“With IBM having contributed huge amounts of code and other resources to Spark we are likely to see an explosion in the number of new machine learning components.”–Leon Guzenda
I have interviewed Leon Guzenda, co- founder of Objectivity, Inc. We covered in the interview: the Industrial Internet of Things, Sensor Fusion systems and ThingSpan.
Q1. What is the Industrial Internet of Things (IIoT) ? How is it different from the Internet of Things (IoT) ?
Leon Guzenda: The IIoT generally refers to the application of IoT technologies to manufacturing or process control problems. As such it is a subset of IoT with specialized extensions for the problems that it has to tackle.
Q2. What is a sensor fusion system?
Leon Guzenda: A sensor fusion system takes data streamed from multiple sensors and combines it, and possibly other data, to form a composite view of a situation or system. An example would be combining data from different kinds of reconnaissance sources, such as images, signals intelligence and infrared sensors, taken from different viewpoints to produce a 3D visualization for tracking or targeting purposes.
Leon Guzenda: Some sensor fusion systems combine one or a few types of data from multiples sources, such as the detectors in a linear accelerator, or measurements from medical instruments, though there may be many variants of a single kind of data. However, most have to handle a wide variety of data types, ranging from video to documents and streams of financial or other information. The data may be highly interconencted by many types of relationship, forming tree or graph structures. The DBMS must make it easy to track the provenance and quality of data as algorithms are applied to the raw data to make it suitable for downstream processes and queries. The DBMS must have low latency, i.e. the time from receiving data to it being available to multiple users. It has to be able to cope with fast moving streams of data in addition to small transactions and batched inputs. Above all, it must be able to scale and work in distributed environments.
Q4. What are the main technical challenges in capturing and analysing information from many different sources in near real-time for new insights in order to make critical decisions?
Leon Guzenda: The DBMS must have the ability to support compute intensive algorithms, which generally precludes the use of tabular schemas. There is a trend to suing modular, open source components, such as Spark Machine Learning Library (MLlib), so support for Spark Dataframes is important in some applications. It must have a flexible schema so that it can adapt rapidly to deal with new or changed data sources. Maintaining consistent, low latency is challenging when fast moving streams of incoming data have to be merged with and correlated with huge volumes of existing data.
Q5. Why does ‘after the fact analysis’ not work with real-time and data sensor fusion systems?
Leon Guzenda: Processes managed with the help of sensors and fusion systems may fail or get out of control if action isn’t taken immediately when changes occur. In other cases, opportunities may be lost if resources can’t be brought to bear on a problem, be it a cybersecurity or physical threat.
Q6. What is the impact of open source technologies, such as Spark, Kafka, HDFS, YARN, for the Industrial Internet of Things?
Leon Guzenda: Apache Spark provides a scalable, standard and flexible platform for bringing multiple components together to build standard or ad hoc workflows, e.g. with YARN. Kafka and Samza make it easier to split streams of data into pipelines for parallel ingest and query handling. HDFS is good for reliably storing files, but it is far from ideal for handling randomly accessed data as it moves data in 64 MB blocks, increasing latency. Nevertheless, ThingSpan can run on HDFS with data cached by Spark, but we prefer to run it on industry standard POSIX filesystems for most purposes.
With IBM having contributed huge amounts of code and other resources to Spark we are likely to see an explosion in the number of new machine learning components. By combining this with ThingSpan’s graph analytics capabilities, we’ll be able to attack new kinds of problem.
Q7. Why ThingSpan’s offer DO as a query language and not an extension of SQL?
Leon Guzenda: We would like to contribute the graph processing ideas in DO to the SQL community and are seeking partners to try to make that happen. However, our customers need a solution now, so we considered open source options, such as Cypher and SparQL. However, we decided that it would be faster and more controllable to leverage the flexible schema and query handling components within the ThingSpan kernel to give our products a competitive edge, particularly at scale.
Q8. What are the similarities and differences between ThingSpan and Neo4j? They both handle complex graphs.
Leon Guzenda: Both handle Vertex and Edge objects. Neo4j depends on properties whereas ThingSpan can also operate with connections that have no data within them. The ThingSpan declarative query language, DO, incorporates most of the graph querying capabilities of Cypher and extends them with advanced parallel pathfinding capabilities.
However, the main differentiator is performance as a graph scales. Although Neo4j has been introducing some distributed operations and has a port for Spark, it is inherently not a distributed DBMS with a single logical view of all of the data within a repository. Although it is capable of handling graphs with millions of nodes it hasn’t shown the ability to handle very large graphs. Objectivity has customers processing tens of trillions of nodes and connections per day for thousands of analysts.
Q9. ThingSpan and Objectivity/DB: how do they relate with each other (if any)?
Leon Guzenda: ThingSpan uses Objectivity/DB as its data repository. Besides the Java, C++, C# and Python APIs It also has a REST API and adaptors for Spark Dataframes and HDFS. Objectivity/DB is a component of the ThingSpan suite and can be purchased on its own for embedded applications or to run in non-Spark environments.
Q10. What kinds of things are on the roadmap for ThingSpan?
Leon Guzenda: We recently announced the availability of ThingSpan on the Amazon AWS Market Place, making it easier to evaluate and deploy ThingSpan in a resilient, elastic cloud environment.
The next release, which is in QA at the moment, will add high speed pipelining for ingesting streamed data. It also has extensions to DO, particularly in regard to pathfinding and schema manipulation. There is also a new graph visualization tool for developers.
He worked with Objectivity’s major partners and customers to help them deploy the industry’s highest-performing, most reliable DBMS technology. Leon has over 40 years experience in the software industry. At Automation Technology Products, he managed the development of the ODBMS for the Cimplex solid modeling and numerical control system. Before that he was Principal Project Director for the Dataskil division of International Computers Ltd. in the United Kingdom, delivering major projects for NATO and leading multinationals. He was also design and development manager for ICL’s 2900 IDMS product at ICL Bracknell. He spent the first 7 years of his career working in defense and government systems.
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“We believe that businesses today are looking for ways to leverage the large amounts of data collected, which is driving them to try to minimize, or eliminate, the delay between event, insight, and action to embed data-driven intelligence into their real-time business processes.” –Simon Player
I have interviewed Simon Player, Director of Development for TrakCare and Data Platforms, Helene Lengler, Regional Director for DACH & BeNeLux, and Joe Lichtenberg, Director of Marketing for Data Platforms. All three work at InterSystems. We talked about the new InterSystems IRIS Data Platform.
Q1. You recently announced the InterSystems IRIS Data Platform®. What is it?
Simon Player: We believe that businesses today are looking for ways to leverage the large amounts of data collected, which is driving them to try to minimize, or eliminate, the delay between event, insight, and action to embed data-driven intelligence into their real-time business processes.
It is time for database software to evolve and offer multiple capabilities to manage that business data within a single, integrated software solution. This is why we chose to include the term ‘data platform’ in the product’s name.
InterSystems IRIS Data Platform supports transactional and analytic workloads concurrently, in the same engine, without requiring moving, mapping, or translating the data, eliminating latency and complexity. It incorporates multiple, disparate and dissimilar data sources, supports embedded real-time analytics, easily scales for growing data and user volumes, interoperates seamlessly with other systems, and provides flexible, agile, Dev Ops-compatible deployment capabilities.
InterSystems IRIS provides concurrent transactional and analytic processing capabilities; support for multiple, fully synchronized data models (relational, hierarchical, object, and document); a complete interoperability platform for integrating disparate data silos and applications; and sophisticated structured and unstructured analytics capabilities supporting both batch and real-time use cases in a single product built from the ground up with a single architecture. The platform also provides an open analytics environment for incorporating best-of-breed analytics into InterSystems IRIS solutions, and offers flexible deployment capabilities to support any combination of cloud and on-premises deployments.
Q2. How is InterSystems IRIS Data Platform positioned with respect to other Big Data platforms in the market (e.g. Amazon Web Services, Cloudera, Hortonworks Data Platform, Google Cloud Platform, IBM Watson Data Platform and Watson Analytics, Oracle Data Cloud system, Microsoft Azure, to name a few) ?
Joe Lichtenberg: Unlike other approaches that require organizations to implement and integrate different technologies, InterSystems IRIS delivers all of the functionality in a single product with a common architecture and development experience, making it faster and easier to build real-time, data rich applications. However it is an open environment and can integrate with existing technologies already in use in the customer’s environment.
Q3. How do you ensure High Performance with Horizontal and Vertical Scalability?
Simon Player: Scaling a system vertically by increasing its capacity and resources is a common, well-understood practice. Recognizing this, InterSystems IRIS includes a number of built-in capabilities that help developers leverage the gains and optimize performance. The main areas of focus are Memory, IOPS and Processing management. Some of these tuning mechanisms operate transparently, while others require specific adjustments on the developer’s own part to take full advantage.
One example of those capabilities is parallel query execution, built on a flexible infrastructure for maximizing CPU usage, it spawns one process per CPU core, and is most effective with large data volumes, such as analytical workloads that make large aggregation.
When vertical scaling does not provide the complete solution—for example, when you hit the inevitable hardware (or budget) ceiling—data platforms can also be scaled horizontally. Horizontal scaling fits very well with virtual and cloud infrastructure, in which additional nodes can be quickly and easily provisioned as the workload grows, and decommissioned if the load decreases.
InterSystems IRIS accomplishes this by providing the ability to scale for both increasing user volume and increasing data volume.
For increased user capacity, we leverage a distributed cache with an architectural solution that partitions users transparently across a tier of application servers sitting in front of our data server(s). Each application server handles user queries and transactions using its own cache, while all data is stored on the data server(s), which automatically keeps the application server caches in sync.
For increased data volume, we distribute the workload to a sharded cluster with partitioned data storage, along with the corresponding caches, providing horizontal scaling for queries and data ingestion. In a basic sharded cluster, a sharded table is partitioned horizontally into roughly equal sets of rows called shards, which are distributed across a number of shard data servers. For example, if a table with 100 million rows is partitioned across four shard data servers, each stores a shard containing about 25 million rows. Queries against a sharded table are decomposed into multiple shard-local queries to be run in parallel on multiple servers; the results are then transparently combined and returned to the user. This distributed data layout can further be exploited for parallel data loading and with third party frameworks like Apache Spark.
Horizontal clusters require greater attention to the networking component to ensure that it provides sufficient bandwidth for the multiple systems involved and is entirely transparent to the user and the application.
Q4. How can you simultaneously processes both transactional and analytic workloads in a single database?
Simon Player: At the core of InterSystems IRIS is a proven, enterprise-grade, distributed, hybrid transactional-analytic processing (HTAP) database. It can ingest and store transactional data at very high rates while simultaneously processing high volumes of analytic workloads on real-time data (including ACID-compliant transactional data) and non-real-time data. This architecture eliminates the delays associated with moving real-time data to a different environment for analytic processing. InterSystems IRIS is built on a distributed architecture to support large data volumes, enabling organizations to analyze very large data sets while simultaneously processing large amounts of real-time transactional data.
Q5. There are a wide range of analytics, including business intelligence, predictive analytics, distributed big data processing, real-time analytics, and machine learning. How do you support them in the InterSystems IRIS Data Platform?
Simon Player: Many of these capabilities are built into the platform itself and leverage that tight integration to simultaneously processes both transactional and analytic workloads; however, we realize that there are multiple use cases where customers and partners would like InterSystems IRIS Data Platform to access data on other systems or to build solutions that leverage best-of-breed tools (such as ML algorithms, Spark etc.) to complement our platform and quickly access data stored on it.
That’s why we chose to provide open analytics capabilities supporting industry standard APIs such as UIMA, Java Integration, xDBC and other connectivity options.
Q6. What about third-party analytics tools?
Simon Player: The InterSystems IRIS Data Platform offers embedded analytics capabilities such as business intelligence, distributed big data processing & natural language processing, which can handle both structured and unstructured data with ease. It is designed as an Open Analytics Platform, built around a universal, high-performance and highly scalable data store.
Third-party analytics tools can access data stored on the platform via standard APIs including ODBC, JDBC, .NET, SOAP, REST, and the new Apache Spark Connector. In addition, the platform supports working with industry-standard analytical artifacts such as predictive models expressed in PMML and unstructured data processing components adhering to the UIMA standard.
Q7. How does InterSystems IRIS Data Platform integrate into existing infrastructures and with existing best-of-breed technologies (including your own products)?
Simon Player: InterSystems IRIS offers a powerful, flexible integration technology that enables you to eliminate “siloed” data by connecting people, processes, and applications. It includes the comprehensive range of technologies needed for any connectivity task.
InterSystems IRIS can connect to your existing data and applications, enabling you to leverage your investment, rather than “ripping and replacing.” With its flexible connectivity capabilities, solutions based on InterSystems IRIS can easily be deployed in any client environment.
A comprehensive library of adapters provides out-of-the-box connectivity and data transformations for packaged applications, databases, industry standards, protocols, and technologies – including SQL, SOAP, REST, HTTP, FTP, SAP, TCP, LDAP, Pipe, Telnet, and Email.
Object inheritance minimizes the effort required to build any needed custom adapters. Using InterSystems IRIS’ unit testing service, custom adapters can be tested without first having to complete the entire solution. Traceability of each event allows efficient analysis and debugging.
The InterSystems IRIS messaging engine offers guaranteed message delivery, content-based routing, high-performance message transformation, and support for both synchronous and asynchronous interactions. InterSystems IRIS has a graphical editor for business process orchestration, a business rules engine, and a workflow editor that enable you to automate your enterprise-wide business procedures or create new composite applications. With world-class support for XML, SOAP, JSON and REST, InterSystems
Because it includes a high performance transactional-analytic database, InterSystems IRIS can store and analyze messages as they flow through your system. It enables business activity monitoring, alerting, real-time business intelligence, and event processing.
· Other integration point with industry standards or best-of-breed technologies include the ability to easily transport files between client machines and the server in a secure via our Managed File Transfer (MFT) capability. This functionality leverages state-of-the-art MFT providers like Box, Dropbox and KiteWorks to provide a simple client that non-technical users can install and companies can pre-configure and brand. InterSystems IRIS connects with these providers as a peer and exposes common APIs (e.g. to manage users)
· When using Apache Spark for large distributed data processing and analytics tasks, the Spark Connector will leverage the distributed data layout of sharded tables and push computation as close to the data as possible, increasing parallelism and thus overall throughput significantly vs regular JDBC connections.
Q8. What market segments do you address with IRIS Data Platform?
Helene Lengler: InterSystems IRIS is an open platform that suits virtually any industry, but we will be initially focusing on a couple of core market segments, primarily due to varying regional demand. For instance, we will concentrate on the financial services industry in the US or UK and the retail and logistics market in the DACH and Benelux regions. Additionally, in Germany and Japan, our major focus will be on the manufacturing industry, where we see a rapidly growing demand for data-driven solutions, especially in the areas of predictive maintenance and predictive analytics.
We are convinced that InterSystems IRIS is ideal for this and also for other kinds of IoT applications with its ability to handle large-scale transactional and analytic workloads On top of this, we are also looking to engage with companies that are at the very beginning of product development – in other words, start-ups and innovators working on solutions that require a robust, future-proof data platform.
Q9. Are there any proof of concepts available?
Helene Lengler: Yes. Although the solution has only been available to selected partners for a couple of weeks, we have already completed the first successful migration in Germany. A partner that is offering an Enterprise Information Management System, which allows organizations to archive and access all of an organization’s data, documents, emails and paper files has been able to migrate from InterSystems Caché to InterSystems IRIS in as little as a couple of hours and – most importantly – without any issues at all. The partner decided to move to InterSystems IRIS because they are in the process of signing a contract with one of the biggest players in the German travel & transport industry. With customers like this, you are looking at data volumes in the Petabyte range very, very shortly, meaning you require the right technology from the start in order to be able to scale horizontally – using the InterSystems IRIS technologies such as sharding – as well as vertically.
In addition, we were able to show a live IoT demonstrator at our InterSystems DACH Symposium in November 2017. This proof of concept is actually a lighthouse example of what the new platform’s brings to the table: A team of three different business partners and InterSystems experts leveraged InterSystems IRIS’ capabilities to rapidly develop and implement a fully functional solution for a predictive maintenance scenario. Numerous other test scenarios and PoC’s are currently being conducted in various industry segments with different partners around the globe.
Q10. Can developers already use InterSystems IRIS Data Platform?
Simon Player: Yes. Starting on 1/31, developers can use our sandbox, the InterSystems IRIS Experience, at www.intersystems.com/experience.
Qx. Anything else you wish to add?
Simon Player: The public is welcome to join the discussion on how to graduate from database to data platform on our developer community at https://community.intersystems.com.
Simon Player is director of development for both TrakCare and Data Platforms at InterSystems. Simon has used and developed on InterSystems technologies since the early 1990s. He holds a BSc in Computer Sciences from the University of Manchester.
Helene Lengler is the Regional Managing Director for the DACH and Benelux regions. She joined InterSystems in July 2016 and has more than 25 years of experience in the software technology industry. During her professional career, she has held various senior positions at Oracle, including Vice President (VP) Sales Fusion Middleware and member of the executive board at Oracle Germany, VP Enterprise Sales and VP of Oracle Direct. Prior to her 16 years at Oracle, she worked for the Digital Equipment Corporation in several business disciplines such as sales, marketing and presales.
Helene holds a Masters degree from the Julius-Maximilians-University in Würzburg and a post-graduate Business Administration degree from AKAD in Pinneberg.
Joe Lichtenberg is responsible for product and industry marketing for data platform software at InterSystems. Joe has decades of experience working with various data management, analytics, and cloud computing technology providers.
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“There is a lot of hype about the dangers of IoT and AI. It’s important to understand that nobody is building Blade-Runner style replicants.” — Philippe Kahn
I have interviewed Philippe Kahn. Philippe is a mathematician, well known technology innovator, entrepreneur and founder of four technology companies: Fullpower Technologies, LightSurf Technologies, Starfish Software and Borland.
Q1. Twenty years ago, you spent about a year working on a Web-based infrastructure that you called Picture Mail. Picture Mail would do what we now call photo “sharing”. How come it took so long before the introduction of the iPhone, Snapchat, Instagram, Facebook Live and co.?
Philippe Kahn: Technology adoption takes time. We designed a system where a picture would be stored once and a link-back would be sent as a notification to thousands. That’s how Facebook and others function today. At the time necessity created function because for wireless devices and the first Camera-Phones/Cellphone-Cameras the bandwidth on cellular networks was 1200 Baud at most and very costly. Today a picture or a video are shared once on Facebook and millions/billions can be notified. It’s exactly the same approach.
Q2. Do you have any explanation why established companies such as Kodak, Polaroid, and other camera companies (they all had wireless camera projects at that time), could not imagine that the future was digital photography inside the phone?
Philippe Kahn: Yes, I met with all of them. Proposed our solution to no avail. They had an established business and thought that it would never go away and they could wait. They totally missed the paradigm shift. Paradigm shifts are challenges for any established player, look at the demise of Nokia for missing the smartphone.
Q3. What is your take on Citizen journalism?
Philippe Kahn: Citizen journalism is one of the pillars of future democracy. There is always someone snapping and pushing forward a different point of view. We see it every day around the world.
Q4. Do you really believe that people can’t hide things anymore?
Philippe Kahn: I think that people can’t hide what they do in public: Brutality, Generosity, Politics, Emotions. We all have a right to privacy. However in public, there is always someone snapping.
Q5. What about fake news?
Philippe Kahn: There is nothing new about Fake News. It’s always been around. What’s new is that with the web omnipresent, it’s much more effective. Add modern powerful editing and publishing tools and sometimes it’s very challenging to differentiate what’s real from what’s fake.
Q6. You told Bob Parks, who interviewed you for a Wired article in 2000: ‘In the future people will document crimes using video on their phones. Then everyone will know the real story.’ Has this really changed our world?
Philippe Kahn: Yes, it has. It’s forced policing for example to re-examine protocols. Of course not every violence or crime is covered, but video and photos are helping victims.
Q7. What are the challenges and opportunities in country like Africa, where people don’t have laptops, but have phones with cameras?
Philippe Kahn: The opportunities are great. Those countries are skipping the laptop and focusing on a Smartphone with a cloud infrastructure. That’s pretty much what I do daily. In fact, this is what I am doing as I am answering these questions.
Q8. Back to the future: you live now in the world of massive firehouses of machine data and AI driven algorithms. How these new technologies will change the world (for the better or the worst)?
Philippe Kahn: There are always two sides to everything: Even shoes can be used to keep me warm or march fascist armies across illegitimately conquered territories. The dangers of AI lie in police states and in a massive focus on an advertising business model. But what we do with AI is helping us find solutions for better sleep, diabetes, high blood pressure, cancer and more. We need to accept one to get the other in some ways.
Q9. In my recent interview with interview Vinton G. Cerf , he expressed great concerns about the safety, security and privacy of IoT devices. He told me “A particularly bad scenario would have a hacker taking over the operating system of 100,000 refrigerators.”
Philippe Kahn: When we build AI-powered IoT solutions at Fullpower, security and privacy are paramount. We follow the strictest protocols. Security and privacy are at risk every day with computer viruses and hacking. Nothing is new. It’s always a game of cat and mouse. I want to believe that we are a great cat. We work hard at it.
Q10. With your new startup, FullPower Technologies, you have developed under-the-mattress sensors and cloud based artificial intelligence to gather data and personalize recommendations to help customers improve their sleep. What do you think of Cerf´s concerns and how can they be mitigated in practice?
Philippe Kahn: Vince’s concerns are legitimate. At Fullpower our privacy, security and anonymity protocols are our #1 focus together with quality, accuracy, reliability and repeatability. We think of what we build as a fortress. We’ve built in security, privacy, preventive maintenance, automated secure trouble shooting.
Qx Anything else you wish to add?
Philippe Kahn: There is a lot of hype about the dangers of IoT and AI. It’s important to understand that nobody is building Blade-Runner style replicants. AI is very good at solving specialized challenges: Like being the best at playing chess, where the rules are clear and simple. AI can’t deal with general purpose intelligence that is necessary for a living creature to prosper. We are all using AI, Machine Learning, Deep Learning, Supervised Learning for simple and useful solutions.
Philippe Kahn is CEO of Fullpower, the creative team behind the AI-powered Sleeptracker IoT Smartbed technology platform and the MotionX Wearable Technology platform. Philippe is a mathematician, scientist, inventor, and the creator of the camera phone, which original 1997 implementation is now with the Smithsonian in Washington, D.C.
– Internet of Things: Safety, Security and Privacy. Interview with Vint G. Cerf, ODBMS Industry Watch, 2017-06-11
– On Artificial Intelligence and Analytics. Interview with Narendra Mulani, ODBMS Industry Watch, 2017-12-08
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“We are now seeing a number of our customers in financial services adopt a real-time approach to detecting and preventing fraudulent credit card transactions. With the use of ML integrating into the real-time rules engine within VoltDB, the transaction can be monitored, validated and either rejected or passed, before being completed, saving time and money for both the financial institution and the consumer.”–David Flower.
I have interviewed David Flower, President and Chief Executive Officer of VoltDB. We discussed his strategy for VoltDB, and the main data challenges enterprises face nowadays in performing real-time analytics.
Q1. You joined VoltDB as Chief Revenue Officer last year, and since March 29, 2017 you have been appointment to the role of President and Chief Executive Officer. What is your strategy for VoltDB?
David Flower : When I joined the company we took a step back to really understand our business and move from the start-up phase to growth stage. As with all organizations, you learn from what you have achieved but you also have to be honest with what your value is. We looked at 3 fundamentals;
1) Success in our customer base – industries, use cases, geography
2) Market dynamics
3) Core product DNA – the underlying strengths of our solution, over and above any other product in the market
The outcome of this exercise is we have moved from a generic veneer market approach to a highly focused specialized business with deep domain knowledge. As with any business, you are looking for repeatability into clearly defined and understood market sectors, and this is the natural next phase in our business evolution and I am very pleased to report that we have made significant progress to date.
With the growing demand for massive data management aligned with real-time decision making, VoltDB is well positioned to take advantage of this opportunity.
Q2. VoltDB is not the only in-memory transactional database in the market. What is your unique selling proposition and how do you position VoltDB in the broader database market?
David Flower : The advantage of operating in the database market is the pure size and scale that it offers – and that is also the disadvantage. You have to be able to express your target value. Through our customers and the strategic review we undertook, we are now able to express more clearly what value we have and where, and equally importantly, where we do not play! Our USP’s revolve around our product principles – vast data ingestion scale, full ACID consistency and the ability to undertake real-time decisioning, all supported through a distributed low-latency in-memory architecture, and we embrace traditional RDBMS through SQL to leverage existing market skills, and reduce the associated cost of change. We offer a proven enterprise grade database that is used by some of the World’s leading and demanding brands, a fact that many other companies in our market are unable to do.
Q3. VoltDB was founded in 2009 by a team of database experts, including Dr. Michael Stonebraker (winner of the ACM Turing award). How much of Stonebraker`s ideas are still in VoltDB and what is new?
David Flower : We are both proud and privileged to be associated with Dr. Stonebraker, and his stature in the database arena is without comparison. Mike’s original ideas underpin our product philosophy and our future direction, and he continues to be actively engaged in the business and will always remain a fundamental part of our heritage. Through our internal engineering experts and in conjunction with our customers, we have developed on Mike’s original ideas to bring additional features, functions and enterprise grade capabilities into the product.
Q4. Stonebraker co-founded several other database companies. Before VoltDB, in 2005, Stonebraker co-founded Vertica to commercialize the technology behind C-Store; and after VoltDB, in 2013 he co-founded another company called Tamr. Is there any relationship between Vertica, VoltDB and Tamr (if any)?
David Flower : Mike’s legacy in this field speaks for itself. VoltDB evolved from the Vertica business and while we have no formal ties, we are actively engaged with numerous leading technology companies that enable clients to gain deeper value through close integrations.
Q5. VoltDB is a ground-up redesign of a relational database. What are the main data challenges enterprises face nowadays in performing real-time analytics?
The demand for ‘real-time’ is one of the most challenging areas for many businesses today. Firstly, the definition of real-time is changing. Batch or micro-batch processing is now unacceptable – whether that be for the consumer, customer and in some cases for compliance. Secondly, analytics is also moving from the back-end (post event) to the front-end (in-event or in-process).
The drivers around AI and ML are forcing this even more. The market requirement is now for real-time analytics but what is the value of this if you cannot act on it? This is where VoltDB excels – we enable the action on this data, in process, and when the data/time is most valuable. VoltDB is able to truly deliver on the value of translytics – the combination of real-time transactions with real-time analytics, and we can demonstrate this through real use cases.
Q6. VoltDB is specialized in high-velocity applications that thrive on fast streaming data. What is fast streaming data and why does it matter?
David Flower : As previously mentioned, VoltDB is designed for high volume data streams that require a decision to be taken ‘in-stream’ and is always consistent. Fast streaming data is best defined through real applications – policy management, authentication, billing as examples in telecoms; fraud detection & prevention in finance (such as massive credit card processing streams); customer engagement offerings in media & gaming; and areas such as smart-metering in IoT.
The underlying principle being that the window of opportunity (action) is available in the fast data stream process, and once passed the opportunity value diminishes.
Q7. You have recently announced an “Enterprise Lab Program” to accelerate the impact of real-time data analysis at large enterprise organizations. What is it and how does it work?
David Flower : The objective of the Enterprise Lab Program is to enable organizations to access, test and evaluate our enterprise solution within their own environment and determine the applicability of VoltDB for either the modernization of existing applications or for the support of next gen applications. This comes without restriction, and provides full access to our support, technical consultants and engineering resources. We realize that selecting a database is a major decision and we want to ensure the potential of our product can be fully understood, tested and piloted with access to all our core assets.
Q8. You have been quoted saying that “Fraud is a huge problem on the Internet, and is one of the most scalable cybercrimes on the web today. The only way to negate the impact of fraud is to catch it before a transaction is processed”. Is this really always possible? How do you detect a fraud in practice?
David Flower : With the phenomenal growth in e-commerce and the changing consumer demands for web-driven retailing, the concerns relating to fraud (credit card) are only going to increase. The internet creates the challenge of handling massive transaction volumes, and cyber criminals are becoming ever more sophisticated in their approach.
Traditional fraud models simply were not designed to manage at this scale, and in many cases post-transaction capture is too late – the damage has been done. We are now seeing a number of our customers in financial services adopt a real-time approach to detecting and preventing fraudulent credit card transactions. With the use of ML integrating into the real-time rules engine within VoltDB, the transaction can be monitored, validated and either rejected or passed, before being completed, saving time and money for both the financial institution and the consumer. By using the combination of post- analytics and ML, the most relevant, current and effective set of rules can be applied as the transaction is processed.
Q9. Another area where VoltDB is used is in mobile gaming. What are the main data challenges with mobile gaming platforms?
David Flower : Mobile gaming is a perfect example of fast data – large data streams that require real-time decisioning for in-game customer engagement. The consumer wants the personal interaction but with relevant offers at that precise moment in the game. VoltDB is able to support this demand, at scale and based on the individual’s profile and stage in the application/game. The concept of the right offer, to the right person, at the right time ensures that the user remains loyal to the game and the game developer (company) can maximize its revenue potential through high customer satisfaction levels.
Q11. Can you explain the purpose of VoltDB`s recently announced co-operations with Huawei and Nokia?
David Flower : We have developed close OEM relationships with a number of major global clients, of which Huawei and Nokia are representative. Our aim is to be more than a traditional vendor, and bring additional value to the table, be it in the form of technical innovation, through advanced application development, or in terms of our ‘total company’ support philosophy. We also recognize that infrastructure decisions are critical by nature, and are not made for the short-term.
VoltDB has been rigorously tested by both Huawei and Nokia and was selected for several reasons against some of the world’s leading technologies, but fundamentally because our product works – and works in the most demanding environments providing the capability for existing and next-generation enterprise grade applications.
David Flower brings more than 28 years of experience within the IT industry to the role of President and CEO of VoltDB. David has a track record of building significant shareholder value across multiple software sectors on a global scale through the development and execution of focused strategic plans, organizational development and product leadership.
Before joining VoltDB, David served as Vice President EMEA for Carbon Black Inc. Prior to Carbon Black he held senior executive positions in numerous successful software companies including Senior Vice President International for Everbridge (NASDAQ: EVBG); Vice President EMEA (APM division) for Compuware (formerly NASDAQ: CPWR); and UK Managing Director and Vice President EMEA for Gomez. David also held the position of Group Vice President International for MapInfo Corp. He began his career in senior management roles at Lotus Development Corp and Xerox Corp – Software Division.
David attended Oxford Brookes University where he studied Finance. David retains strong links within the venture capital investment community.
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“You can’t get good insights from bad data, and AI is playing an instrumental role in the data preparation renaissance.”–Narendra Mulani
I have interviewed Narendra Mulani, chief analytics officer, Accenture Analytics.
Q1. What is the role of Artificial Intelligence in analytics?
Narendra Mulani: Artificial Intelligence will be the single greatest change driver of our age. Combined with analytics, it’s redefining what’s possible by unlocking new value from data, changing the way we interact with each other and technology, and improving the way we make decisions. It’s giving us wider control and extending our capabilities as businesses and as people.
AI is also the connector and culmination of many elements of our analytics strategy including data, analytics techniques, platforms and differentiated industry skills.
You can’t get good insights from bad data, and AI is playing an instrumental role in the data preparation renaissance.
AI-powered analytics essentially frees talent to focus on insights rather than data preparation which is more daunting with the sheer volume of data available. It helps organizations tap into new unstructured, contextual data sources like social, video and chat, giving clients a more complete view of their customer. Very recently we acquired Search Technologies who possess a unique set of technologies that give ‘context to content’ – whatever its format – and make it quickly accessible to our clients.
As a result, we gain more precise insights on the “why” behind transactions for our clients and can deliver better customer experiences that drive better business outcomes.
Overall, AI-powered analytics will go a long way in allowing the enterprise to find the trapped value that exists in data, discover new opportunities and operate with new agility.
Q2. How can enterprises become ‘data native’ and digital at the core to help them grow and succeed?
Narendra Mulani: It starts with embracing a new culture which we call ‘data native’. You can’t be digital to the core if you don’t embed data at the core. Getting there is no mean feat. The rate of change in technology and data science is exponential, while the rate at which humans can adapt to this change is finite. In order to close the gap, businesses need to democratize data and get new intelligence to the point where it is easily understood and adopted across the organization.
With the help of design-led analytics and app-based delivery, analytics becomes a universal language in the organization, helping employees make data-driven decisions, collaborate across teams and collectively focus efforts on driving improved outomes for the business.
Enterprises today are only using a small fraction of the data available to them as we have moved from the era of big data to the era of all data. The comprehensive, real-time view businesses can gain of their operations from connected devices is staggering.
But businesses have to get a few things right to ensure they go on this journey.
Understanding and embracing convergence of analytics and artificial intelligence is one of them. You can hardly overstate the impact AI will have on mobilizing and augmenting the value in data, in 2018 and beyond. AI will be the single greatest change driver and will have a lasting effect on how business is conducted.
Enterprises also need to be ready to seize new opportunities – and that means using new data science to help shape hypotheses, test and optimize proofs-of-concept and scale quickly. This will help you reimagine your core business and uncover additional revenue streams and expansion opportunities.
All this requires a new level of agility. To help our clients act and respond fast, we support them with our platforms, our people and our partners. Backed by deep analytics expertise, new cloud-based systems and a curated and powerful alliance and delivery network, our priority is architecting the best solution to meet the needs of each client. We offer an as-a-service engagement model and a suite of intelligent industry solutions that enable even greater agility and speed to market.
Q3. Why is machine learning (ML) such a big deal, where is it driving changes today, and what are the big opportunities for it that have not yet been tapped?
Narendra Mulani: Machine learning allows computers to discover hidden or complex patterns in data without explicit programming. The impact this has on the business is tremendous—it accelerates and augments insights discovery, eliminates tedious repetitive tasks, and essentially enables better outcomes. It can be used to do a lot of good for people, from reading a car’s license plate and forcing the driver to slow down, to allowing people to communicate with others regardless of the language they speak, and helping doctors find very early evidence of cancer.
While the potential we’re seeing for ML and AI in general is vast, businesses are still in the infancy of tapping it. Organizations looking to put AI and ML to use today need to be pragmatic. While it can amplify the quality of insights in many areas, it also increases complexity for organizations, in terms of procuring specialized infrastructure or in identifying and preparing the data to train and use AI, and with validating the results. Identifying the real potential and the challenges involved are areas where most companies today lack the necessary experience and skills and need a trusted advisor or partner.
Whenever we look at the potential AI and ML have, we should also be looking at the responsibility that comes with it. Explainable AI and AI transparency are top of mind for many computer scientists, mathematicians and legal scholars.
These are critical subjects for an ethical application of AI – particularly critical in areas such as financial services, healthcare and life sciences – to ensure that data use is appropriate, and to assess the fairness of derived algorithms.
We need recognize that, while AI is science, and science is limitless, there are always risks in how that science is used by humans, and proactively identify and address issues this might cause for people and society.
Narendra Mulani is Chief Analytics Officer of Accenture Analytics, a practice that his passion and foresight have helped shape since 2012.
A connector at the core, Narendra brings machine learning, data science, data engineers and the business closer together across industries and geographies to embed analytics and create new intelligence, democratize data and foster a data native culture.
He leads a global team of industry and function-specific analytics professionals, data scientists, data engineers, analytics strategy, design and visualization experts across 56 markets to help clients unlock trapped value and define new ways to disrupt in their markets. As a leader, he believes in creating an environment that is inspiring, exciting and innovative.
Narendra takes a thoughtful approach to developing unique analytics strategies and uncovering impactful outcomes. His insight has been shared with business and trade media including Bloomberg, Harvard Business Review, Information Management, CIO magazine, and CIO Insight. Under Narendra’s leadership, Accenture’s commitment and strong momentum in delivering innovative analytics services to clients was recognized in Everest Group’s Analytics Business Process Services PEAK Matrix™ Assessment in 2016.
Narendra joined Accenture in 1997. Prior to assuming his role as Chief Analytics Officer, he was the Managing Director – Products North America, responsible for delivering innovative solutions to clients across industries including consumer goods and services, pharmaceuticals, and automotive. He was also managing director of supply chain for Accenture Management Consulting where he led a global practice responsible for defining and implementing supply chain capabilities at a diverse set of Fortune 500 clients.
Narendra graduated with a Bachelor of Commerce degree at Bombay University, where he was introduced to statistics and discovered he understood probability at a fundamental level that propelled him on his destined career path. He went on to receive an MBA in Finance in 1982 as well as a PhD in 1985 focused on Multivariate Statistics, both from the University of Massachusetts. Education remains fundamentally important to him.
As one who logs too many frequent flier miles, Narendra is an active proponent of taking time for oneself to recharge and stay at the top of your game. He practices what he preaches through early rising and active mindfulness and meditation to keep his focus and balance at work and at home. Narendra is involved with various activities that support education and the arts, and is a music enthusiast. He lives in Connecticut with his wife Nita and two children, Ravi and Nikhil.
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” Open source software comes with a promise, and that promise is not about looking at the code, rather it’s about avoiding vendor lock-in.” –Jacque Istok.
” The cloud has out-paced the data center by far and we should expect to see the entire database market being replatformed into the cloud within the next 5-10 years.” –Mike Waas.
I have interviewed Jacque Istok, Head of Data Technical Field for Pivotal, and Mike Waas, founder and CEO Datometry.
Main topics of the interview are: the future of Data Warehousing, how are open source and the Cloud affecting the Data Warehouse market, and Datometry Hyper-Q and Pivotal Greenplum.
Q1. What is the future of Data Warehouses?
Jacque Istok: I believe that what we’re seeing in the market is a slight course correct with regards to the traditional data warehouse. For 25 years many of us spent many cycles building the traditional data warehouse.
The single source of the truth. But the long duration it took to get alignment from each of the business units regarding how the data related to each other combined with the cost of the hardware and software of the platforms we built it upon left everybody looking for something new. Enter Hadoop and suddenly the world found out that we could split up data on commodity servers and, with the right human talent, could move the ball forward faster and cheaper. Unfortunately the right human talent has proved hard to come by and the plethora of projects that have spawned up are neither production ready nor completely compliant or compatible with the expensive tools they were trying to replace.
So what looks to be happening is the world is looking for the features of yesterday combined with the cost and flexibility of today. In many cases that will be a hybrid solution of many different projects/platforms/applications, or at the very least, something that can interface easily and efficiently with many different projects/platforms/applications.
Mike Waas: Indeed, flexibility is what most enterprises are looking for nowadays when it comes to data warehousing. The business needs to be able to tap data quickly and effectively. However, in today’s world we see an enormous access problem with application stacks that are tightly bonded with the underlying database infrastructure. Instead of maintaining large and carefully curated data silos, data warehousing in the next decade will be all about using analytical applications from a quickly evolving application ecosystem with any and all data sources in the enterprise: in short, any application on any database. I believe data warehouses remain the most valuable of databases, therefore, cracking the access problem there will be hugely important from an economic point of view.
Q2. How is open source affecting the Data Warehouse market?
Jacque Istok: The traditional data warehouse market is having its lunch eaten by open source. Whether it’s one of the Hadoop distributions, one of the up and coming new NoSQL engines, or companies like Pivotal making large bets and open source production proven alternatives like Greenplum. What I ask prospective customers is if they were starting a new organization today, what platforms, databases, or languages would you choose that weren’t open source? The answer is almost always none. Open source software comes with a promise, and that promise is not about looking at the code, rather it’s about avoiding vendor lock-in.
Mike Waas: Whenever a technology stack gets disrupted by open source, it’s usually a sign that the technology has reached a certain maturity and customers have begun doubting the advantage of proprietary solutions. For the longest time, analytical processing was considered too advanced and too far-reaching in scope for an open source project. Greenplum Database is a great example for breaking through this ceiling: it’s the first open source database system with a query optimizer not only worth that title but setting a new standard, and a whole array of other goodies previously only available in proprietary systems.
Q3. Are databases an obstacle to adopting Cloud-Native Technology?
Jacque Istok: I believe quite the contrary, databases are a requirement for Cloud-Native Technology. Any applications that are created need to leverage data in some way. I think where the technology is going is to make it easier for developers to leverage whichever database or datastore makes the most sense for them or they have the most experience with – essentially leveraging the right tool for the right job, instead of the tool “blessed” by IT or Operations for general use. And they are doing this by automating the day 0, day 1, and day 2 operations of those databases. Making it easy to instantiate and use these platforms for anyone, which has never really been the case.
Mike Waas: In fact, a cloud-first strategy is incomplete unless it includes the data assets, i.e., the databases. Now, databases have always been one of the hardest things to move or replatform, and, naturally, it’s the ultimate challenge when moving to the cloud: firing up any new instance in the cloud is easy as 1-2-3 but what to do with the 10s of years of investment in application development? I would say it’s actually not the database that’s the obstacle but the applications and their dependencies.
Q4. What are the pros and cons of moving enterprise data to the cloud?
Jacque Istok: I think there are plenty of pros to moving enterprise data to the cloud, the extent of that list will really depend on the enterprise you’re talking to and the vertical that they are in. But cons? The only cons would be using these incredible tools incorrectly, at which point you might find yourself spending more money and feeling that things are slower or less flexible. Treating the cloud as a virtual data center, and simply moving things there without changing how they are architected or how they are used would be akin to taking
Mike Waas: I second that. A few years ago enterprises were still concerned about security, completeness of offering, and maturity of the stack. But now, the cloud has out-paced the data center by far and we should expect to see the entire database market being replatformed into the cloud within the next 5-10 years. This is going to be the biggest revolution in the database industry since the relational model with great opportunities for vendors and customers alike.
Q5. How do you quantify when is appropriate for an enterprise to move their data management to a new platform?
Jacque Istok: It’s pretty easy from my perspective, when any enterprise is done spending exorbitant amounts of money it might be time to move to a new platform. When you are coming up on a renewal or an upgrade of a legacy and/or expensive system it might be time to move to a new platform. When you have new initiatives to start it might be time to move to a new platform. When you are ready to compete with your competitors, both known and unknown (aka startups), it might be time to move to a new platform. The move doesn’t have to be scary either, as some products are designed to be a bridge to a modern a data platform.
Mike Waas: Traditionally, enterprises have held off from replatforming for too long: the switching cost has deterred them from adopting new and highly superior technology with the result that they have been unable to cut costs or gain true competitive advantage. Staying on an old platform is simply bad for business. Every organization needs to ask themselves constantly the question whether their business can benefit from adopting new technology. At Datometry, we make it easy for enterprises to move their analytics — so easy, in fact, the standard reaction to our technology is, “this is too good to be true.”
Q6. What is the biggest problem when enterprises want to move part or all of their data management to the cloud?
Jacque Istok: I think the biggest problem tends to be not architecting for the cloud itself, but instead treating the cloud like their virtual data center. Leveraging the same techniques, the same processes, and the same architectures will not lead to the cost or scalability efficiencies that you were hoping for.
Mike Waas: As Jacque points out, you really need to change your approach. However, the temptation is to use the move to the cloud as a trigger event to rework everything else at the same time. This quickly leads to projects that spiral out of control, run long, go over budget, or fail altogether. Being able to replatform quickly and separate the housekeeping from the actual move is, therefore, critical.
However, when it comes to databases, trouble runs deeper as applications and their dependencies on specific databases are the biggest obstacle. SQL code is embedded in thousands of applications and, probably most surprising, even third-party products that promise portability between databases get naturally contaminated with system-specific configuration and SQL extensions. We see roughly 90% of third-party systems (ETL, BI tools, and so forth) having been so customized to the underlying database that moving them to a different system requires substantial effort, time, and money.
Q7. How does an enterprise move the data management to a new platform without having to re-write all of the applications that rely on the database?
Mike Waas: At Datometry, we looked very carefully at this problem and, with what I said above, identified the need to rewrite applications each time new technology is adopted as the number one problem in the modern enterprise. Using Adaptive Data Virtualization (ADV) technology, this will quickly become a problem of the past! Systems like Datometry Hyper-Q let existing applications run natively and instantly on a new database without requiring any changes to the application. What would otherwise be a multi-year migration project and run into the millions, is now reduced in time, cost, and risk to a fraction of the conventional approach. “VMware for databases” is a great mental model that has worked really well for our customers.
Q8. What is Adaptive Data Virtualization technology, and how can it help adopting Cloud-Native Technology?
Mike Waas: Adaptive Data Virtualization is the simple, yet incredibly powerful, abstraction of a database: by intercepting the communication between application and database, ADV is able to translate in real-time and dynamically between the existing application and the new database. With ADV, we are drawing on decades of database research and solving what is essentially a compatibility problem between programming languages and systems with an elegant and highly effective approach. This is a space that has traditionally been served by consultants and manual migrations which are incredibly labor-intensive and expensive undertaking.
Through ADV, adopting cloud technology becomes orders of magnitude simpler as it takes away the compatibility challenges that hamper any replatforming initiative.
Q9. Can you quantify what are the reduced time, cost, and risk when virtualizing the data warehouse?
Jacque Istok: In the past, virtualizing the data warehouse meant sacrificing performance in order to get some of the common benefits of virtualization (reduced time for experimentation, maximizing resources, relative ease to readjust the architecture, etc). What we have found recently is that virtualization, when done correctly, actually provides no sacrifices in terms of performance, and the only question becomes whether or not the capital cost expenditure of bare metal versus the opex cost structure of virtual is something that makes sense for your organisation.
Mike Waas: I’d like to take it a step further and include ADV into this context too: instead of a 3-5 year migration, employing 100+ consultants, and rewriting millions of lines of application code, ADV lets you leverage new technology in weeks, with no re-writing of applications. Our customers can expect to save at least 85% of the transition cost.
Q10. What is the massively parallel processing (MPP) Scatter/Gather Streaming™ technology, and what is it useful for?
Jacque Istok: This is arguably one of the most powerful features of Pivotal Greenplum and it allows for the fastest loading of data in the industry. Effectively we scatter data into the Greenplum data cluster as fast as possible with no care in the world to where it will ultimately end up. Terabytes of data per hour, basically as much as you can feed down the wires, is sent to each of the workers within the cluster. The data is therefore disseminated to the cluster in the fastest physical way possible. At that point, each of the workers gathers the data that is pertinent to them according to the architecture you have chosen for the layout of those particular data elements, allowing for a physical optimization to be leveraged during interrogation of the data after it has been loaded.
Q11. How Datometry Hyper-Q & Pivotal Greenplum data warehouse work together?
Jacque Istok: Pivotal Greenplum is the world’s only true open source, production proven MPP data platform that provides out of the box ANSI compliant SQL capabilities along with Machine Learning, AI, Graph, Text, and Spatial analytics all in one. When combined with Datometry Hyper-Q, you can transparently and seamlessly take any Teradata application and, without changing a single line of code or a single piece of SQL, run it and stop paying the outrageous Teradata tax that you have been bearing all this time. Once you’re able to take out your legacy and expensive Teradata system, without a long investment to rewrite anything, you’ll be able to leverage this software platform to really start to analyze the data you have. And that analysis can be either on premise or in the cloud, giving you a truly hybrid and cross-cloud proven platform.
Mike Waas: I’d like to share a use case featuring Datometry Hyper-Q and Pivotal Greenplum featuring a Fortune 100 Global Financial Institution needing to scale their business intelligence application, built using 2000-plus stored procedures. The customer’s analysis showed that replacing their existing data warehouse footprint was prohibitively expensive and rewriting the business applications to a more cost-effective and modern data warehouse posed significant expense and business risk. Hyper-Q allowed the customer to transfer the stored procedures in days without refactoring the logic of the application and implement various control-flow primitives, a time-consuming and expensive proposition.
Qx. Anything else you wish to add?
Jacque Istok: Thank you for the opportunity to speak with you. We have found that there has never been a more valid time than right now for customers to stop paying their heavy Teradata tax and the combination of Pivotal Greenplum and Datometry Hyper-Q allows them to do that right now, with no risk, and immediate ROI. On top of that, they are then able to find themselves on a modern data platform – one that allows them to grow into more advanced features as they are able. Pivotal Greenplum becomes their bridge to transforming your organization by offering the advanced analytics you need but giving you traditional, production proven capabilities immediately. At the end of the day, there isn’t a single Teradata customer that I’ve spoken to that doesn’t want Teradata-like capabilities at Hadoop-like prices and you get all this and more with Pivotal Greenplum.
Mike Waas: Thank you for this great opportunity to speak with you. We, at Datometry, believe that data is the key that will unlock competitive advantage for enterprises and without adopting modern data management technologies, it is not possible to unlock value. According to the leading industry group, TDWI, “today’s consensus says that the primary path to big data’s business value is through the use of so-called ‘advanced’ forms of analytics based on technologies for mining, predictions, statistics, and natural language processing (NLP). Each analytic technology has unique data requirements, and DWs must modernize to satisfy all of them.”
We believe virtualizing the data warehouse is the cornerstone of any cloud-first strategy because data warehouse migration is one of the most risk-laden and most expensive initiatives that a company can embark on during their journey to to the cloud.
Interestingly, the cost of migration is primarily the cost of process and not technology and this is where Datometry comes in with its data warehouse virtualization technology.
We are the key that unlocks the power of new technology for enterprises to take advantage of the latest technology and gain competitive advantage.
Jacque Istok serves as the Head of Data Technical Field for Pivotal, responsible for setting both data strategy and execution of pre and post sales activities for data engineering and data science. Prior to that, he was Field CTO helping customers architect and understand how the entire Pivotal portfolio could be leveraged appropriately.
A hands on technologist, Mr. Istok has been implementing and advising customers in the architecture of big data applications and back end infrastructure the majority of his career.
Prior to Pivotal, Mr. Istok co-founded Professional Innovations, Inc. in 1999, a leading consulting services provider in the business intelligence, data warehousing, and enterprise performance management space, and served as its President and Chairman. Mr. Istok is on the board of several emerging startup companies and serves as their strategic technical advisor.
Mike Waas, CEO Datometry, Inc.
Mike Waas founded Datometry after having spent over 20 years in database research and commercial database development. Prior to Datometry, Mike was Sr. Director of Engineering at Pivotal, heading up Greenplum’s Advanced R&Dteam. He is also the founder and architect of Greenplum’s ORCA query optimizer initiative. Mike has held senior engineering positions at Microsoft, Amazon, Greenplum, EMC, and Pivotal, and was a researcher at Centrum voor Wiskunde en Informatica (CWI), Netherlands, and at Humboldt University, Berlin.
Mike received his M.S. in Computer Science from University of Passau, Germany, and his Ph.D. in Computer Science from the University of Amsterdam, Netherlands. He has authored or co-authored 36 publications on the science of databases and has 24 patents to his credit.
– On Open Source Databases. Interview with Peter Zaitsev, ODBMS Industry Watch, Published on 2017-09-06
– On Apache Ignite, Apache Spark and MySQL. Interview with Nikita Ivanov , ODBMS Industry Watch, Published on 2017-06-30
– On the new developments in Apache Spark and Hadoop. Interview with Amr Awadallah, ODBMS Industry Watch, Published on 2017-03-13
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“With multi scale dataflow computing, we adjust the structure of the computer to the problem, rather than spending countless hours molding the problem into a computer language which is then interpreted by a microprocessor in an endless game of “Chinese whispers”. The poor microprocessor has no chance to figure out what the original problem might have been. We take a specific problem and program your computer to only solve that problem, or teach you to do it yourself. This means that the microprocessor does not waste energy, time and power on trying to figure out what needs to be computed next.”–Devin Graham.
I have interviewed Devin Graham, in charge of Finance Risk Products at Maxeler Technologies. We covered in the interview the challenges and opportunities for risk managers and how dataflow technology is transforming the industry.
Q1. What are the typical functions of a chief risk officer?
Devin Graham: To minimize risk across four categories; market risk, operational risk, credit risk and regulatory risk. For market risk you are trying to maximize the potential profit of your institution whilst ensuring you have the lowest amount of volatile risk. With operational risk you need to look at your business processes and ensure you have systems and controls in place that minimise any negative financial impacts to running your business. To manage credit risk you need to minimise the risk of the exposure of your assets and profits to your counterparties. Regulatory risk management involves ensuring the business is aware of and follows regulations.
Q2. What are the main challenges at present for financial risk management?
Devin Graham: The data sets you are dealing with now are very large. The challenge today is meeting the complexity and vastness of this data with speed – in real time. The velocity of data also poses challenges around security, particularly with threats of intrusion and spoofing attacks which are much harder to detect when there is so much data to analyse. Your computer needs to work out the patterns of serial spoofers, and CPUs with standard software stacks are overwhelmed by the challenge.
Q3. In which way can data flow technology be useful for risk management for the finance industry?
Devin Graham: Our dataflow technology provides complex calculations at maximum speed, for running analytics on large scale data sets and for line rate processing of trade flow and matching, as well as data enrichment. Multiscale Dataflow provides the technology to bridge over today’s financial capability gap, providing real and measurable competitive advantage.
Q4. What exactly is dataflow computing?
Devin Graham: With multiscale dataflow computing, we adjust the structure of the computer to the problem, rather than spending countless hours molding the problem into a computer language which is then interpreted by a microprocessor in an endless game of “Chinese whispers”.
The poor microprocessor has no chance to figure out what the original problem might have been. We take a specific problem and program your computer to only solve that problem, or teach you to do it yourself. This means that the microprocessor does not waste energy, time and power on trying to figure out what needs to be computed next.
In a financial context, multiscale dataflow makes it possible to analyse risk in real time, rather than off-line, looking at risk in the future, rather than computing the risk of the past.
Q5. What are the main differences in performing dataflow computation, from computing with conventional CPUS?
Devin Graham: The main difference is that dataflow provides computational power at much lower energy consumption, much higher performance density and greater speed at tremendous savings in total cost of ownership. It is ideal for dealing with Big Complex Data.
More technically, CPUs solve equations linearly – through time. Dataflow computes vast numbers of equations as a graph, with data flowing through the nodes all at the same time. Complex calculations happen as a side effect of the data flowing through a graph which looks like the structure of your problem.
Q6. Do you have any measures to share with us on the benefits in performance, space and power consumption?
Devin Graham: Maxeler’s Dataflow technology enables organisations to speed up processing times by 20-50x when comparing computing boxes of the same size, with over 90% reduction in energy usage and over 95% reduction in data center space. Taking one of our customers as an example. They were able to run computations of 50 compute nodes, in a single dataflow node. Such ability brings 32 Maxeler dataflow nodes to an equivalent of 1,600 CPU nodes, delivering operational cost saving of £3.2 million over 3 years.
In a financial risk context the advantages of Multiscale Dataflow Computing enable the analysis of thousands of market scenarios in minutes rather than hours. A Tier 1 investment bank recently delivered portfolio pricing and risk in seconds, down from minutes.
Q7. What is the new paradigm for financial risk management defined by Maxeler Technologies?
Devin Graham: The new paradigm shift resulting from Maxeler’s technology enables traders and risk managers with a super power: real-time data analysis. The technology is available right here and right now, as opposed to other technologies which remain on the horizon, or require a datacenter to be cooled down to 0 Kelvin to compute a few bits of results.
Dataflow computing works at room temperature, without the need to cool things down to the point where even the smallest particles stop moving.
Since we describe Dataflow programs in Java, it is easy to learn how to program Dataflow Engines (DFEs). Financial analytics experts are learning how to program their DFEs themselves — putting power back into the hands of financial experts, without the need for help from external sources. That is very exciting!
Devin Graham, Senior Risk Advisor, Maxeler Technologies
Devin Graham, former partner and Chief Risk Officer at a multi-billion dollar hedge fund has spent his entire career in the financial services industry, managing risk, technology and businesses for large hedge funds and leading investment banks.
As Chief Risk Officer, Devin established and chaired the risk committee, was a member of the executive committee and investor relations management team. During his tenure, the fund achieved market leading returns with minimal return volatility.
Previously, Devin developed and managed multiple new technology driven businesses at a leading investment bank including Prime Brokerage, Derivative Investor Products, and Risk Analytics.
Devin received his B.S. in Biomechanical Engineering from MIT
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“To be competitive with non-open-source cloud deployment options, open source databases need to invest in “ease-of-use.” There is no tolerance for complexity in many development teams as we move to “ops-less” deployment models.” –Peter Zaitsev
I have interviewed Peter Zaitsev, Co-Founder and CEO of Percona.
In this interview, Peter talks about the Open Source Databases market; the Cloud; the scalability challenges at Facebook; compares MySQL, MariaDB, and MongoDB; and presents Percona’s contribution to the MySQL and MongoDB ecosystems.
Q1. What are the main technical challenges in obtaining application scaling?
Peter Zaitsev: When it comes to scaling, there are different types. There is a Facebook/Google/Alibaba/Amazon scale: these giants are pushing boundaries, and usually are solving very complicated engineering problems at a scale where solutions aren’t easy or known. This often means finding edge cases that break things like hardware, operating system kernels and the database. As such, these companies not only need to build a very large-scale infrastructures, with a high level of automation, but also ensure it is robust enough to handle these kinds of issues with limited user impact. A great deal of hardware and software deployment practices must to be in place for such installations.
While these “extreme-scale” applications are very interesting and get a lot of publicity at tech events and in tech publications, this is a very small portion of all the scenarios out there. The vast majority of applications are running at the medium to high scale, where implementing best practices gets you the scalability you need.
When it comes to MySQL, perhaps the most important question is when you need to “shard.” Sharding — while used by every application at extreme scale — isn’t a simple “out-of-the-box” feature in MySQL. It often requires a lot of engineering effort to correctly implement it.
While sharding is sometimes required, you should really examine whether it is necessary for your application. A single MySQL instance can easily handle hundreds of thousands per second (or more) of moderately complicated queries, and Terabytes of data. Pair that with MemcacheD or Redis caching, MySQL Replication or more advanced solutions such as Percona XtraDB Cluster or Amazon Aurora, and you can cover the transactional (operational) database needs for applications of a very significant scale.
Besides making such high-level architecture choices, you of course need to also ensure that you exercise basic database hygiene. Ensure that you’re using the correct hardware (or cloud instance type), the right MySQL and operating system version and configuration, have a well-designed schema and good indexes. You also want to ensure good capacity planning, so that when you want to take your system to the next scale and begin to thoroughly look at it you’re not caught by surprise.
Peter Zaitsev: The Facebook Team is the most qualified to answer this question. However, I imagine that at Facebook scale being efficient is very important because it helps to drive the costs down. If your hot data is in the cache when it is important, your database is efficient at handling writes — thus you want a “write-optimized engine.”
If you use Flash storage, you also care about two things:
- – A high level of compression since Flash storage is much more expensive than spinning disk.
– You are also interested in writing as little to the storage as possible, as the more you write the faster it wears out (and needs to be replaced).
RocksDB and MyRocks are able to achieve all of these goals. As an LSM-based storage engine, writes (especially Inserts) are very fast — even for giant data sizes. They’re also much better suited for achieving high levels of compression than InnoDB.
This Blog Post by Mark Callaghan has many interesting details, including this table which shows MyRocks having better performance, write amplification and compression for Facebook’s workload than InnoDB.
Q3. Beringei is Facebook’s open source, in-memory time series database. According to Facebook, large-scale monitoring systems cannot handle large-scale analysis in real time because the query performance is too slow. What is your take on this?
Peter Zaitsev: Facebook operates at extreme scale, so it is no surprise the conventional systems don’t scale well enough or aren’t efficient enough for Facebook’s needs.
I’m very excited Facebook has released Beringei as open source. Beringei itself is a relatively low-end storage engine that is hard to use for a majority of users, but I hope it gets integrated with other open source projects and provides a full-blown high-performance monitoring solution. Integrating it with Prometheus would be a great fit for solutions with extreme data ingestion rates and very high metric cardinality.
Q4. How do you see the market for open source databases evolving?
Peter Zaitsev: The last decade has seen a lot of open source database engines built, offering a lot of different data models, persistence options, high availability options, etc. Some of them were build as open source from scratch, while others were released as open source after years of being proprietary engines — with the most recent example being CMDB2 by Bloomberg. I think this heavy competition is great for pushing innovation forward, and is very exciting! For example, I think if that if MongoDB hadn’t shown how many developers love a document-oriented data model, we might never of seen MySQL Document Store in the MySQL ecosystem.
With all this variety, I think there will be a lot of consolidation and only a small fraction of these new technologies really getting wide adoption. Many will either have niche deployments, or will be an idea breeding ground that gets incorporated into more popular database technologies.
I do not think SQL will “die” anytime soon, even though it is many decades old. But I also don’t think we will see it being the dominant “database” language, as it has been since the turn of millennia.
The interesting disruptive force for open source technologies is the cloud. It will be very interesting for me to see how things evolve. With pay-for-use models of the cloud, the “free” (as in beer) part of open source does not apply in the same way. This reduces incentives to move to open source databases.
To be competitive with non-open-source cloud deployment options, open source databases need to invest in “ease-of-use.” There is no tolerance for complexity in many development teams as we move to “ops-less” deployment models.
Q5. In your opinion what are the pros and cons of MySQL vs. MariaDB?
Peter Zaitsev: While tracing it roots to MySQL, MariaDB is quickly becoming a very different database.
It implements some features MySQL doesn’t, but also leaves out others (MySQL Document Store and Group Replication) or implements them in a different way (JSON support and Replication GTIDs).
From the MySQL side, we have Oracle’s financial backing and engineering. You might dislike Oracle, but I think you agree they know a thing or two about database engineering. MySQL is also far more popular, and as such more battle-tested than MariaDB.
MySQL is developed by a single company (Oracle) and does not have as many external contributors compared to MariaDB — which has its own pluses and minuses.
MySQL is “open core,” meaning some components are available only in the proprietary version, such as Enterprise Authentication, Enterprise Scalability, and others. Alternatives for a number of these features are available in Percona Server for MySQL though (which is completely open source). MariaDB Server itself is completely open source, through there are other components that aren’t that you might need to build a full solution — namely MaxScale.
Another thing MariaDB has going for it is that it is included in a number of Linux distributions. Many new users will be getting their first “MySQL” experience with MariaDB.
For additional insight into MariaDB, MySQL and Percona Server for MySQL, you can check out this recent article
Q6. What’s new in the MySQL and MongoDB ecosystem?
Peter Zaitsev: This could be its own and rather large article! With MySQL, we’re very excited to see what is coming in MySQL 8. There should be a lot of great changes in pretty much every area, ranging from the optimizer to retiring a lot of architectural debt (some of it 20 years old). MySQL Group Replication and MySQL InnoDB Cluster, while still early in their maturity, are very interesting products.
For MongoDB we’re very excited about MongoDB 3.4, which has been taking steps to be a more enterprise ready database with features like collation support and high-performance sharding. A number of these features are only available in the Enterprise version of MongoDB, such as external authentication, auditing and log redaction. This is where Percona Server for MongoDB 3.4 comes in handy, by providing open source alternatives for the most valuable Enterprise-only features.
Q7. Anything else you wish to add?
Peter Zaitsev: I would like to use this opportunity to highlight Percona’s contribution to the MySQL and MongoDB ecosystems by mentioning two of our open source products that I’m very excited about.
First, Percona XtraDB Cluster 5.7.
While this has been around for about a year, we just completed a major performance improvement effort that allowed us to increase performance up to 10x. I’m not talking about improving some very exotic workloads: these performance improvements are achieved in very typical high-concurrency environments!
I’m also very excited about our Percona Monitoring and Management product, which is unique in being the only fully packaged open source monitoring solution specifically built for MySQL and MongoDB. It is a newer product that has been available for less than a year, but we’re seeing great momentum in adoption in the community. We are focusing many of our resources to improving it and making it more effective.
Peter Zaitsev co-founded Percona and assumed the role of CEO in 2006. As one of the foremost experts on MySQL strategy and optimization, Peter leveraged both his technical vision and entrepreneurial skills to grow Percona from a two-person shop to one of the most respected open source companies in the business. With more than 150 professionals in 29 countries, Peter’s venture now serves over 3000 customers – including the “who’s who” of Internet giants, large enterprises and many exciting startups. Percona was named to the Inc. 5000 in 2013, 2014, 2015 and 2016.
Peter was an early employee at MySQL AB, eventually leading the company’s High Performance Group. A serial entrepreneur, Peter co-founded his first startup while attending Moscow State University where he majored in Computer Science. Peter is a co-author of High Performance MySQL: Optimization, Backups, and Replication, one of the most popular books on MySQL performance. Peter frequently speaks as an expert lecturer at MySQL and related conferences, and regularly posts on the Percona Data Performance Blog. He has also been tapped as a contributor to Fortune and DZone, and his recent ebook Practical MySQL Performance Optimization Volume 1 is one of percona.com’s most popular downloads.
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