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Aug 11 16

Machines of Loving Grace. Interview with John Markoff.

by Roberto V. Zicari

“Intelligent system designers do have ethical responsibilities.”
–John Markoff.

I have interviewed John Markoff, technology writer at The New York Times. 
In 2013 he was awarded a Pulitzer Prize.
The interview is related to his recent book “Machines of Loving Grace: The Quest for Common Ground Between Humans and Robots, published in August of 2015 by HarperCollins Ecco.

RVZ

Q1. Do you share the concerns of prominent technology leaders such as Tesla’s chief executive, Elon Musk, who suggested we might need to regulate the development of artificial intelligence?

John Markoff: I share their concerns, but not their assertions that we may be on the cusp of some kind of singularity or rapid advance to artificial general intelligence. I do think that machine autonomy raises specific ethical and safety concerns and regulation is an obvious response.

Q2. How difficult is it to reconcile the different interests of the people who are involved in a direct or indirect way in developing and deploying new technology?

John Markoff: This is why we have governments and governmental regulation. I think AI, in that respect is no different than any other technology. It should and can be regulated when human safety is at stake.

Q3. In your book Machines of Loving Grace you argued that “we must decide to design ourselves into our future, or risk being excluded from it altogether”. What do you mean by that?

John Markoff: You can use AI technologies either to automate or to augment humans. The problem is minimized when you take an approach that is based on human centric design principles.

Q4. How is it possible in practice? Isn’t the technology space dominated by giants such as IBM, Apple,Google who dictate the direction of new technology?

John Markoff:  This is a very interesting time with “giant” technology companies realizing that there are consequences in the deployment of these technologies. Google, IBM and Microsoft have all recently made public commitments to the safe use of AI.

Q5. What are the most significant new developments in the humans-computers area, that are likely to have a significant influence in our daily life in the near future?

John Markoff:  One of the best things about being a reporter is that you don’t have to predict the future. You only have to note what the various visionaries say, so you can call that to their attention when their predictions prove inaccurate. With that caveat, if I am forced to bet on any particular information technology it would be augmented reality. This is because I believe that multi-touch interfaces for mobile devices simply can’t be the last step in user interface.

Q6. Do you believe that robots will really transform modern life?

John Markoff:  I struggle with the definition of what is a “robot.” If something is tele-operated, for example, is it a robot? That said I think that we will increasingly be surrounded by machines that perform tasks.
The question is will they come as quickly as Silicon Valley seems to believe. My friend Paul Saffo has said, “Never mistake a clear view for a short distance.” And I think that is the case with all kinds of mobile robots, including self driving cars.

Q7. For the designers of Intelligent Systems, how difficult is to draw a line between what is human and what is machine?

John Markoff:  I feel strongly that the possibility of designing cyborgs, particularly with respect to intellectual prosthesis is a boundary we should cross with great caution. Remember the Borg from StarTrek. “Resistance is futile, you will be assimilated.” I think the challenge is to use these systems to enhance human thought, not for social control.

Q8. What are the ethical responsibilities of designers of intelligent systems?

John Markoff: I think the most important aspect of that question is the simple acknowledgement that intelligent system designers do have ethical responsibilities. That has not always been the case, but it seems to be a growing force within the community of AI and robotics designers in the past five years, so I’m not entirely pessimistic.

Q9. If humans delegate decisions to machines, who will be responsible for the consequences?

John Markoff: Ben Shneiderman, the University of Maryland computer scientist and user interface designer has written eloquently on this point. Indeed he argues against autonomous systems for precisely this reason. His point is that it is essential to keep a human in the loop. If not you run the risk of abdicating ethical responsibility for system design.

Q10. Assuming there is a real potential in using data–driven methods to both help charities develop better services and products, and understand civil society activity. In your opinion, what are the key lessons and recommendations for future work in this space?

John Markoff: I’m afraid I’m not an expert in the IT needs of either charities or NGOs. That said a wide range of AI advances are already being delivered at nominal cost via smart phones. As cheap sensors proliferate virtually all everyday objects will gain intelligence that will be widely accessible.

Qx. Anything else you wish to add?

John Markoff: Only that I think it is interesting that the augmentation vs automation dichotomy is increasingly seen as a path through which to navigate the impact of these technologies. Computer system designers are the ones who will decide what the impact of these technologies are and whether to replace or augment humans in society.

—————————————-

JOHN GREGORY MARKOFF

John Markoff joined The New York Times in March 1988 as a reporter for the business section. He is now a technology writer based in San Francisco bureau of the paper. Prior to joining the Times, he worked for The San Francisco Examiner from 1985 to 1988. He reported for the New York Times Science Section from 2010 to 2015.

Markoff has written about technology and science since 1977. He covered technology and the defense industry for The Pacific News Service in San Francisco from 1977 to 1981; he was a reporter at Infoworld from 1981 to 1983; he was the West Coast editor for Byte Magazine from 1984 to 1985 and wrote a column on personal computers for The San Jose Mercury from 1983 to 1985.

He has also been a lecturer at the University of California at Berkeley School of Journalism and an adjunct faculty member of the Stanford Graduate Program on Journalism.

The Times nominated him for a Pulitzer Prize in 1995, 1998 and 2000. The San Francisco Examiner nominated him for a Pulitzer in 1987. In 2005, with a group of Times reporters, he received the Loeb Award for business journalism. In 2007 he shared the Society of American Business Editors and Writers Breaking News award. In 2013 he was awarded a Pulitzer Prize in explanatory reporting as part of a New York Times project on labor and automation.

In 2007 he became a member of the International Media Council at the World Economic Forum. Also in 2007, he was named a fellow of the Society of Professional Journalists, the organization’s highest honor.

In June of 2010 the New York Times presented him with the Nathaniel Nash Award, which is given annually for foreign and business reporting.

Born in Oakland, California on October 29, 1949, Markoff grew up in Palo Alto, California and graduated from Whitman College, Walla Walla, Washington, in 1971. He attended graduate school at the University of Oregon and received a masters degree in sociology in 1976.

Markoff is the co-author of “The High Cost of High Tech,” published in 1985 by Harper & Row. He wrote “Cyberpunk: Outlaws and Hackers on the Computer Frontier” with Katie Hafner, which was published in 1991 by Simon & Schuster.
In January of 1996 Hyperion published “Takedown: The Pursuit and Capture of America’s Most Wanted Computer Outlaw,” which he co-authored with Tsutomu Shimomura. “What the Dormouse Said: How the Sixties Counterculture shaped the Personal Computer Industry,” was published in 2005 by Viking Books. “Machines of Loving Grace: The Quest for Common Ground Between Humans and Robots,” was published in August of 2015 by HarperCollins Ecco.

He is currently researching a biography of Stewart Brand.

He is married to Leslie Terzian Markoff and they live in San Francisco, Calif.

Resources

MACHINES OF LOVING GRACE – The Quest for Common Ground Between Humans and Robots By John Markoff, Illustrated. 378 pp. Ecco/HarperCollins Publishers.

Shneiderman’s “Eight Golden Rules of Interface Design”. These rules were obtained from the text Designing the User Interface by Ben Shneiderman.

“Designing the User Interface”, 6th Edition. This is a revised edition of the highly successful textbook on Human Computer Interaction originally developed by Ben Shneiderman and Catherine Plaisant at the University of Maryland.

Related Posts

– Recruit Institute of Technology. Interview with Alon Halevy ODBMS Industry Watch, Published on 2016-04-02

– Civility in the Age of Artificial Intelligence,  by STEVE LOHR, technology reporter for The New York Times, ODBMS.org

– On Artificial Intelligence and Society. Interview with Oren Etzioni, ODBMS Industry Watch.

– On Big Data and Society. Interview with Viktor Mayer-SchönbergerODBMS Industry Watch.

Follow us on Twitter: @odbmsorg

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Aug 4 16

LinkedIn China new Social Platform Chitu. Interview with Dong Bin.

by Roberto V. Zicari

“Complicated queries, like looking for second degree friends, is really hard to traditional databases.” –Dong Bin

I have interviewed Dong Bin, Engineer Manager at LinkedIn China. The LinkedIn China development team launched a new social platform — known as Chitu — to attract a meaningful segment of the Chinese professional networking market.

RVZ

Q1. What is your role at LinkedIn China?

Dong Bin: I am an Engineer Manager in charge of the backend services for Chitu. The backend includes all Chitu`s consumer based features, like feeds, chat, event, etc.

Q2. You recently launched a new social platform, called Chitu. Which segment of the Chinese professional networking market are you addressing with Chitu? How many users do you currently have?

Dong Bin: Unlike Linkedin.com, Chitu is targeting on young people without strong background, who mostly work at second-tier cities. They are eager to learn how to promote their career path. Due to business reasons, the members count can not be published yet. Sorry for that.

Q3. What are the main similarities and differences of Chitu with respect to LinkedIn?

Dong Bin: Besides the difference of user targeting, Chitu involves more popular features like Live Mode and knowledge monetization. And the Chitu team worked as a startup, which make the product run extremely fast. It is the key to beat the local competitors.

Q4. Who are your main competitors in China?

Dong Bin: The main competitors are: Maimai and Liepin.

Q5. What were the main challenges in developing Chitu?

Dong Bin: 1. At the beginning of the development, Chitu needed to be launched on an impossible deadline to catch up with competitors, by a team of engineers less than 20. 2. So many hot features are proposed which are so complicated from an implementation perspective, like friends with 1/2/3 degree, realtime chatting. They are tough problems for traditional infrastructure.

Q6. Why did you use a graph database for developing Chitu and not a conventional relational database?

Dong Bin: For development efficiency, I need a schemaless database which can handle relationships very easily. Schema will be a pain for fast iteration cause migration in many environment. And complicated queries, like looking for second degree friends, is really hard to traditional databases. Then I found graph database just fit my requirement.
Then I found graph database is good at performance of query connected data. With more than 10 years of experience of using relational database, I know that complicated joins are the performance killer. But graph databases kick ass of other databases.

Q7. What are the main advantages did you experience in using Neo4j?

Dong Bin: 1. I decide to use graph database and I found the No.1 graph database is Neo4j which make me no other choice; 2. Neo4J has a native graph storage; 3. The community is active and document is so rich, though it is comparable to MySQL or Oracle; 4. It is very fast.

Q8. Did you evaluate other graph databases in the market, other then Neo4j? If yes, which ones?

Dong Bin: Yes, I have evaluated OrientDB. I didn’t choose it because 1) it is not native graph storage, which make concern about performance;  2) the community and the documentation are weak.

Q9. Can you be a bit more specific, and explain what do you do with the Neo4j native graph storage, and why is it important for your application?

Dong Bin: Because native graph storage can handle query with joins very quickly. Chitu has so many queries depending on that. I have experience on that.

Q10. When you say, Neo4J is very fast, did you do any performance benchmarks? If yes, can you share the results? Did you do performance comparisons with other databases? 

Dong Bin: We did have some rough benchmarks, but now we focus on production performance metrics. In production log, I can see that 99% of the queries need no more than 10ms. This is the data I can provide with confidence.

Q11. What is the roadmap ahead for Chitu?

Dong Bin: The long-term goal is becoming the No.1 professional network platform in China. Also, Chitu will focus on knowledge sharing and monetization.

———–
Dong Bin is an Engineer Manager at Linkedin China. He has more than ten years experience of building web and database applications. His main interests are architecture for high performance and high stability. He has several years of database experience for MySQL, Redis and Mongodb, and fall in love with Graph DB after learning about Neo4j. Prior joining to Linkedin, he worked at Kabam as an Engineer Lead for developing mobile strategy game. He obtain a M.S in Harbin Institute of Technology in China. 

Resources

Chitu: Chitu is a social network app created by LinkedIn China.

– Neo4j Graph Database Helps LinkedIn China Launch Separate Professional Social Networking App

– Graph Databases for Beginners: Native vs. Non-Native Graph Technology

 Graph Databases. by Ian Robinson, Jim Webber, and Emil Eifrem. Published by O’Reilly Media, Inc. Second edition (224 pages).

Related Posts

– The Panama Papers: Why It Couldn’t Have Happened Ten Years Ago By Emil Eifrem, CEO, Neo Technology, ODBMS.org April 6, 2016

– Forrester Report: Graph Databases Market Overview, ODBMS.org,  AUGUST 31, 2015

– Embracing the evolution of Graphs. by Stephen Dillon, Data Architect, Schneider Electric. ODBMS.org, January 2015.

Graph Databases for Beginners: Why Data Relationships Matter. By Bryce Merkl Sasaki, ODBMS.org, July 31, 2015

– Graph Databases for Beginners: The Basics of Data Modeling. By BRYCE MERKL SASAKI, ODBMS.org, AUGUST 7, 2015

Graph Databases for Beginners: Why a Database Query Language Matters. BY BRYCE MERKL SASAKI, ODBMS.org, AUGUST 21, 2015

Follow us on Twitter: @odbmsorg

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Jul 23 16

On Data Governance. Interview with David Saul.

by Roberto V. Zicari

“The increasing complexity and pace of global regulations is making it more difficult and expensive for financial services organizations to comply. At the same time, firms want to derive value from their data assets. How do they create synergy between these two seemingly divergent goals? The maturation of semantic technologies, when combined with increased acceptance of industry standards, holds out the promise of resolving those issues.” –David Saul.

I have interviewed David Saul, Senior Vice President and Chief Scientist at State Street Corporation. Main topics of the interview are the governance and management of data, and semantic technologies.

RVZ

Q1. What is your role at State Street Bank?

David Saul: State Street has a long history as an innovator in financial services and my objective is to help maintain that leadership position. I work with our clients, internal developers, vendors, regulators and academics to identify and introduce appropriate innovations into our business. For the last several years I have focused on the development and adoption of semantic data standards.

The concept of the semantic web was first proposed over ten years ago by Sir Tim Berners-Lee, the creator of the World Wide Web, and has since been realized in multiple implementations. Semantics is a natural evolution of earlier work on metadata, language dialects and taxonomies for regulatory compliance. Examples include the SEC’s XBRL mandate and OFR’s Legal Entity Identifier (LEI) as part of the Dodd-Frank legislation.

Q2What is Data Governance?

David Saul: State Street’s most important asset is the data that we ingest, process, store and distribute on behalf of our clients. Data Governance encompasses the management and controls needed to maintain stewardship of that data while in our custody.

Effective data governance can be measured by the ability to answer the following four questions:

  • Do you know where your data is? Are you able to identify the critical business data in the firm, who owns it and, most importantly, and what it means?
  • Do you maintain a catalog and monitor current and future regulatory requirements?
  • Do you understand the existing products/services solutions used and can you identify any gaps?
  • Do you participate in and influence relevant industry data standards?

Q3. What makes a good Data Governance Program?

David Saul: A mature Data Governance program provides a balanced framework to monetize data while also complying with regulatory requirements. The application of semantic data standards allows synergy between data analytics and risk management.

One example is the Financial Industry Business Ontology (FIBO) from the Enterprise Data Management (EDM) Council and the Object Management Group (OMG). Recent publications from regulators in the US and elsewhere have endorsed the use of data standards as the only way to deal with the increase in the scope and complexity of their responsibilities. For example, in its 2014 Annual Report the US Treasury Office of Financial Research (OFR) devotes its entire section 5 to “Advancing Data Standards”.

Semantics provides additional advantages over traditional technologies in its speed and flexibility. Developing Extract, Transform and Load (ETL) processes and data warehouses cannot keep pace with changes in business models and relevant regulations. The ability to easily create and change semantic maps of data ecosystems is being offered today by a number of vendors. The open nature of data standards like FIBO not only provides transparency but also provides assurance that these standards will be long lasting. Current academic research is showing our semantics can be a path into more leading edge technologies like machine learning and natural language.

Q4. How do you handle possible organizational conflicts from overlapping functions when dealing with Data?

David Saul: Effective governance and management of data requires a balance between distributed ownership and centralized control. The organizational role of the chief data officer at State Street has evolved to provide centralized policies, procedures and controls for data stewardship while maintaining operational management within the business processing units.

Beyond individual institutions, the application of data standards provides benefits to multiple constituencies:

  • Financial services firms gain additional revenue from their clients while keeping risks at an acceptable level.
  • Product and services companies have clearer requirements to innovate, develop and sell.
  • Regulators and supervisors receive the information they need to meet statutory mandates and ensure that laws are complied with.
  • Standards organizations follow their mission to enable simple and effective communication among the parties.

Q5. What are the main challenges in corporate, financial services, and regulatory sectors, especially on issues of Big Data, Analytics, and Risk Management?

David Saul: The increasing complexity and pace of global regulations is making it more difficult and expensive for financial services organizations to comply. At the same time, firms want to derive value from their data assets. How do they create synergy between these two seemingly divergent goals? The maturation of semantic technologies, when combined with increased acceptance of industry standards, holds out the promise of resolving those issues. Semantics and ontologies provide greater transparency and interoperability, thereby enhancing the overall trust in the financial system. Enhanced trust benefits all constituencies who have a direct interest.

Q6. You previously contributed to the Financial Stability Board Data Gaps Implementation Group. What are the main contributions of such group?

David Saul: State Street is an advocate for global data harmonization in multiple forums. Contributing expertise to industry associations and standards bodies benefits both the firm and the industry as a whole. Just one example is the International Organization of Securities Commissions (IOSCO) work on the financial industry Unique Product Identifier (UPI).

Q7You also contributed to the White House Task Force on Smart Disclosure. What are the main results obtained?

David Saul: On May 9, 2014, President Barack Obama signed the Digital Accountability and Transparency Act, or the DATA Act, which had been passed unanimously by both the House of Representatives and the Senate. It requires the Department of the Treasury and the White House Office of Management and Budget to transform U.S. federal spending from disconnected documents into open, standardized data, and to publish that data online. State Street was among stakeholders from the tech industry, nonprofit sector, and executive and legislative branches of government who convened in May 2016 at the DATA Act Summit to build a shared vision for making the DATA Act a success.

————————————————————————————————

David Saul, Senior Vice President and Chief Scientist, State Street Corporation.

David Saul is a senior vice president and chief scientist at State Street Corporation, reporting to the chief information officer. In this role, he proposes and assesses new advanced technologies for the organization, and also evaluates existing technologies and their likely evolution to reinforce the organization’s leadership position in financial services.
Mr. Saul previously was chief information security officer, where he oversaw State Street’s corporate information security program, controls and technology. Prior to that, he managed State Street’s Office of Architecture, where he was responsible for the overall enterprise technology, data and security architecture of the corporation.
Mr. Saul joined State Street in 1992 after 15 years with IBM’s Cambridge Scientific Center, where he managed innovations in operating systems virtualization, multiprocessing, networking and personal computers.
Mr. Saul serves as a trustee of the Massachusetts Eye and Ear Infirmary. In 2007, he was honored with a Computerworld Premier 100 IT Leader Award. He holds his bachelor’s and master’s degrees from the Massachusetts Institute of Technology.

 

Related Posts

– On data analytics for finance. Interview with Jason S.Cornez. ODBMS Industry Watch, Published on 2016-05-17

– Using NoSQL for Ireland’s Online Tax Research Database. ODBMS Industry Watch, Published on 2016-05-02

–  Opportunity Now: Europe’s Mission to InnovateBy Robert Madelin, Senior Adviser for Innovation to the President of the European Commission. ODBMS.org

– Big Data in Financial Markets Regulation – Friend or Foe?  By Morgan Deane, member of the Board and International Head of Legal & Compliance for the Helvea-Baader Bank Group. ODBMS.org, January 18, 2015

– The need for a data centric regulatory risk assessment framework. By Ramendra K. Sahoo, Director in PwC’s Advanced Risk Analytics. ODBMS.org

–  Big Data Strategy – From Customer Targeting to Customer Centric. By Patrick Maes, CTO and GM Strategy & Planning, Global Technology Services and Operations, Australia & New Zealand Banking Group

Follow us on Twitter: @odbmsorg

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Jul 6 16

On the Challenges and Opportunities of IoT. Interview with Steve Graves

by Roberto V. Zicari

“Assembling a team with the wide range of skills needed for a successful IoT project presents an entirely different set of challenges. The skills needed to build a ‘thing’ are markedly different than the skills needed to implement the data analytics in the cloud.”–Steve Graves.

I have interviewed, Steve Graves, co-founder and CEO of McObject. Main topic of the interview is the Internet of Things and how it relates to databases.

RVZ

Q1. What are in your opinion the main Challenges and Opportunities of the Internet of Things (IoT) seen from the perspective of a database vendor?

Steve Graves: Let’s start with the opportunities.

When we started McObject in 2001, we chose “eXtremeDB, the embedded database for intelligent, connected devices” as our tagline. eXtremeDB was designed from the get-go to live in the “things” comprising what the industry now calls the Internet of Things. The popularization of this term has created a lot of visibility and, more importantly, excitement and buzz for what was previously viewed as the relatively boring “embedded systems.” And that creates a lot of opportunities.

A lot of really smart, creative people are thinking of innovative ways to improve our health, our workplace, our environment, our infrastructure, and more. That means new opportunities for vendors of every component of the technology stack.
The challenges are manifold, and I can’t begin to address all of them. The media is largely fixated on security, which itself is multi-dimensional.
We can talk about protecting IoT-enabled devices (e.g. your car) from being hacked. We can talk about protecting the privacy of your data at rest. And we can talk about protecting the privacy of data in motion.
Every vendor needs recognize the importance of security. But, it isn’t enough for a vendor, like McObject, to provide the features to secure the target system; the developer that assembles the stack along with their own proprietary technology to create an IoT solution needs to use available security features, and use them correctly.

After security, scaling IoT systems is the next big challenge. It’s easy enough to prototype something.
But careful planning is needed to leap from prototype to full-blown deployment. Obvious decisions have to be made about connectivity and necessary bandwidth, how many things per gateway, one tier of gateways or more, and how much compute capacity is needed in the cloud. Beyond that, there are less obvious decisions to be made that will affect scalability, like making sure the DBMS used on devices and/or gateways is able to handle the workload (e.g. that the gateway DBMS can scale from 10 input streams to 100 input streams); determining how to divide the analytics workload between gateways and the cloud; and ensuring that the gateway, its DBMS and its communication stack can stream data to the cloud while simultaneously processing its own input streams and analytics.
Assembling a team with the wide range of skills needed for a successful IoT project presents an entirely different set of challenges. The skills needed to build a ‘thing’ are markedly different than the skills needed to implement the data analytics in the cloud. In fact, ‘things’ are usually very much like good ol’ embedded systems, and system engineers that know their way around real-time/embedded operating systems, JTAG debuggers, and so on, have always been at a premium.

Q2. Data management for the IoT: What are the main differences between data management in field-deployed devices and at aggregation points?

Steve Graves: Quite simply: scale. A field-deployed device (or a gateway to field-deployed devices that do not, themselves, have any data management need or capability) has to manage a modest amount of data. But an aggregation point (the cloud being the most obvious example) has to manage many times more data – possibly orders of magnitude more.
At the same time, I have to say that they might not be all that different. Some IoT systems are going to be closed, meaning the nature of the things making up the system is known, and these won’t require much scaling. For example, a building automation system for a small- to mid-size building would have perhaps 100s of sensors and 10s of gateways, and may (or may not) push data up to a central aggregation point. If there are just 10s of gateways, we can create a UI that connects to the database on each gateway where each database is one shard of a single logical database, and execute analytics against that logical database without any need of a central aggregation point. We can extend this hypothetical case to a campus of buildings, or to a landlord with many buildings in a metropolitan area, and then a central aggregation point makes sense.

But the database system would not necessarily be different, only the organization of the physical and logical databases.
The gateways of each building would stream to a database server in the cloud. In the case of 10 buildings, we could have 10 database servers in the cloud that represent 10 shards of that logical database in the cloud. This architecture allows for great scalability. The landlord acquires another building? Great, stand up another database server and the UI connects to 11 shards instead of 10. In this scenario, database servers are software, not hardware. For the numbers we’re talking about (10 or 11 buildings), it could easily be handled by a single hardware server of modest ability.

At the other end of the scale (pun intended) are IoT systems that are wide open. By that, I mean the creators are not able to anticipate the universe of “things” that could be connected, or their quantity. In the first case, the database system should be able to ingest data that was heretofore unknown. This argues for a NoSQL database system, i.e. a database system that is schema-less. In this scenario, the database system on field-deployed devices is probably radically different from the database system in the cloud. Field-deployed devices are purpose-specific, so A) they don’t need and wouldn’t benefit from a NoSQL database system, and B) most NoSQL database systems are too resource-hungry to reside on embedded device nodes.

Q3. If we look at the characteristics of a database system for managing device-based data in the IoT, how do they differ from the characteristics of a database system (typically deployed on a server) for analyzing the “big data” generated by myriad devices?

Steve Graves: Again, let’s recognize that field-deployed devices in the IoT are classic embedded systems. In practical terms, that means relatively modest hardware like an ARM, MIPS, PowerPC or Atom processor running at 100s of megahertz, or perhaps 1 ghz if we’re lucky, and with only enough memory to perform its function. Further, it may require a real-time operating system, or at least an embedded operating system that is less resource hungry than a full-on Linux distro. So, for a database system to run in this environment, it will need to have been designed to run in this environment. It isn’t practical to try to shoehorn in a database system that was written on the assumption that CPU cycles and memory are abundant. It may also be the case that the device has little-to-no persistent storage, which mandates an in-memory database.

So a database system for a field-deployed device is going to
1. have a small code size
2. use little stack
3. preferably, allocate no heap memory
4. have no, or minimal, external dependencies (e.g. not link in an extra 1 MB of code from the C run-time library)
5. have built-in ability to replicate data (to a gateway or directly to the cloud)
a. Replication should be “open”, meaning be able to replicate to a different database system
6. Have built-in security features

7. Nice to have:
a. built-in analytics to aggregate data prior to replicating it
b. ability to define the schema
c. ability to operate entirely in memory

A database system for the cloud might benefit from being schema-less, as described previously. It should certainly have pretty elastic scalability. Servers in the cloud are going to have ample resources and robust operating systems. So a database system for the cloud doesn’t need to have a small code size, use a small amount of stack memory, or worry about external dependencies such as the C run-time library. On the contrary, a database system for the cloud is expected to do much more (handle data at scale, execute analytics, etc.) and will, therefore, need ample resources. In fact, this database system should be able to take maximum advantage of the resources available, including being able to scale horizontally (across cores, CPUs, and servers).
In summary, the edge (device-based) DBMS needs to operate in a constrained environment. A cloud DBMS needs to be able to effectively and efficiently utilize the ample resources available to it.

Q4. Why is the ability to define a database schema important (versus a schema-less DBMS, aka NoSQL) for field-deployed devices?

Steve Graves: Field-deployed devices will normally perform a few specific functions (sometimes, just one function). For example, a building automation system manages HVAC, lighting, etc. A livestock management system manages feed, output, and so on. In such systems, the data requirements are well known. The hallmark NoSQL advantage of being able to store data without predefining its structure is unwarranted. The other purported hallmark of NoSQL is horizontal scalability, but this is not a need for field-deployed devices.
Walking away from the relational database model (and its implicit use of a database schema) has serious implications.
A great deal of scientific knowledge has been amassed around the relational database model over the last few decades, and without it developers are completely on their own with respect to enforcing sound data management practices.

In the NoSQL sphere, there is nothing comparable to the relational model (e.g. E.F. Codd’s work) and the mathematical foundation (relational calculus) underpinning it.
There should be overwhelming justification for a decision to not use relational.
In my experience, that justification is absent for data management of field-deployed devices.
A database system that “knows” the data design (via a schema) can more intelligently manage the data. For example, it can manage constraints, domain dependencies, events and much more. And some of the purported inflexibility imposed by a schema can be eliminated if the DBMS supports dynamic DDL (see more details on this in the answer to question Q6, below).

Q5. In your opinion, do IoT aggregation points resemble data lakes?

Steve Graves: The term data lake was originally conceived in the context of Hadoop and map-reduce functionality. In more recent times, the meaning of the term has morphed to become synonymous with big data, and that is how I use the term. Insofar as a gateway can also be an aggregation point, I would not say ‘aggregation points resemble data lakes’ because gateway aggregation points, in all likelihood, will not manage Big Data.

Q6. What are the main technical challenges for database systems used to accommodate new and unforeseen data, for example when a new type of device begins streaming data?

Steve Graves: The obvious challenges are
1. The ability to ingest new data that has a previously unknown structure
2. The ability to execute analytics on #1
3. The ability to integrate analytics on #1 with analytics on previously known data

#1 is handled well by NoSQL DBMSs. But, it might also be handled well by an RDBMS via “dynamic DDL” (dynamic data definition language), e.g. the ability to execute CREATE TABLE, ALTER TABLE, and/or CREATE INDEX statements against an existing database.
To efficiently execute analytics against any data, the structure of the data must eventually be understood.
RDBMS handle this through the database dictionary (the binary equivalent of the data definition language).
But some NoSQL DBMSs handle this through different meta data. For example, the MarkLogic DBMS uses JSON metadata to understand the structure of documents in its document store.
NoSQL DBMSs with no meta data whatsoever put the entire burden on the developers. In other words, since the data is opaque to the DBMS, the application code must read and interpret the content.

Q7. Client/server DBMS architecture vs. in-process DBMSs: which one is more suitable for IoT?

Steve Graves: For edge DBMSs (on constrained devices), an in-process architecture will be more suitable. It requires fewer resources than client/server architecture, and imposes less latency through elimination of inter-process communication. For cloud DBMSs, a client/server architecture will be more suitable. In the cloud environment, resources are not scarce, and the the advantage of being able to scale horizontally will outweigh the added latency associated with client/server.

Qx Anything else you wish to add?

Steve Graves: We feel that eXtremeDB is uniquely positioned for the Internet of Things. Not only have devices and gateways been in eXtremeDB’s wheelhouse for 15 years with over 25 million real world deployments, but the scalability, time series data management, and analytics built into the eXtremeDB server (big data) offering make it an attractive cloud database solution as well. Being able to leverage a single DBMS across devices, gateways and the cloud has obvious synergistic advantages.

———————
Steve Graves is co-founder and CEO of McObject, a company specializing in embedded Database Management System (DBMS) software. Prior to McObject, Steve was president and chairman of Centura Solutions Corporation and vice president of worldwide consulting for Centura Software Corporation.

Resources

Big Data, Analytics, and the Internet of Things, by Mohak Shah, analytics leader and research scientist at Bosch Research, USA.ODBMS.org APRIL 6, 2015

 Privacy considerations & responsibilities in the era of Big Data & Internet of Things, by Ramkumar Ravichandran, Director, Analytics, Visa Inc. ODBMS.org January 8, 2015.

 Securing Your Largest USB-Connected Device: Your Car,BY Shomit Ghose, General Partner, ONSET Ventures, ODBMs.org MARCH 31, 2016.

 eXtremeDB Financial Edition DBMS Sweeps Records in Big Data Benchmark,ODBMS.org JULY 2, 2016

 eXtremeDB in-memory database

 User Experience Design for the Internet of Things

Related Posts

On the Internet of Things. Interview with Colin MahonyODBMS Industry Watch, Published on 2016-03-14

A Grand Tour of Big Data. Interview with Alan MorrisonODBMS Industry Watch, Published on 2016-02-25

On the Industrial Internet of Things. Interview with Leon Guzenda, ODBMS Industry Watch,  January 28, 2016

Follow us on Twitter: @odbmsorg

##

Jun 7 16

On Data Interoperability. Interview with Julie Lockner.

by Roberto V. Zicari

“From a healthcare perspective, how can we aggregate all the medical data, in all forms from multiple sources, such as wearables, home medical devices, MRI images, pharmacies and so on, and also blend in intelligence or new data sources, such as genomic data, so that doctors can make better decisions at the point of care?”– Julie Lockner.

I have interviewed Julie Lockner.  Julie leads data platform product marketing for InterSystems. Main topics of the interview are Data Interoperability and InterSystems` data platform strategy.

RVZ

Q1. Everybody is talking about Big Data — is the term obsolete?

Julie Lockner: Well, there is no doubt that the sheer volume of data is exploding, especially with the proliferation of smart devices and the Internet of Things (IoT). An overlooked aspect of IoT is the enormous volume of data generated by a variety devices, and how to connect, integrate and manage it all.

The real challenge, though, is not just processing all that data, but extracting useful insights from the variety of device types. Put another way, not all data is created using a common standard. You want to know how to interpret data from each device, know which data from what type of device is important, and which trends are noteworthy. Better information can create better results when it can be aggregated and analyzed consistently, and that’s what we really care about. Better, higher quality outcomes, not bigger data.

Q2. If not Big Data, where do we go from here?

Julie Lockner: We always want to be focusing on helping our customers build smarter applications to solve real business challenges, such as helping them to better compete on service, roll out high-quality products quicker, simplify processes – not build solutions in search of a problem. A canonical example is in retail. Our customers want to leverage insight from every transaction they process to create a better buying experience online or at the point of sale. This means being able to aggregate information about a customer, analyze what the customer is doing while on the website, and make an offer at transaction time that would delight them. That’s the goal – a better experience – because that is what online consumers expect.

From a healthcare perspective, how can we aggregate all the medical data, in all forms from multiple sources, such as wearables, home medical devices, MRI images, pharmacies and so on, and also blend in intelligence or new data sources, such as genomic data, so that doctors can make better decisions at the point of care? That implies we are analyzing not just more data, but better data that comes in all shapes and sizes, and that changes more frequently. It really points to the need for data interoperability.

Q3. What are the challenges software developers are telling you they have in today’s data-intensive world?

Julie Lockner: That they have too many database technologies to choose from and prefer to have a simple data platform architecture that can support multiple data models and multiple workloads within a single development environment.
We understand that our customers need to build applications that can handle a vast increase in data volume, but also a vast array of data types – static, non-static, local, remote, structured and non-structured. It must be a platform that coalesces all these things, brings services to data, offers a range of data models, and deals with data at any volume to create a more stable, long-term foundation. They want all of these capabilities in one platform – not a platform for each data type.

For software developers today, it’s not enough to pick elements that solve some aspect of a problem and build enterprise solutions around them; not all components scale equally. You need a common platform without sacrificing scalability, security, resilience, rapid response. Meeting all these demands with the right data platform will create a successful application.
And the development experience is significantly improved and productivity drastically increased when they can use a single platform that meets all these needs. This is why they work with InterSystems.

Q4. Traditionally, analytics is used with structured data, “slicing and dicing” numbers. But the traditional approach also involves creating and maintaining a data warehouse, which can only provide a historical view of data. Does this work also in the new world of Internet of Things?

Julie Lockner: I don’t think so. It is generally possible to take amorphous data and build it into a structured data model, but to respond effectively to rapidly changing events, you need to be able to take data in the form in which it comes to you.

If your data platform lacks certain fields, if you lack schema definition, you need to be able to capitalize on all these forms without generating a static model or a refinement process. With a data warehouse approach, it can take days or weeks to create fully cleansed, normalized data.
That’s just not fast enough in today’s always-on world – especially as machine-generated data is not conforming to a common format any time soon. It comes back to the need for a data platform that supports interoperability.

Q5. How hard is it to make decisions based on real-time analysis of structured and unstructured data?

Julie Lockner: It doesn’t have to be hard. You need to generate rules that feed rules engines that, in turn, drive decisions, and then constantly update those rules. That is a radical enhancement of the concept of analytics in the service of improving outcomes, as more real-time feedback loops become available.

The collection of changes we describe as Big Data will profoundly transform enterprise applications of the future. Today we can see the potential to drive business in new ways and take advantage of a convergence of trends, but it is not happening yet. Where progress has been made is the intelligence of devices and first-level data aggregation, but not in the area of services that are needed. We’re not there yet.

Q6. What’s next on the horizon for InterSystems in meeting the data platform requirements of this new world?

Julie Lockner: We continually work on our data platform, developing the most innovative ways we can think of to integrate with new technologies and new modes of thinking. Interoperability is a hugely important component. It may seem a simple task to get to the single most pertinent fact, but the means to get there may be quite complex. You need to be able to make the right data available – easily – to construct the right questions.

Data is in all forms and at varying levels of completeness, cleanliness, and accuracy. For data to be consumed as we describe, you need measures of how well you can use it. You need to curate data so it gets cleansed and you can cull what is important. You need flexibility in how you view data, too. Gathering data without imposing an orthodoxy or structure allows you to gain access to more data. Not all data will conform to a schema a priori.

Q7. Recently you conducted a benchmark test of an application based on InterSystems Caché®. Could you please summarize the main results you have obtained?

Julie Lockner: One of our largest customers is Epic Systems, one of the world’s top healthcare software companies.
Epic relies on Caché as the data platform for electronic medical record solutions serving more than half the U.S. patient population and millions of patients worldwide.

Epic tested the scalability and performance improvements of Caché version 2015.1. Almost doubling the scalability of prior versions, Caché delivers what Epic President Cark Dvorak has described as “a key strategic advantage for our user organizations that are pursuing large-scale medical informatics programs as well as aggressive growth strategies in preparation for the volume-to-value transformation in healthcare.”

Qx Anything else you wish to add?

Julie Lockner: The reason why InterSystems has succeeded in the market for so many years is a commitment to the success of those who depend on our technology. A recent Gartner Magic Quadrant report found we had the highest number of customers surveyed – 85% – who would buy from us again. That is the highest number of any vendor participating in that study.

The foundation of the company’s culture is all about helping our customers succeed. When our customers come to us with a challenge, we all pitch in to solve it. Many times our solutions may address an unusual problem that could benefit others – which then becomes the source of many of our innovations. It is one of the ways we are using problem-solving skills as a winning strategy to benefit others. When our customers are successful at using our engine to solve the world’s most important challenges, we all win.

——————-

Julie Lockner leads data platform product marketing for InterSystems. She has more than 20 years of experience in IT product marketing management and technology strategy, including roles at analyst firm ESG as well as Informatica and EMC.

—————–

Resources

“InterSystems Unveils Major New Release of Caché,” Feb. 25, 2015.

“Gartner Magic Quadrant for Operational DBMS, Donald Feinberg, Merv Adrian, Nick Heudecker, Adam M. Ronthal, and Terilyn Palanca, October 12, 2015, ID: G00271405.

– White Paper: Big Data Healthcare: Data Scalability with InterSystems Caché® and Intel® Processors (LINK to .PDF)

Related Posts

– A Grand Tour of Big Data. Interview with Alan Morrison. ODBMs Industry Watch, February 25, 2016

–  RIP Big Data. By Carl Olofson, Research Vice President, Data Management Software Research, IDC. ODBMS.org, JANUARY 6, 2016.

What is data blending. By Oleg Roderick, David Sanchez, Geisinger Data Science. ODBMS.org, November 2015

Follow us on Twitter: @odbmsorg

##

May 24 16

On Data Analytics and the Enterprise. Interview with Narendra Mulani.

by Roberto V. Zicari

“A hybrid technology infrastructure that combines existing analytics architecture with new big data technologies can help companies to achieve superior outcomes.”–Narendra Mulani

I have interviewed Narendra MulaniChief Analytics Officer, Accenture Analytics. Main topics of our interview are: Data Analytics, Big Data, the Internet of Things, and their repercussion for the enterprise.

RVZ

Q1. What is your role at Accenture?

Narendra Mulani: I’m the Chief Analytics Officer at Accenture Analytics and I am responsible for building and inspiring a culture of analytics and driving Accenture’s strategic agenda for growth across the business. I lead a team of analytics professionals around the globe that are dedicated to helping clients transform into insight-driven enterprises and focused on creating value through innovative solutions that combine industry and functional knowledge with analytics and technology.

With the constantly increasing amount of data and new technologies becoming available, it truly is an exciting time for Accenture and our clients alike. I’m thrilled to be collaborating with my team and clients and taking part, first-hand, in the power of analytics and the positive disruption it is creating for businesses around globe.

Q2. What are the main drivers you see in the market for Big Data Analytics?

Narendra Mulani: Companies across industries are fighting to secure or keep their lead in the marketplace.
To excel in this competitive environment, they are looking to exploit one of their growing assets: Data.
Organizations see big data as a catalyst for their transformation into digital enterprises and as a way to secure an insight-driven competitive advantage. In particular, big data technologies are enabling companies with greater agility as it helps them to analyze data comprehensively and take more informed actions at a swifter pace. We’ve already passed the transition point with big data – instead of discussing the possibilities with big data, many are already experiencing the actual insight-driven benefits from it, including increased revenues, a larger base of loyal customers, and more efficient operations. In fact, we see our clients looking for granular solutions that leverage big data, advanced analytics and the cloud to address industry specific problems.

Q3. Analytics and Mobility: how do they correlate?

Narendra Mulani: Analytics and mobility are two digital areas that work hand-in-hand on many levels.
As an example, mobile devices and the increasingly connected world through the Internet of Things (IoT) have become two key drivers for big data analytics. As mobile devices, sensors, and the IoT are constantly creating new data sources and data types, big data analytics is being applied to transform the increasing amount of data into important and actionable insight that can create new business opportunities and outcomes. Also, this view can be reversed, where analytics feeds insight into mobile devices such as tablets to workers in offices or out in the field to enable them to make real-time decisions that could benefit their business.

Q4. Data explosion: What does it create ? Risks, Value or both?

Narendra Mulani: The data explosion that’s happening today and will continue to happen due to the Internet of Things creates a lot of opportunity for businesses. While organizations recognize the value that the data can generate, the sheer amount of data – internal data, external data, big data, small data, etc – can be overwhelming and create an obstacle for analytics adoption, project completion, and innovation. To overcome this challenge and pursue actionable insights and outcomes, organizations shouldn’t look to analyze all of the data that’s available, but identify the right data needed to solve the current project or challenge at hand to create value.

It’s also important for companies to manage the potential risk associated with the influx of data and take the steps needed to optimize and protect it. They can do this by aligning IT and business leads to jointly develop and maintain data governance and security strategies. At a high level, the strategies would govern who uses the data and how the data is analyzed and leveraged, define the technologies that would manage and analyze the data, and ensure the data is secured with the necessary standards. Suitable governance and security strategies should be requirements for insight-driven businesses. Without them, organizations could experience adverse and counter-productive results.

Q5. You introduced the concept of the “Modern Data Supply Chain”? How does it differ from the traditional Supply Chain?

Narendra Mulani: As companies’ data ecosystems are usually very complex with many data silos, a modern data supply chain helps them to simplify their data environment and generate the most value from their data. In brief, when data is treated as a supply chain, it can flow swiftly, easily and usefully through the entire organization— and also through its ecosystem of partners, including customers and suppliers.

To establish an effective modern data supply chain, companies should create a hybrid technology environment that enables a data service platform with emerging big data technologies. As a result, businesses will be able to access, manage, move, mobilize and interact with broader and deeper data sets across the organization at a much quicker pace than previously possible and place action on the attained analytics insights that could help it to more effectively deliver to its consumers, develop new innovative solutions, and differentiate in its market.

Q6. You talked about “Retooling the Enterprise”. What do you mean by this?

Narendra Mulani: Some businesses today are no longer just using analytics, they are taking the next step by transforming into insight-driven enterprises. To achieve “insight-driven enterprise” status, organizations need to retool themselves for optimization. They can pursue an insight-driven transformation by:

· Establishing a center of gravity for analytics – a center of gravity for analytics often takes the shape of a Center of Excellence or a similar concentration of talent and resources.
· Employing agile governance – build horizontal governance structures that are focused on outcomes and speed to value, and take a “test and learn” approach to rolling out new capabilities. A secure governance foundation could also improve the democratization of data throughout a business.
· Creating an inter-disciplinary high performing analytics team — field teams with diverse skills, organize talent effectively, and create innovative programs to keep the best talent engaged.
· Deploying new capabilities faster – deploy new, modern and agile technologies, as well as hybrid architectures and specifically designed toolsets, to help revolutionize how data has been traditionally managed, curated and consumed, to achieve speed to capability and desired outcomes. When appropriate, cloud technologies should be integrated into the IT mix to benefit from cloud-based usage models.
· Raising the company’s analytics IQ – have a vision of what would be your “intelligent enterprise” and implement an Analytics Academy that provides analytics training for functional business resources in addition to the core management training programs.

Q7. What are the risks from the Internet of Things? And how is it possible to handle such risks?

Narendra Mulani: The IoT is prompting an even greater focus on data security and privacy. As a company’s machines, employees and ecosystems of partners, providers, and customers become connected through the IoT, securing the data that is flowing across the IoT grid can be increasingly complex. Today’s sophisticated cyber attackers are also amplifying this complexity as they are constantly evolving and leveraging data technology to challenge a company’s security efforts.

To establish strong, effective real-time cyber defense strategy, security teams will need to employ innovative technologies to identify threat behavioral patterns — including artificial intelligence, automation, visualisation, and big data analytics – and an agile and fluid workforce to leverage the opportunities presented by technology innovations. They should also establish policies to address privacy issues that arise out of all the personal data that are being collected. Through this combination of efforts, companies will be able to strengthen its approach to cyber defense in today’s highly connected IoT world and empower cyber defenders to help their companies better anticipate and respond to cyber attacks.

Q8. What are the main lessons you have learned in implementing Big Data Analytic projects?

Narendra Mulani: Organizations should explore the entire big data technology ecosystem, take an outcome-focused approach to addressing specific business problems, and establish precise success metrics before an analytics project even begins. The big data landscape is in a constant state of change with new data sources and emerging big data technologies appearing every day that could offer a company a new value-generating opportunity. A hybrid technology infrastructure that combines existing analytics architecture with new big data technologies can help companies to achieve superior outcomes.
An outcome-focused strategy that embraces analytics experimentation and explores the possible data and technology that can help a company meet its goals and has checkpoints for measuring performance will be very valuable, as this strategy will help the analytics team to know if they should continue on course or need to make a course correction to attain the desired outcome.

Q9. Is Data Analytics only good for businesses? What about using (Big) Data for Societal issues?

Narendra Mulani: Analytics is helping businesses across industries and governments as well to make more informed decisions for effective outcomes, whether it might be to improve customer experience, healthcare or public safety.
As an example, we’re working with a utility company in the UK to help them leverage analytics insights to anticipate equipment failures and respond in near real-time to critical situations, such as leaks or adverse weather events. We are also working with a government agency to analyze its video monitoring feeds to identify potential public safety risks.

Qx Anything else you wish to add?

Narendra Mulani: Another area that’s on the rise is Artificial Intelligence – we define it as a collection of multiple technologies that enable machines to sense, comprehend, act and learn, either on their own or to augment human activities. The new technologies include machine learning, deep learning, natural language processing, video analytics and more. AI is disrupting how businesses operate and compete and we believe it will also fundamentally transform and improve how we work and live. When an organization is pursuing an AI project, it’s our belief that it should be business-oriented, people-focused, and technology rich for it to be most effective.

———

As Chief Analytics Officer and Head Geek – Accenture Analytics, Narendra Mulani is responsible for creating a culture of analytics and driving Accenture’s strategic agenda for growth across the business. He leads a dedicated team of 17,000 Analytic professionals that serve clients around the globe, focusing on value creation through innovative solutions that combine industry and functional knowledge with analytics and technology.

Narendra has held a number of leadership roles within Accenture since joining in 1997. Most recently, he was the managing director – Products North America, where he was responsible for creating value for our clients across a number of industries. Prior to that, he was managing director – Supply Chain, Accenture Management Consulting, leading a global practice responsible for defining and implementing supply chain capabilities at a diverse set of Fortune 500 clients.

Narendra graduated from Bombay University in 1978 with a Bachelor of Commerce, and received an MBA in Finance in 1982 as well as a PhD in 1985 focused on Multivariate Statistics, both from the University of Massachusetts.

Outside of work, Narendra is involved with various activities that support education and the arts. He lives in Connecticut with his wife Nita and two children, Ravi and Nikhil.

———-

Resources

– Ducati is Analytics Driven. Analytics takes Ducati around the world at speed and precision.

Accenture Analytics. Launching an insights-driven transformation.  Download the point of view on analytics operating models to better understand how high performing companies are organizing their capabilities.

– Accenture Cyber Intelligence Platform. Analytics helping organizations to continuously predict, detect and combat cyber attacks.

–  Data Acceleration: Architecture for the Modern Data Supply Chain, Accenture

Related Posts

On Big Data and Data Science. Interview with James KobielusSource: ODBMS Industry Watch,  2016-04-19

On the Internet of Things. Interview with Colin Mahony Source: ODBMS Industry Watch, 2016-03-14

A Grand Tour of Big Data. Interview with Alan MorrisonSource: ODBMS Industry Watch, 2016-02-25

On the Industrial Internet of Things. Interview with Leon GuzendaSource: ODBMS Industry Watch,  2016-01-28

On Artificial Intelligence and Society. Interview with Oren EtzioniSource: ODBMS Industry Watch,  2016-01-15

 

Follow us on Twitter: @odbmsorg

##

May 17 16

On data analytics for finance. Interview with Jason S.Cornez.

by Roberto V. Zicari

“Understanding human language remains a difficult problem. The challenges here are not only technical, but there is also a perception from popular culture that computers today perform at the level we see in science fiction. So there is a gap between what is expected and what is possible.”–Jason S.Cornez.

I have interviewed Jason S.Cornez, Chief Technology Officer, RavenPack. Main topic of the interview is unstructured data analytics for finance.

RVZ

Q1. What is the business of RavenPack?

Jason S.Cornez: We specialize in the systematic analysis of unstructured data for finance. RavenPack Analytics transforms unstructured big data sets,such as traditional news and social media, into structured granular data and indicators to help financial services firms improve their performance. RavenPack addresses the challenges posed by the characteristics of Big Data – volume, variety, veracity and velocity – by converting unstructured content into a format that can be more effectively analyzed, manipulated and deployed in financial applications.

Q2. How is Deutsche Bank using RavenPack News Analytics as an overlay to a pairs trading strategy?

Jason S.Cornez: The profits and risks from trading stock pairs are very much related to the type of information event which creates divergence. If divergence is caused by a piece of news related specifically to one constituent of the pair, there is a good chance that prices will diverge further. On the other hand, if divergence is caused by random price movements or a differential reaction to common information, convergence is more likely to follow after the initial divergence. To test the effects of news on a pairs trading strategy, Deutsche Bank used two aggregated indicators based on RavenPack’s Big Data analytics derived from news and social media data measuring sentiment and media attention.
Specifically, using the two indicators, Deutsche Bank created a filter that would ignore trades where divergence was supported by negative sentiment and abnormal news volume.
Overall, Deutsche Bank finds that applying a news analytics overlay can help differentiate between “good” price divergence (which is likely to converge) and “bad” divergence. More importantly, such ability provides significant improvements to the performance of a traditional pairs trading strategy, especially by reducing divergence risk.

Q3. Who needs sentiment analytics in finance and why?

Jason S.Cornez: Sentiment analytics can help improve performance of trading strategies,reduce risk, and monitor compliance. Quantitative investors often subscribe to RavenPack Analytics granular data. This provides them with the ability to detect relevant, novel and unexpected events – be they corporate, macroeconomic or geopolitical -so they can enter new positions, or protect existing ones. These events, and the sentiment associated with them, help drive alpha generation as a novel factor in automated trading models.

Traditional Asset Managers, such as those managing hedge funds, mutual funds, pension funds and family offices may subscribe to RavenPack Indicators to help run portfolio optimization. The Indicators provide snapshots of sentiment and information density for an entity or instrument that can be used alongside fundamental or technical indicators to build portfolios with better risk/return profiles.

Brokerage and Market Makers can leverage RavenPack sentiment data to manage risk and generate trade ideas. They rely on RavenPack’s detection of relevant, novel and unexpected events – be they corporate, macroeconomic or geopolitical – to create circuit breakers protecting them from event risk.

Risk and Compliance Managers use RavenPack data to monitor accumulation of adverse sentiment or detect headline risk. The data help risk managers locate accumulations of risk and volatility, or changes in liquidity – either by aggregating sentiment, identifying event-driven regime shifts, or by creating alerts for when sentiment indicators reach extremes. As well, RavenPack event data also aids surveillance analysts to receive fewer false positives from market abuse alerts.

Finally, Professional and Academic researchers use RavenPack data to better understand how news and social media affect markets. They want to inform their clients how to find new sources of value and, hence, research and write about how quantitative investment managers find value in the data. RavenPack’s granular data is a great source of unique data for academics to enhance their published research – be it presenting a new way to use the data or controlling for news and social media in their work.

Q4. What are the main challenges and opportunities for Big Data analytics for financial markets?

Jason S.Cornez: Much of the work so far in Big Data analytics has been confined to structured data. These are sets of labeled and elementized values, such as what you might find in a traditional database table. Tools like Hadoop and Spark have helped to make structured big data analyitcs approachable.

RavenPack has always focused on unstructured data, primarily English-language text. Doing analytics here isn’t just about data mining, it requires more sophisticated processing for each document. Understanding human language remains a difficult problem. The challenges here are not only technical, but there is also a perception from popular culture that computers today perform at the level we see in science fiction. So there is a gap between what is expected and what is possible. One of our goals here is certainly to help make computers a little smarter.

Things start to get really interesting when you produce analytics by marrying structured data with unstructured data. A simple example could be a news story where an analyst expects mortgage rates to hit 4% by summer. It is certainly great if a computer understands that this is a story about interest rate guidance, but so much better if the computer is able to combine this with historical mortgage rates to know that the rates are currently rising, but still far below historical norms. As an industry, I don’t think too much has been done here yet, but that we’ll be seeing more activity here in the coming years.

Financial markets rely on information in order to be efficient. Big Data analytics promises to provide more information, and more types of information, faster than was previously possible. A more efficient market could help to level the playing field, as it were. And even if markets never become truly efficient, the financial industry sees that Big Data analytics can certainly help them. Several of these opportunities were addressed in the answer to the previous question.

Q5. What are your practical experience in building an infrastructure for Big Data Analytics of mostly unstructured text content, in realtime?

Jason S.Cornez: RavenPack has been processing Big Data since before Cloud Computing was a practical reality. We noticed that most competitors in the news analytics space were offering software solutions, whereas RavenPack has always been a service provider. We sell data, not software. As such we invested in our own infrastructure maintained at trusted hosting facilities. This was perhaps not the easiest or cheapest route, but it leads to compelling products that are relatively easy for a customer to adopt.

From the beginning, we’ve built a distributed system where collection, storage, classification, analytics, publication, and monitoring all run on distinct machines connected by a high-speed network. We learned virtualization technologies so that we could leverage our hardware investments more efficiently. We’ve been rigorous about maintaining a separation of concerns and establishing well-defined interfaces between our components. This not only makes our system robust, but it also allows us to choose the best technologies for each task.

In recent years, we’ve migrated to Cloud Computing and our early investments in distributed systems are really paying off. Most of our components work directly in the cloud and also scale without additional engineering work.

Q6. How do you manage to have a very low latency?

Jason S.Cornez: Low latency has always been a requirement of the system. Starting with low-latency, realtime processing in mind led to many of the architectural decisions that I mentioned above – especially about being distributed and being able to leverage big hardware. It’s painful to think about re-engineering an existing system that wasn’t designed with low latency in mind.

A specific observation is that storage, especially magnetic based storage, is far slower than CPU and also far slower than networking. So we have a heavily multi-threaded system where all storage tasks are delegated to background threads and the flow of data in the realtime system never needs to wait on a database.

Speaking of multi-threading, RavenPack performs various types of classification on each document. Many of these are independent and can be performed in parallel. As well, within a single document and single type of classification, many aspects work only on local information, such as a paragraph. This work can also be done in parallel. As more powerful, multi-core machines continue to appear, our system can continue to improve.

Of course, low latency really begins with good algorithms and good tools. We measure the system as a whole on a daily basis and we profile our code for both speed and space on a regular basis. At times, there is a trade-off between a feature and doing it feasibly. We often sacrifice a new feature until we can solve how to implement it without negatively impacting the performance of our system.

Q7. What are the main technological challenges you are currently facing?

Jason S.Cornez: There are many challenges ahead. Some of the obvious ones are about branching out from English into other languages, or from plain text to other media formats.

On the purely technical side, we see that cloud computing and big data are still very young fields. Cloud resources are much more ephemeral than those in a controlled, hosted environment. We must adapt software to work well in the face of disappearing machines and inaccessible resources. One example is startup time of a system. Traditionally, startup is a rare event and our servers run for a long time. But now that changes, and system startup is much more frequent and hence must be made more efficient. We are evolving rapidly in these areas right now.

Perhaps the biggest challenge remains the perception gap that I mentioned earlier. I’m very proud of the system we’ve built, but it remains possible for a human to find an entity or an event in a document that our system misses. I don’t think this problem will ever go away, but I’m confident RavenPack is making great strides here.

Q8. Why and how do you use Allegro Common Lisp?

Jason S.Cornez: RavenPack has been using Franz Allegro Common Lisp since we began. It is the primary language we use for analysis and classification of unstructured text. Common Lisp is an excellent language for both exploratory programming and high performance computing.

Common Lisp is a multi-paradigm language, or even a paradigm-neutral language. So the engineer has the flexibility to map from concept to code in the most natural way possible. Some concepts map naturally to an object-oriented design, others to a functional design, and other to an imperative design. The language naturally supports all of these so you never need to map from your concept into the philosophy of the language. And further, lisp is a programmable programming language, so as new paradigms come along, they can be added to the language by any developer. This is so easy and natural in Common Lisp that you often do it even when there is only a single use case in mind.

Common Lisp also shines for deploying and maintaining production software. Of course, it supports native OS threads, native machine compilation, and high performance garbage collection. But as well, you can attach to, inspect, modify and patch live systems.

Q9. What are the main lessons you learned so far?

Jason S.Cornez: It’s been a long and interesting journey, and nearly everything we know now has been learned along the way. One way I like to think about the main lessons learned is to consider what I believe to be the barriers that might make it difficult for a competitor or potential client to replicate what we’ve done.

A significant selling-point of our product that provides lots of value to our clients is our extensive historical archive of analytics. This of course is derived from our archive of content. The curation of such an archive is much harder than most people imagine. There is the minor issue of implementing the spec that the provider supplies. But the fun begins as you realize that the archive is incomplete and in multiple incompatible formats, some of them not documented at all. There are multiple timestamps, many with no timezone. The realtime feed looks different from the historical archive. The list goes on.

None of this is meant as a complaint about our content partners – this is the nature of things. And even having learned this lesson, there isn’t much we could have done differently. Of course, we now have a checklist of questions we give to any new content provider – and they often improve their offering as a result of working with us. But if we hear that incorporating someone’s content will be easy, we now know to take this with a grain of salt.

Qx Anything else you wish to add?

Jason S.Cornez: Thanks for this opportunity. I hope it has been helpful.

———————————
Jason S.Cornez, Chief Technology Officer, RavenPack.
Jason joined RavenPack in 2003 and is responsible for the design and implementation of the RavenPack software platform. He is a hands-on technology leader, with a consistent record of delivering break-through products. 
A Silicon Valley start-up veteran with 20 years of professional experience, Jason combines technical know-how with an understanding of business needs to turn vision into reality. Jason holds a Master’s Degree in Computer Science, along with undergraduate degrees in Mathematics and EECS, from the Massachusetts Institute of Technology.

——————————

Resources

–  Common Lisp Educational Resources:  list of books, Lisp-oriented web sites and tutorials.

–  Basic Lisp Techniques: The PDF file provides an introduction to the Common Lisp language.

–  Mean Reversion II: Pairs Trading Strategies (LINK to .PDF) – Registration required-, Deutsche Bank, Feb. 16, 2016.  In this paper, Deutsche Bank shows how to use RavenPack News Analytics as an overlay to a pairs trading strategy.

Related Posts

– Enterprise Information Extraction. BY Yunyao Li, Research Manager, Scalable Natural Language Processing (SNaP) Group, IBM Research–Almaden.ODBMS.org, MAY 9, 2016.

– Big Data: Content and Technology. BY Gio Wiederhold, ODBMS.org, May 2016

– Above the Clouds: What Modern IT Portends. BY Filippo Balestrieri and Bernardo A. Huberman, Hewlett Packard Labs, ODBMS.org, MARCH 30, 2016.

– “Civility in the Age of Artificial Intelligence”. BY STEVE LOHR, technology reporter for The New York Times and the author of “Data-ism”.ODBMS.org, FEBRUARY 6, 2016.

Follow ODBMS.org on Twitter: @odbmsorg
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May 2 16

Using NoSQL for Ireland’s Online Tax Research Database.

by Roberto V. Zicari

“When the Institute began to look for a new platform, it became apparent that a relational database was not the best solution to effectively manage and deliver our XML content.”–Martin Lambe.

The Irish Tax Institute is the leading representative and educational body for Ireland’s AITI Chartered Tax Advisers (CTA) and is the only professional body exclusively dedicated to tax. One of their service is TaxFind – Ireland’s Leading Online Tax Research Database, offering Search to 200,000 pages of tax content, over 8,000 pages of Irish tax legislation, Irish Tax Institute tax technical papers, over 25 leading tax commentary publications, and 1000s of Irish Tax Review articles.

I did a joint interview with Martin Lambe, CEO of the Irish Tax Institute and Sam Herbert, Client Services Director at 67 Bricks.
Main topics of the interview are the data challenges they currently face, and the implementation of TaxFind using MarkLogic.

RVZ

Q1. What are the main data challenges you currently have at the Irish Tax Institute?

Martin Lambe: The Irish Tax Institute moved its publication workflow to an XML-based process in 2009 and we have a large archive of valuable tax information contained in quite complex XML format. The main challenge was to find a solution that could store the repository of data (XML and other formats) and provide a simple search interface that directs users very quickly to the most relevant result. The “findability” of relevant content is crucial.

Q2. What is the TaxFind research database?

Martin Lambe: The Irish Tax Institute is the main provider of tax information in Ireland and TaxFind is the Institute’s online tax research database. TaxFind offers subscribers access to Irish tax legislation and guidance that includes tax technical papers from seminars and conferences, as well as over 30 tax commentary publications. It is used by thousands of CTAs in Ireland on a daily basis to assist in their tax research.

Q3. Who are the members that benefit from this TaxFind research database?

Martin Lambe: TaxFind serves the Chartered Tax Adviser (CTA) community in Ireland and other tax professionals such as those in the global accounting firms.

Q4. Why did you discard your previous implementation with a relational database system?

Martin Lambe: The previous database was literally creaking at the seams. Users were increasingly frustrated with difficulties accessing the database on different browsers and the old platform did not support mobile devices or tablets. When the Institute began to look for a new platform, it became apparent that a relational database was not the best solution to effectively manage and deliver our XML content. XML content stored in a NoSQL document database is indexed specifically for the search engine and this means the performance of our search engine and the relevancy of results is dramatically improved.

Q5. Why did you select MarkLogic`s NoSQL database platform?

Sam Herbert: MarkLogic is scalable to support fast querying across large amounts of data, it deals with XML content very well (and most of the tax data is either in XML, or in HTML that can be treated as XHTML), and has good searching. It is also a good environment to develop in – it has excellent documentation, and good tooling. It helps that it uses XQuery as one of its query languages, rather than a proprietary database-specific language.

Q6. Is SQL still important for you?

Sam Herbert: I don’t think it’s true to say that any particular type of technology is “important” to ITI – it’s all about how it can benefit users. From a 67 Bricks perspective, we work with relational databases, NoSQL databases, and graph databases depending on what shape the data is and what the needs are around querying it.

Q7 Why not choose an open source solution?

Sam Herbert: We’re using Open Source components in other parts of the system, and we’re keen on using Open Source where possible. However, for the data store, there aren’t any Open Source alternatives that have the combination of good scalability, good support for XML content, a standard query language, and powerful searching that we were looking for.

Q8. Can you tell us a bit about the architecture of the new implementation of the TaxFind research database

Sam Herbert: There are three major components:

– a frontend display and service layer written using the Play framework
– the MarkLogic data store
– a semantic enrichment component using Semaphore SmartLogic and the ITI taxonomy

The Play component is what users interact with – both for human users coming to the web site, and automated use of the web services. The bulk of the data retrieval and manipulation is done via a set of XQuery functions defined within the MarkLogic store. When new data is uploaded, it is processed within the Play code, enriched using Semaphore SmartLogic, and then stored in MarkLogic.

Q9. How do you manage to integrate Irish Tax Institute`s tax data, bringing together in excess of 300,000 pages of tax content including archive material in Word, PDF, XML and HTML?

Sam Herbert: The most complex part of the data is the XML content. These are very large XML files representing legislation, books, and other tax materials, that are inter-related in complex ways, and with a lot of deeply nested hierarchy. An important part of managing the data was splitting these into appropriately sized fragments, and then identifying the linking between different files – for example a piece of legislation will refer to other legislation, and commentary will refer to that legislation, and a new piece of legislation may supersede an earlier piece.

The non-XML content is larger in volume, but each individual document is smaller and is structurally simpler. Managing this content was largely a matter of loading it in and letting it be indexed.

Q10. How do you capture and digitize information in various formats and make it searchable?

Sam Herbert: Making it searchable is straightforward – it’s making it searchable in ways that support the expectations of the users that’s much more difficult.

A good search experience requires both subject matter expertise and good automated tests.

The basic search is using MarkLogic’s full text search. The next step was to work with tax experts within and outside the ITI to identify appropriate facets within the content with which to group the results – based on a combination of what the user requirements were and what was supported by the data.

There were additional complexities around weighting the search results to make the “best” results come at the top in as many circumstances as possible – for example, weighting terms within headings, weighting more recent content, weighting content based on its category so legislation is more important than commentary, and weighting content higher based on its popularity. The semantic enrichment based on tax terms from the ITI taxonomy also enhances the searching.

Q11. How do you ensure that this solution is scalable?

Sam Herbert: The solution is deployed to a load-balanced cluster using Amazon Web Services. The Play frontend is purely stateless REST. This means that we can scale to support more users easily by spinning up more servers – and using AWS makes this easy. Overall, using AWS has been a big win for us, in terms of being able to get servers running easily, being able to increase and decrease things like their memory size easily, and the various ancillary services it provides like DNS and load balancing. By making sure we can scale to support additional data, we can use MarkLogic effectively.

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Martin Lambe is Chief Executive of the Irish Tax Institute. His previous role within the Institute was that of Director of Finance.

Sam Herbert is Client Services Director at 67 Bricks, a company that works with information owners (particularly publishers) who want to enrich their content to make it more structured, granular, flexible and reusable.
67 Bricks utilises its deep understanding of the content enrichment challenge to help publishers develop systems and capabilities to increase the value of their content. With expertise in XML, business analysis, semantic tagging and software development, 67 Bricks works closely with its clients to develop and implement content enrichment capabilities and enriched content digital products.

————-
Resources

Irish Tax Institute

TaxFind

67 Bricks

MarkLogic

Related Posts

The rise of immutable data stores. By Alan Morrison, Senior Manager, PwC Center for technology and innovation (CTI). ODBMS.org

Unthink: Moving Beyond the Constraints of Relational Databases. by Tom McGrath, MarkLogic. ODBMS.org March 14, 2016.

MarkLogic Case Study: Royal Society of Chemistry.ODBMS.org

On making information accessible. Interview with David Leeming. ODBMS Industry Watch, on July 30, 2014

Follow us on Twitter: @odbmsorg

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Apr 19 16

On Big Data and Data Science. Interview with James Kobielus

by Roberto V. Zicari

“One of the most typical mistakes in large-scale data projects is losing sight of the biases that may skew the insights you extract.”– James Kobielus

On the topics of Big Data, and Data Science, I have interviewed James Kobielus, IBM Big Data Evangelist.

RVZ

Q1. What kind of companies generate Big Data, besides the Internet giants?

James Kobielus: Big data isn’t something you “generate.” Rather, the term refers to the ability to achieve differentiated value from advanced analytics on trustworthy data at any scale. In other words, it’s a best practice, not a specific type of data or even a specific scale of data (measured in volume, velocity, and/or variety).

When considered in this light, you can identify big data analytic applications in every industry. Every C-level executive has strategic applications of big data. Here are just a smattering:

  • Chief Marketing Officers have been the prime movers on many big data initiatives that involve Hadoop, NoSQL, and other approaches. Their primary applications consist of marketing campaign optimization, customer churn and loyalty, upsell and cross-sell analysis, targeted offers, behavioral targeting, social media monitoring, sentiment analysis, brand monitoring, influencer analysis, customer experience optimization, content optimization, and placement optimization
  • Chief Information Officers use big data platforms for data discovery, data integration, business analytics, advanced analytics, exploratory data science.
  • Chief Operations Officers rely on big data for supply chain optimization, defect tracking, sensor monitoring, and smart grid, among other applications.
  • Chief Information Security Officer run security incident and event management, anti-fraud detection, and other sensitive applications on big data.
  • Chief Technology Officers do IT log analysis, event analytics, network analytics, and other systems monitoring, troubleshooting, and optimization applications on big data.
  • Chief Financial Officers run complex financial risk analysis and mitigation modeling exercises on big data platforms.

Q2. What are the most challenging problems you are facing when analysing Big Data?

James Kobielus: Searching for actionable intelligence in big data involves building and testing advanced-analytics models against large volumes of complex data that may be flowing in at high velocities.

At these scales, it’s easy to get overwhelmed in your analysis unless you automate the end-to-end processes of extracting intelligence at scale. Automation can also help control the cost of managing a growing volume of algorithmic models against ever expanding big-data collections. The key processes that need automating are data discovery, profiling, sampling, and preparation, as well as model building, scoring, and deployment.

Q3. How do you typically handle them?

James Kobielus: Automating the modeling process will boost data scientist productivity by an order of magnitude, freeing them from drudgery so that they can focus on the sorts of exploration, modeling, and visualization challenges that demand expert human judgment. Data scientists can accelerate their modeling automation initiatives by following these steps:

  • Virtualize access to data, metadata, rules, and predictive models, as well as to data integration, data warehousing, and advanced analytic applications through a BI semantic virtualization layer;
  • Unify access, governance, orchestration, automation, and administration across these resources within a service-oriented architecture;
  • Explore commercial tools that support maximum automation of model development, scoring, deployment, and execution;
  • Consolidate, accelerate, and deepen predictive analytics through integration into big-data platforms with scalable in-database execution; and
  • Migrate existing analytical data marts into multidomain big-data platforms with unified data, metadata, and model governance within service-oriented virtualization framework.

Q4. What are in your experience the typical mistakes made in large scale data projects?

James Kobielus: One of the most typical mistakes in large-scale data projects is losing sight of the biases that may skew the insights you extract.

Even if you accept that a data scientist’s integrity is rock-solid, intentions pure, skills stellar, and discipline rigorous, there’s no denying that bias may creep inadvertently into their work with big data. The biases may be minor or major, episodic or systematic, tangential or material to their findings and recommendations. Whatever their nature, the biases must be understood and corrected as fully as possible.

Here are some of the key sources of bias that may crop up in a data scientist’s work with big data:

  • Cognitive bias: This is the tendency to make skewed decisions based on pre-existing cognitive and heuristic factors–such as a misunderstanding of probabilities–rather than on the data and other hard evidence. You might say that the educated intuition that drives data science is rife with cognitive bias, but that’s not always a bad thing.
  • Selection bias: This is the tendency to skew your choice of data sources to those that may be most available, convenient, and cost-effective for your purposes, as opposed to being necessarily the most valid and relevant for your study. Clearly, data scientists do not have unlimited budgets, may operate under tight deadlines, and don’t use data for which they lack authorization. These constraints may introduce an unconscious bias in the big-data collections they are able to assemble.
  • Sampling bias: This is the tendency to skew the sampling of data sets toward subgroups of the population most relevant to the initial scope of a data-science project, thereby making it unlikely that you will uncover any meaningful correlations that may apply to other segments. Another source of sampling bias is “data dredging,” in which the data scientist uses regression techniques that may find correlations in samples but that may not be statistically significant in the wider population. Consequently, you’re likely to spuriously confirm your initial model for the segments that happen to make the sampling cut.
  • Modeling bias: Beyond the biases just discussed, this is the tendency to skew data-science models by starting with a biased set of project assumptions that drive selection of the wrong variables, the wrong data, the wrong algorithms, and the wrong metrics of fitness. In addition, overfitting of models to past data without regard for predictive lift is a common bias. Likewise, failure to score and iterate models in a timely fashion with fresh observational data also introduces model decay, hence bias.
  • Funding bias: This may be the most silent but pernicious bias in data-scientific studies of all sorts. It’s the unconscious tendency to skew all modeling assumptions, interpretations, data, and applications to favor the interests of the party–employer, customer, sponsor, etc.–that employs or otherwise financially supports the data-science initiative. Funding bias makes it highly unlikely that data scientists will uncover disruptive insights that will “break the rice bowl” in which they make their living.

Q5. How do you measure “success” when analysing data?

James Kobielus: You measure success in your ability to distill useful insights in a timely fashion from the data at your disposal.

Q6. What skills are required to be an effective Data Scientist?

James Kobielus: Data science’s learning curve is formidable. To a great degree, you will need a degree, or something substantially like it, to prove you’re committed to this career. You will need to submit yourself to a structured curriculum to certify you’ve spent the time, money and midnight oil necessary for mastering this demanding discipline.

Sure, there are run-of-the-mill degrees in data-science-related fields, and then there are uppercase, boldface, bragging-rights “DEGREES.” To some extent, it matters whether you get that old data-science sheepskin from a traditional university vs. an online school vs. a vendor-sponsored learning program. And it matters whether you only logged a year in the classroom vs. sacrificed a considerable portion of your life reaching for the golden ring of a Ph.D. And it certainly matters whether you simply skimmed the surface of old-school data science vs. pursued a deep specialization in a leading-edge advanced analytic discipline.

But what matters most to modern business isn’t that every data scientist has a big honking doctorate. What matters most is that a substantial body of personnel has a common grounding in core curriculum of skills, tools and approaches. Ideally, you want to build a team where diverse specialists with a shared foundation can collaborate productively.

Big data initiatives thrive if all data scientists have been trained and certified on a curriculum with the following foundation:

  • Paradigms and practices: Every data scientist should acquire a grounding in core concepts of data science, analytics and data management. They should gain a common understanding of the data science lifecycle, as well as the typical roles and responsibilities of data scientists in every phase. They should be instructed on the various role(s) of data scientists and how they work in teams and in conjunction with business domain experts and stakeholders. And they learn a standard approach for establishing, managing and operationalizing data science projects in the business.
  • Algorithms and modeling: Every data scientist should obtain a core understanding of linear algebra, basic statistics, linear and logistic regression, data mining, predictive modeling, cluster analysis, association rules, market basket analysis, decision trees, time-series analysis, forecasting, machine learning, Bayesian and Monte Carlo Statistics, matrix operations, sampling, text analytics, summarization, classification, primary components analysis, experimental design, unsupervised learning constrained optimization.
  • Tools and platforms: Every data scientist should master a core group of modeling, development and visualization tools used on your data science projects, as well as the platforms used for storage, execution, integration and governance of big data in your organization. Depending on your environment, and the extent to which data scientists work with both structured and unstructured data, this may involve some combination of data warehousing, Hadoop, stream computing, NoSQL and other platforms. It will probably also entail providing instruction in MapReduce, R and other new open-source development languages, in addition to SPSS, SAS and any other established tools.
  • Applications and outcomes: Every data scientist should learn the chief business applications of data science in your organization, as well as in how to work best with subject-domain experts. In many companies, data science focuses on marketing, customer service, next best offer, and other customer-centric applications. Often, these applications require that data scientists understand how to leverage customer data acquired from structured survey tools, sentiment analysis software, social media monitoring tools and other sources. It also essential that every data scientist gain an understanding of the key business outcomes–such as maximizing customer lifetime value–that should focus their modeling initiatives.

Classroom instruction is important, but a curriculum that is 100 percent devoted to reading books, taking tests and sitting through lectures is insufficient. Hands-on laboratory work is paramount for a truly well-rounded data scientist. Make sure that your data scientists acquire certifications and degrees that reflect them actually developing statistical models that use real data and address substantive business issues.

A business-oriented data-science curriculum should produce expert developers of statistical and predictive models. It should not degenerate into a program that produces analytics geeks with heads stuffed with theory but whose diplomas are only fit for hanging on the wall.

Q7. Hadoop vs. Spark: what are the pros and cons?

James Kobielus: Big data analytics infrastructures are growing more hybridized than ever. Every new technology—such as Hadoop, in-memory databases, and graph databases—finds its specific niche in terms of use cases, deployment modes, and applications for which it is best suited.

Even as Apache Spark pushes more deeply into big-data environments, it won’t substantially change this trend. Yes, of course Spark is on the fast track to ubiquity in big-data analytics. This is especially true for the next generation of machine-learning applications that feed on growing in-memory pools and require low-latency distributed computations for streaming and graph analytics. But those use cases aren’t the sum total of big-data analytics and never will be.

As we all grow more infatuated with Spark, it’s important to continually remind ourselves of what it’s not suitable for. If, for example, one considers all the critical data management, integration, and preparation tasks that must be performed prior to modeling in Spark, it’s clear that these will not be executed in any of the Spark engines (Spark SQL, Spark Streaming, GraphX). Instead, they’ll be carried out in the data platforms and elastic clusters (HDFS, Cassandra, HBase, Mesos, cloud services, etc.) upon which those engines run. Likewise, you’d be hardpressed to find anyone who’s seriously considering Spark in isolation for data warehousing, data governance, master data management, or operational business intelligence.

Above all else, Spark is the new power tool for data scientists who are pushing boundaries in the emerging era of in-memory big data analytics in low-latency scenarios of all types. Spark is proving its value as a development tool for the new generation of data scientists building the in-memory statistical models upon which it all will depend.

Let’s not fall into the delusion that everything is converging toward Spark, as if it were the ravenous maw that will devour every other big-data analytics tool and platform. Spark is just another approach that’s being fitted to and optimized for specific purposes.

And let’s resist the hype that treats Spark as Hadoop’s “successor.” This implies that Hadoop and other big-data approaches are “legacy,” rather than what they are, which is foundational. For example, no one is seriously considering doing “data lakes,” “data reservoirs,” or “data refineries” on anything but Hadoop or NoSQL.

——————–

James Kobielus is an industry veteran and serves as IBM Big Data Evangelist; Senior Program Director for Product Marketing in Big Data Analytics; and Team Lead, Technical Marketing, IBM Big Data & Analytics Hub. He spearheads thought leadership activities across the IBM Analytics solution portfolio. He has spoken at such leading industry events as IBM Insight, Hadoop Summit, and Strata. He has published several business technology books and is a very popular provider of original commentary on blogs and many social media.

Resources

–  Master of Information and Data Science,  UC Berkeley School of Information.

– MS in Data Science, NYU Center for Data Science.

– Free data science curriculum, kdnuggets.com

Data Science | Coursera

– Master of Science in Data Science – Data Science Institute

Data Mining and Applications Graduate Certificate, Stanford

The European Data Science Academy (EDSA) designs curricula for data science training and data science education across the European Union (EU).

-The EDISON project will focus on activities to establish the new profession of ‘Data Scientist’, following the emergence of Data Science technologies (also referred to as Data Intensive or Big Data technologies) which changes the way research is done, how scientists think and how the research data are used and shared. This includes definition of the required skills, competences framework/profile, corresponding Body Of Knowledge and model curriculum. It will develop a sustainability/business model to ensure a sustainable increase of Data Scientists, graduated from universities and trained by other professional education and training institutions in Europe. 
EDISON will facilitate the establishment of a Data Science education and training infrastructure at major European universities by promoting experience of ‘champion’ universities involving them into coordinated development and implementation of the model curriculum and creation of cooperative educational and training infrastructure.

Related Posts

– RIP Big Data, By Carl Olofson, Research Vice President, Data Management Software Research, IDC. ODBMS.org, January  2016

Open Source Software and IBM’s Big Data platform. By Cynthia M. Saracco, senior solutions architect at IBM’s Silicon Valley Laboratory. ODBMS.org, April 2016.

Looking back at Big Data in 2015, By Cynthia M. Saracco, IBM Senior Solution Architect, ODBMS.org. November 2015

–  Heuristics for a Data Scientist: A common sense approach. BY Silvia Dassiè, Data Scientist at Ryanair. ODBMS.org, December 2015

The rise of immutable data stores. By Alan Morrison, Senior Manager, PwC Center for technology and innovation. ODBMS.org. October 2015

Follow us on Twitter: @odbmsorg

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Apr 2 16

Recruit Institute of Technology. Interview with Alon Halevy

by Roberto V. Zicari

” A revolution will happen when tools like Siri can truly serve as your personal assistant and you start relying on such an assistant throughout your day. To get there, these systems need more knowledge about your life and preferences, more knowledge about the world, better conversational interfaces and at least basic commonsense reasoning capabilities. We’re still quite far from achieving these goals.”–Alon Halevy

I have interviewed Alon Halevy, CEO at Recruit Institute of Technology.

RVZ

Q1. What is the mission of the Recruit Institute of Technology?

Alon Halevy: Before I describe the mission, I should introduce our parent company Recruit Holdings to those who may not be familiar with it. Recruit (founded in 1960), is a leading “life-style” information services and human resources company in Japan with services in the areas of recruitment, advertising, employment placement, staffing, education, housing and real estate, bridal, travel, dining, beauty, automobiles and others. The company is currently expanding worldwide and operates similar businesses in the U.S., Europe and Asia. In terms of size, Recruit has over 30,000 employees and its revenues are similar to those of Facebook at this point in time.

The mission of R.I.T is threefold. First, being the lab of Recruit Holdings, our goal is to develop technologies that improve the products and services of our subsidiary companies and create value for our customers from  the vast collections of data we have. Second, our mission is to advance scientific knowledge by contributing to the research community through publications in top-notch venues. Third, we strive to use technology for social good. This latter goal may be achieved through contributing to open-source software, working on digital artifacts that would be of general use to society, or even working with experts in a particular domain to contribute to a cause.

Q2. Isn`t similar to the mission of the Allen Institute for Artificial Intelligence?

Alon Halevy: The Allen Institute is a non-profit whose admirable goal is to make fundamental contributions to Artificial Intelligence. While R.I.T strives to make fundamental contributions to A.I and related areas such as data management, we plan to work closely with our subsidiary companies and to impact the world through their products.

Q3. Driverless cars, digital Personal Assistants (e.g. Siri), Big Data, the Internet of Things, Robots: Are we on the brink of the next stage of the computer revolution?

Alon Halevy: I think we are seeing many applications in which AI and data (big or small) are starting to make a real difference and affecting people’s lives. We will see much more of it in the next few years as we refine our techniques. A revolution will happen when tools like Siri can truly serve as your personal assistant and you start relying on such an assistant throughout your day. To get there, these systems need more knowledge about your life and preferences, more knowledge about the world, better conversational interfaces and at least basic commonsense reasoning capabilities. We’re still quite far from achieving these goals.

Q4. You were for more than 10 years senior staff research scientist at Google, leading the Structured Data Group in Google Research. Was it difficult to leave Google?

Alon Halevy: It was extremely difficult leaving Google! I struggled with the decision for quite a while, and waving goodbye to my amazing team on my last day was emotionally heart wrenching. Google is an amazing company and I learned so much from my colleagues there. Fortunately, I’m very excited about my new colleagues and the entrepreneurial spirit of Recruit.
One of my goals at R.I.T is to build a lab with the same culture as that of Google and Google Research. So in a sense, I’m hoping to take Google with me. Some of my experiences from a decade at Google that are relevant to building a successful research lab are described in a blog post I contributed to the SIGMOD blog in September, 2015.

Q5. What is your vision for the next three years for the Recruit Institute of Technology?

Alon Halevy: I want to build a vibrant lab with world-class researchers and engineers. I would like the lab to become a world leader in the broad area of making data usable, which includes data discovery, cleaning, integration, visualization and analysis.
In addition, I would like the lab to build collaborations with disciplines outside of Computer Science where computing techniques can make an even broader impact on society.

Q6. What are the most important research topics you intend to work on?

Alon Halevy: One of the roadblocks to applying AI and analysis techniques more widely within enterprises is data preparation.
Before you can analyze data or apply AI techniques to it, you need to be able to discover which datasets exist in the enterprise, understand the semantics of a dataset and its underlying assumptions, and to combine disparate datasets as needed. We plan to work on the full spectrum of these challenges with the goal of enabling many more people in the enterprise to explore their data.

Recruit being a lifestyle company, another  fundamental question we plan to investigate is whether technology can help people make better life decisions. In particular, can technology help you take into consideration many factors in your life as you make decisions and steer you towards decisions that will make you happier over time. Clearly, we’ll need more than computer scientists to even ask the right questions here.

Q7. If we delegate decisions to machines, who will be responsible for the consequences? What are the ethical responsibilities of designers of intelligent systems?

Alon Halevy: You got an excellent answer from Oren Etzioni to this question in a recent interview. I agree with him fully and could not say it any better than he did.

Qx Anything you wish to add?

Alon Halevy: Yes. We’re hiring! If you’re a researcher or strong engineer who wants to make real impact on products and services in the fascinating area of lifestyle events and decision making, please consider R.I.T!

———-

Alon Halevy is the Executive Director of the Recruit Institute of Technology. From 2005 to 2015 he headed the Structured Data Management Research group at Google. Prior to that, he was a professor of Computer Science at the University of Washington in Seattle, where he founded the Database Group. In 1999, Dr. Halevy co-founded Nimble Technology, one of the first companies in the Enterprise Information Integration space, and in 2004, Dr. Halevy founded Transformic, a company that created search engines for the deep web, and was acquired by Google.
Dr. Halevy is a Fellow of the Association for Computing Machinery, received the Presidential Early Career Award for Scientists and Engineers (PECASE) in 2000, and was a Sloan Fellow (1999-2000). Halevy is the author of the book “The Infinite Emotions of Coffee”, published in 2011, and serves on the board of the Alliance of Coffee Excellence.
He is also a co-author of the book “Principles of Data Integration”, published in 2012.
Dr. Halevy received his Ph.D in Computer Science from Stanford University in 1993 and his Bachelors from the Hebrew University in Jerusalem.

Resources

– Civility in the Age of Artificial Intelligence,  by STEVE LOHR, technology reporter for The New York Times, ODBMS.org

The threat from AI is real, but everyone has it wrong, by Robert Munro, CEO Idibon, ODBMS.org

Related Posts

On Artificial Intelligence and Society. Interview with Oren Etzioni, ODBMS Industry Watch.

– On Big Data and Society. Interview with Viktor Mayer-Schönberger ODBMS Industry Watch.

Follow us on Twitter: @odbmsorg

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