasing costs by managing information of declining value appropriately. IT effectiveness and efficiency will be improved by using IT frameworks and standards, such as CobiT 5 and ISO/IEC 38500:2008, the international standard that provides high-level principles and guidance for senior executives and directors, and those advising them, for the effective and efficient governance of IT.25 Implementing a master data management program will help larger organizations with complex IT operations to ensure that they are working with consistent data from a single source. Improved database security through data masking, database activity monitoring, database auditing, and other tools will help guard the organization's critical databases against the risk of rogue attacks by hackers. Deploying document life cycle security tools such as data loss prevention and information rights management will help secure your confidential information assets and keep them from prying eyes. This helps to secure the organization's competitive position and protect its valuable intellectual property.
By securing your electronic documents and data, not only within the organization but also for mobile use, and by monitoring and complying with applicable privacy laws, your confidential information assets will be safeguarded, your brand will be better protected, and your employees will be able to be productive without sacrificing the security of your information assets.
We are not very good at figuring out what unstructured information costs. The Big Data deluge is upon us. If we hope to manage—and, more important, to monetize—this deluge, we must form cross-functional teams and challenge the way our organizations think about unstructured information. The first and most important step is developing the ability to convincingly calculate what unstructured information really costs and then to discover ways we can recue those costs and drive value. These are foundational skills for information professionals in the new era of Big Data. In this era, information is currency—but a currency that has value only when IG professionals drive innovation and management rigor in the unstructured information environment.
CHAPTER SUMMARY: KEY POINTS
1. International Data Corporation, “The 2011 Digital Universe Study,” June 2011. www.emc.com/leadership/programs/digital-universe.htm (accessed November 25, 2013).
2. Richard B. Schmidt, “The Cyber Suit: How Computers Aided Lawyers In Diet-Pill Case,” Wall Street Journal, October 8, 1999. http://webreprints.djreprints.com/00000000000000000012559001.html
3. Nick Bilton, “At Davos, Discussions of a Global Data Deluge,” New York Times, January 25, 2012, http://bits.blogs.nytimes.com/2012/01/25/at-davos-discussions-of-a-global-data-deluge/; Alex Pentland, quoted by Edge.org in “Reinventing Society in the Wake of Big Data,” August 8, 2012, www.edge.org/conversation/reinventing-society-in-the-wake-of-big-data; World Economic Forum, “Personal Data: The Emergence of a New Asset Class” (January 2011), http://www3.weforum.org/docs/WEF_ITTC_PersonalDataNewAsset_Report_2011.pdf
4. James Manyika et al., “Big Data: The Next Frontier for Innovation, Competitions, and Productivity,” McKinsey Global Institute, May 2011, www.mckinsey.com/insights/business_technology/big_data_the_next_frontier_for_innovation
5. Janna Quitney Anderson and Lee Ranie, “Future of the Internet: Big Data,” Pew Internet and American Life Project, July 20, 2012, http://pewinternet.org/~/media//Files/Reports/2012/PIP_Future_of_Internet_2012_Big_Data.pdf
6. Louis Columbus, “Roundup of Big Data Forecasts and Market Estimates, 2012,” Forbes, August 16, 2012, www.forbes.com/sites/louiscolumbus/2012/08/16/roundup-of-big-data-forecasts-and-market-estimates-2012/
7. McKinsey Global Institute, “Big Data: The Next Frontier for Innovation, Competitions, and productivity,” May 2011.
8. U.S. EPA, “Making Solid Waste Decisions with Full Cost Accounting,” n.d., www.epa.gov/osw/conserve/tools/fca/docs/primer.pdf (accessed November 25, 2013).
9. Nicholas M. Pace and Laura Zakaras, “Where the Money Goes: Understanding Litigant Expenditures for Producing Electronic Discovery,” RAND Institute for Civil Justice, 2012. www.rand.org/content/dam/rand/pubs/monographs/2012/RAND_MG1208.pdf (accessed November 25, 2013).
10. Accounts Payable Network, “A Detailed Guide to Imaging and Workflow ROI,” 2010.
11. Various sources. See, for example: Barclay T. Blair, “Today's PowerPoint Slide: The Origins of Information Governance by the Numbers,” October 28, 2010. http://barclaytblair.com/origins-of-information-governance-powerpoint/ (accessed November 25, 2013).
12. Brooklyn Navy Yard Development Corporation, “The History of Brooklyn Navy Yard,” www.brooklynnavyyard.org/history.html (accessed November 25, 2013).
13. James Manyika et al., “Big Data.”
14. Barclay Blair and Barry Murphy, “Defining Information Governance: Theory or Action? Results of the 2011 Information Governance Survey,” ViaLumina, eDiscovery Journal (September 2011).
15. Jaikumar Vijayan, “Finding the Business Value in Big Data Is a Big Problem,” Computerworld, September 12, 2012, www.computerworld.com/s/article/9231224/Finding_the_business_value_in_big_data_is_a_big_problem
16. James Manyika et al., “Big Data.”
17. Economist Intelligence Unit, “Leveling the Playing Field: How Companies Use Data to Create Advantage” (January 2011), http://blogs.sap.com/wp-content/blogs.dir/15/files/2012/02/EIU_Levelling_The_Playing_Field_1.pdf
18. Genevieve Shaw Brown, “Mac Users My See Pricier Options on Orbitz,” ABC Good Morning America, June 25, 2012, http://abcnews.go.com/Travel/mac-users-higher-hotel-prices-orbitz/story?id=16650014#.UDlkVBqe7oV
19. “Health Care Bill Requires Calories on Menus at Chain Restaurants,” USA Today, March 23, 2010, http://usatoday30.usatoday.com/news/health/weightloss/2010-03-23-calories-menus_N.htm
20. Sharon Beley, “As America's Waistline Expands, Cost Soar,” Reuters, April 30, 2012, www.reuters.com/article/2012/04/30/us-obesity-idUSBRE83T0C820120430
21. Stephanie Rosenbloom, “Calorie Data to Be Posted at Most Chains,” New York Times, March 23, 2010, www.nytimes.com/2010/03/24/business/24menu.html
22. James Surowiecki, “Downsizing Supersize,” New Yorker, August 13, 2012, www.newyorker.com/talk/financial/2012/08/13/120813ta_talk_surowiecki
23. Manyika et al., “Big Data.”
24. Blair and Murphy, “Defining Information Governance.”
25. International Organization for Standardization, ISO/IEC 38500:2008, Corporate governance of information technology. www.iso.org/iso/catalogue_detail?csnumber=51639 (accessed November 25, 2013).
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