IBM Revamps V5000

On April 2nd IBM announced several key enhancements across the Storwize V5000 portfolio and along with new models. These new models include the V5010E, 5030E and the V5100. The E stands for EXPRESS.) To further complicate the story, it utilizes Broadwell, Intel’s new 14 nanometer die shrink of its Haswell microarchitecture. Broadwell did not completely replace the full range of CPUs from Intel’s previous Haswell microarchitecture but IBM is using it widely in the new V5000 models.

IBM NVMe Flash Core Module

And the results can be impressive. From a scale-out perspective the V5010E supports a single controller configuration, while the V5030E and V5100 both support up to two controller clusters. This provides for a maximum of 392 drives in the V5010E and a massive 1520 drives in either the V5030E or V5100 dual controller clusters. The V5030E includes the Broadwell DE 1.9GHz, 6 core processor in its two canisters. Each canister supports a maximum of 32GB of RAM. Better still, the V5100 boasts a single Skylake 1.7Ghz processor with 8 cores in each canister. RAM is increased to a total of 576GB for the entire controller, or 288GB maximum per canister.

.For the next generation Storwize V5000 platforms IBM encouraging them to be called Gen3. The Gen3 encompasses 8 new MTM (Machine Type Model) based on 3 hardware models, V5010E, V5030E and V5100. The V5100 comes in two models, a hybrid (HDD and Flash) and the All Flash model V5100F. Of these 4 types, each is available with a 1 year or 3 year warranty.

The V5000E models are based on the Gen2 hardware, with various enhancements, including more memory options on the V5010E. The V5100 models are all new hardware and bring same NVMe Flash Core Modules (FCM) that are available on the V7000 and FlashSystem9100 products, completing Core Modules the transition of the Storwize family to all NVMe arrays. If you haven’t seen or heard about IBM’s FCM technology introduced last year to optimize NVMe FCM are a family of high-performance flash drives that utilizes the NVMe protocol, a PCIe Gen3 interface, and high-speed NAND memory to provide high throughput and IOPS and very low latency. FCM is available in 4.8 TB, 9.6 TB, and 19.2 TB capacities. Hardware-based data compression and self-encryption are built in.

The all flash (F) variants of the V5000 can also attach SAS expansions to extend capacity using SAS based Flash drives to allow expansion up to 1520 drives. The drives, however, are not interchangeable with the new FCM drives. The E variants allow attachment of SAS 2.5” and 3.5” HDD drives, with the V5010E expandable to 392 drives and the others up to 1520.

Inbuilt host attachments come in the form of 10GbE ports for iSCSI workloads, with optional 16Gbit FibreChannel (SCSI or FC-NVMe) as well as additional 10GbE or 25GbE iSCSI. The V5100 models can also use the iSER (an iSCSI translation layer for operation over RDMA transports, such as InfiniBand) protocol over the 25GbE ports for clustering capability, with plans to support NVMeF over Ethernet. In terms of cache memory, the V5000E products are expandable up to 64GB per controller (IO Group) and the V5100 can support up to 576GB per controller. Similarly, IBM issued as a statement of direction for all 25GbE port types across the entire Spectrum Virtualize family of products.

As Lloyd Dean, IBM Senior Certified Executive IT Architect noted, the new lineup for the V5000 is impressive; regarding the quantity of drives, and the storage available per model will “blow your mind”. How mind blowing will depend, of course, on your configuration and IBM’s pricing. As usual, IBM talks about affordable and comparative cost and storage efficiency but they usually never state a price. But they did once 3 years ago: List price then for the V5010 was $9,250 including hardware, software and a one-year warranty, according to a published report. Today IBM will likely steer you to cloud pricing, which may or may not be a bargain depending on how the deal is structured and priced. With the cloud, everything is in the details.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

IBM Rides Quantum Volume to Quantum Advantage

Recently IBM announced achieving its’ highest quantum volume to date. Of course, nobody else knows what Quantum Volume is.  Quantum volume is both a measurement and a procedure developed, no surprise here, by IBM to determine how powerful a quantum computer is. Read the May 4 announcement here.

Quantum volume is not just about the number of qubits, although that is one part of it. It also includes both gate and measurement errors, device cross talk, as well as device connectivity and circuit compiler efficiency. According to IBM, the company has doubled the power of its quantum computers annually since 2017.

The upgraded processor will be available for use by developers, researchers, and programmers to explore quantum computing using a real quantum processor at no cost via the IBM Cloud. This offer has been out in various forms since May 2016 as IBM’s Q Experience.

Also announced was a new prototype of a commercial processor, which will be the core for the first IBM Q early-access commercial systems.  Dates have only been hinted at.

IBM’s recently unveiled IBM Q System One quantum computer, with a fourth-generation 20-qubit processor, which has resulted in a Quantum Volume of 16, roughly double that of the current IBM Q 20-qubit device, which have a Quantum Volume of 8.

The Q volume math goes something like this: a variety of factors determine Quantum Volume, including the number of qubits, connectivity, and coherence time, plus accounting for gate and measurement errors, device cross talk, and circuit software compiler efficiency.

In addition to producing the highest Quantum Volume to date, IBM Q System One’s performance reflects some of the lowest error rates IBM has ever measured, with an average 2-qubit gate error less than 2 percent, and its best gate achieving less than a 1 percent error rate. To build a fully-functional, large-scale, universal, fault-tolerant quantum computer, long coherence times and low error rates are required. Otherwise how could you ever be sure of the results?

Quantum Volume is a fundamental performance metric that measures progress in the pursuit of Quantum Advantage, the Quantum Holy Grail—the point at which quantum applications deliver a significant, practical benefit beyond what classical computers alone are capable. To achieve Quantum Advantage in the next decade, IBM believes that the industry will need to continue to double Quantum Volume every year.

Sounds like Moore’s Law all over again. IBM doesn’t deny the comparison. It writes: in 1965, Gordon Moore postulated that the number of components per integrated function would grow exponentially for classical computers. Jump to the new quantum era and IBM notes its Q system progress since 2017 presents a similar early growth pattern, supporting the premise that Quantum Volume will need to double every year and presenting a clear roadmap toward achieving Quantum Advantage.

IBM’s recently unveiled IBM Q System One quantum computer, with a fourth-generation 20-qubit processor, which has produced a Quantum Volume of 16, roughly double that of the current IBM Q 20-qubit IBM Q Network device, which has a Quantum Volume of 8.

Potential use cases, such as precisely simulating battery-cell chemistry for electric vehicles, speeding quadratic derivative models, and many others are already being investigated by IBM Q Network partners. To achieve Quantum Advantage in the 2020s, IBM believes the industry will need to continue doubling Quantum Volume every year.

In time AI should play a role expediting quantum computing.  For that, researchers will need to develop more effective AI that can identify patterns in data otherwise invisible to classical computers.

Until then how should most data centers proceed? IBM researchers suggest 3 initial steps:

1. Develop quantum algorithms that demonstrate how quantum computers can improve AI classification accuracy.

2. Improve feature mapping to a scale beyond the reach of the most powerful classical computers
3. Classify data through the use of short depth circuits, allowing AI applications in the NISQ (noisy intermediate scale quantum) regime and a path forward to achieve quantum advantage for machine learning.

Sounds simple, right? Let DancingDinosaur know how you are progressing.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

IBM Joins with Harley-Davidson for LiveWire

I should have written this piece 40 years ago as a young man fresh out of grad school. Then I was dying for a 1200cc Harley Davidson motorcycle. My mother was dead set against it—she wouldn’t even allow me to play tackle football and has since been vindicated (You win on that, mom.). My father, too, was opposed and wouldn’t help pay for it. I had to settle for a puny little motor scooter that offered zero excitement.

In the decades since I graduated, Harley’s fortunes have plummeted as the HOG (Harley Owners Group) community aged out and few youngsters have picked up the slack. The 1200cc bike I once lusted after probably is now too heavy for me to handle. So, what is Harley to do? Redefine its classic American brand with an electric model, LiveWire.

Courtesy: Harley Davidson, IBM

With LiveWire, Harley expects to remake the motorcycle as a cloud-connected machine and promises to deliver new products for fresh motorcycle segments, broaden engagement with the brand, and strengthen the H-D dealer network. It also boldly proclaimed that Harley-Davidson will lead the electrification of motorcycling.

According to the company, Harley’s LiveWire will leverage H-D Connect, a service (available in select markets), built on thIBM AI, analytics, and IoTe IBM Cloud. This will enable it to deliver new mobility and concierge services today and leverage an expanding use of IBM AI, analytics, and IoT to enhance and evolve the rider’s experience. In order to capture this next generation of bikers, Harley is working with IBM to transform the everyday experience of riding through the latest technologies and features IBM can deliver via the cloud.

Would DancingDinosaur, an aging Harley enthusiast, plunk down the thousands it would take to buy one of these? Since I rarely use my smartphone to do anything more than check email and news, I am probably not a likely prospect for LiveWire.

Will LiveWire save Harley? Maybe; it depends on what the promised services will actually deliver. Already, I can access a wide variety of services through my car but, other than Waze, I rarely use any of those.

According to the joint IBM-Harley announcement, a fully cellular-connected electric motorcycle needed a partner that could deliver mobility solutions that would meet riders’ changing expectations, as well as enhance security. With IBM, Harley hopes to strike a balance between using data to create both intelligent and personal experiences while maintaining privacy and security, said Marc McAllister, Harley-Davidson VP Product Planning and Portfolio in the announcement.

So, based on this description, are you ready to jump to LiveWire? You probably need more details. So far, IBM and Harley have identified only three:

1. Powering The Ride: LiveWire riders will be able to check bike vitals at any time and from any location. Information available includes features such as range, battery health, and charge level. Motorcycle status features will also support the needs of the electric bike, such as the location of charging stations. Also riders can see their motorcycle’s current map location.  Identifying charging stations could be useful.
2. Powering Security: An alert will be sent to the owner’s phone if the motorcycle has been bumped, tampered, or moved. GPS-enabled stolen-vehicle assistance will provide peace of mind that the motorcycle’s location can be tracked. (Requires law enforcement assistance. Available in select markets).
3. Powering Convenience: Reminders about upcoming motorcycle service requirements and other care notifications will be provided. In addition, riders will receive automated service reminders as well as safety or recall notifications.

“The next generation of Harley-Davidson riders will demand a more engaged and personalized customer experience,” said Venkatesh Iyer, Vice President, North America IoT and Connected Solutions, Global Business Services, IBM. Introducing enhanced capabilities, he continues, via the IBM Cloud will not only enable new services immediately, but will also provide a roadmap for the journey ahead. (Huh?)

As much as DancingDinosaur aches for Harley to come roaring back with a story that will win the hearts of the HOG users who haven’t already drifted away Harley will need more than the usual buzzwords, trivial apps, and cloud hype.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

Meet SUSE Enterprise Linux Server 12

A surprising amount of competition has emerged lately for Linux on the mainframe, but SUSE continues to be among the top of the heap.  With the newest release last fall, SUSE Linux Enterprise 12, should secure its position for some time to come.

SUSE touts SLE 12 as the latest version of its reliable, scalable and secure platform for efficiently deploying and managing highly available enterprise-class IT services in physical, virtual, or cloud environments. New products based on SLE 12 feature enhancements should allow for better system uptime, improved operational efficiency, and accelerated innovation. As the foundation for all SUSE data center operating systems and extensions, according to the company, SUSE Linux Enterprise meets the performance requirements of data centers with mixed IT environments while reducing the risk of technological obsolescence and vendor lock-in.

With SLE 12 the company also introduces an updated customer portal, SUSE Customer Center, to make it easier for customers to manage their subscriptions, access patches and updates, and communicate with SUSE customer support. It promises a new way to manage a SUSE account and subscriptions via one interface, anytime, anywhere.

Al Gillen, program vice president for servers and system software at IDC, said, “The industry is seeing growing movement of mission-critical workloads to Linux, with that trend expected to continue well into the future.” For Gillen, the modular design of SLE 12, as well as other mission-critical features like full system rollback and live kernel patching, helps address some of the key reservations customers express, and should help accelerate the adoption of Linux on z.

It’s about time. Linux has been available on the z for 20 years. Only with the introduction of IBM LinuxONE a couple of years ago has IBM gotten serious about Linux on z.  Around that time IBM also ported the Go programming language to LinuxOne. Go was developed by Google and is designed for building simple, reliable and efficient software, making it easier for developers to combine the software tools they know with the speed, security and scale offered by LinuxONE. Taking it even further, following Apple’s introduction of Swift as the new language for OS X and iOS application development. IBM began partnering with Apple to bring the power of Swift open source programming to the z. This was closely tied to Canonical’s Ubuntu port to the z.

And it didn’t stop there. IBM ported the Go programming language to LinuxOne too. Go was developed by Google and is designed for building simple, reliable and efficient software, making it easier for developers to combine the software tools they know with the speed, security and scale offered by LinuxONE. As expected IBM has contributed code to the Go community.

Then IBM brought Apple’s Swift programming to the party, first to the IBM Watson iOS SDK, which gives developers a Swift API to simplify integration with many of the Watson Developer Cloud services – all of which are available today, and can now be integrated with just a few lines of code. As soon as Apple introduced Swift as the new language for OS X and iOS application development. IBM began partnering with Apple to bring the power of Swift open source programming to the z. This was closely tied to Canonical’s Ubuntu port to the z, which has already been released.

With SUSE Linux Enterprise Server for x86_64, IBM Power Systems, and IBM System SUSE ES 12 has boosted its versatility, able to deliver business-critical IT services in a variety of physical, virtual, and cloud environments. New features like full system rollback, live kernel patching, and software modules increase data center uptime, improve operational efficiency, and accelerate the adoption of open source innovation. ES 12 further builds on SUSE’s leadership with Linux Containers technology and adds the Docker framework, which is now included as an integral part of the operating system.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

IBM Enhances Storage for 2019

It has been a while since DancingDinosaur last looked closely at IBM’s storage efforts. The latest 4Q18 storage briefing, actually was held on Feb. 5, 2019 but followed by more storage announcements 2/11 and 2/12 For your sake, this blog will not delve into each of these many announcements. You can, however, find them at the previous link.

Sacramento-San Joaquin River Delta–IBM RESEARCH

As IBM likes to say whenever it is trying to convey the value of data: “data is more valuable than oil.”  Maybe it is time to update this to say data is more valuable than fresh, clean water, which is quickly heading toward becoming the most precious commodity on earth.

IBM CEO Ginny Rometty, says it yet another way: “80% of the world’s data, whether it’s decades of underwriting, pricing, customer experience, risk in loans… That is all with our clients. You don’t want to share it. That is gold,” maybe more valuable even, say, the value of fresh water. But whatever metaphor you choose to use—gold, clean water, oil, something else you perceive as priceless, this represents to IBM the value of data. To preserve the value it represents this data must be economically stored, protected, made accessible, analyzed, and selectively shared. That’s where IBM’s storage comes in.

And IBM storage has been on a modest multi-year storage growth trend.  Since 2016, IBM reports shipping 700 new NVMe systems, 850 VeraStack systems, 3000 DS8880 systems, 5500 PB of capacity, attracted 6,800 new IBM Spectrum (virtualized) storage customers, and sold 3,000 Storwize All-flash system along with 12,000 all-flash arrays shipped.

The bulk of the 2/5 storage announcements fell into 4 areas:

1. IBM storage for containers and cloud
2. AI storage
3. Modern data protection
4. Cyber resiliency

Except for modern data protection, much of this may be new to Z and Power data centers. However, some of the new announcements will interest Z shops. In particular, 219-135 –Statement of direction: IBM intends to deliver Managed-from-Z, a new feature of IBM Cloud Private for Linux on IBM Z. This will enable organizations to run and manage IBM Cloud Private applications from IBM Linux on Z or LinuxONE platforms. The new capability furthers IBM’s commitment to deliver multi-cloud and multi-architecture cloud-native technologies on the platform of the customer’s choice. Watson, too, will now be available on more platforms through newly announced Watson Anywhere—a version of IBM’s cognitive platform that can run Watson on-premises, in IBM’s cloud, or any other cloud, be it private or public.

Another interesting addition to the IBM storage line, the FlashSystem 9100. IBM FlashSystem 9100, as IBM explains it, combines the performance of flash and Non-Volatile Memory Express (NVMe) end-to-end with the reliability and innovation of IBM FlashCore technology and the rich features of IBM Spectrum Virtualize, — all packed into a 2U enterprise-class storage system. Providing intensive data driven multi-cloud storage capacity, FlashSystem 9100 is deeply integrated with the software defined (virtualized) capabilities of IBM Spectrum Storage, allowing organizations to easily add multi-cloud solutions that best support their business..

Finally, 219-029 –IBM Spectrum Protect V8.1.7 and IBM Spectrum Protect Plus V10.1.3 deliver new application support and optimization for long term data retention. Think of it this way: as the value of data increases, you will want to retain and protect it in more data in more ways for longer and longer. For this you will want the kind of flexible and cost-efficient storage available through Spectrum Protect.

In addition, at Think, IBM announced Watson Anywhere, a version of Watson that runs on-premises, in IBM’s cloud, or any other cloud, be it private or public.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

Meet IBM Q System One

A couple of weeks ago, IBM slipped in a new quantum machine at CES. The new machine, dubbed IBM Q System One, is designed for both scientific and commercial computing. IBM described it as the first integrated universal approximate quantum computing system.

Courtesy of IBM

Approximate refers to the short coherence time of the qubits, explains Michael Houston, manager, Analyst Relations. Or, to put it another way: how long the qubits remain stable enough to run reliable and repeatable calculations. IBM Q systems report an industry-best average of 100 microseconds. That’s not enough time for a round of golf, but probably long enough to start running some serious quantum analytics.

As described by IBM, the new machine family, the Q systems, are designed to one day tackle problems that are currently seen as too complex or too exponential in scale for classical (conventional) systems to handle. Such Q Systems may use quantum computing to find new ways to model financial data or isolate key global risk factors to make better investments or find the optimal path across global systems for ultra-efficient logistics or optimizing fleet operations for improved deliveries.

The design of IBM Q System One includes a 9x9x9 cube case constructed of half-inch thick borosilicate glass to form a sealed, airtight enclosure that opens effortlessly using roto-translation, a motor-driven rotation around two displaced axes engineered to simplify the system’s maintenance and upgrade process while minimizing downtime. Overall, the entire system was intended to enable the most stable qubits, which allows for the machine to deliver the reliable commercial use.

A series of independent aluminum and steel frames not only unify, but also decouple the system’s cryostat, control electronics, and exterior casing, helping to avoid potential vibration interference that leads to phase jitter and qubit decoherence.

The object of all of this, Houston explains, is to deliver a sophisticated, modular, and compact design optimized for stability, reliability, and continuous commercial use. For the first time ever, IBM Q System One enables universal approximate superconducting quantum computers to operate beyond the confines of the research lab.

In effect, think of the Q System One as bringing the quantum machine to the data center, starting with Q System’s design that squeezes all the quantum computing electronics, controllers, and other components into a 9x9x9 foot cube made of half-inch thick glass to create a sealed, airtight enclosure that will allow the system to cool the qubits to low Kelvin temperatures and keep them cold enough and undisturbed from any interference for long enough to perform meaningful work. All the Q System One’s components and control mechanisms are intended to keep the qubits at 10 mK  (-442F) to operate

This machine, notes IBM, should look familiar to conventional computer data center managers. Maybe, if you think a 9x9x9, half-inch thick borosilicate glass cube is a regular feature of any data center you have worked in

In effect, IBM is applying the same approach to quantum computing that it has followed for decades with its conventional computers–providing everything you need to get it operating in your data center. Just plan to bring in some trained quantum technicians, specialists, and, don’t forget, a handful of people who can program such a machine.

Other than that, the IBM Q System One consists of a number of custom components that work together–remember they said integrated: Specifically, the new machine will include:

• Quantum hardware designed to be stable and auto-calibrated to give repeatable and predictable high-quality qubits;
• Cryogenic engineering that delivers a continuous cold and isolated quantum environment;
• High precision electronics in compact form factors to tightly control large numbers of qubits;
• Quantum firmware to manage the system health and enable system upgrades without downtime for users

Are you up for it? Maybe you’d prefer to try before you buy. The IBM Q Quantum Computation Center, opening later this year in Poughkeepsie, extends the IBM Q Network to commercial quantum computing programs,

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

Are Your Security Systems Reliable?

How confident are you in your security systems? Just a glance at reports of data losses should temper any confidence you may have. Verizon’s 2018 Data Breach Investigations Report (DBIR), as it is every year, should serve as a wakeup call.  Or as the report writers put it: identifying 53K+ incidents in only 12 months suggests an information security dystopia, an uneven playing field where the bad guys consistently win out. The 2018 report, in that regard, is not much different from previous years’ reports.

Syncsort, a leading mainframe ISV, released its own security survey results among 300 survey responders. It found 85 percent of respondents are either very or somewhat confident in their organization’s security program although 41 percent said their company had experienced a security breach and 20 percent more were unsure. I’d be more nervous about the 20% who weren’t sure than the 41 % who, at least, had identified a security breach. You can find Syncsort’s security announcement here.

Top security related challenges, courtesy Syncsort

 

To Syncsort, a particularly interesting challenge appeared to come from new data sources. Specifically, seven percent were familiar with newer but widely-adopted data storage options like Hadoop data lakes.

Cloud and compliance definitely are not new security challenges. Yet, they show up in the Syncsort survey:

• Twenty-eight percent of respondents named adoption of cloud services as their top security-related challenge, followed by growing complexity of regulations (20%) and insufficient IT security staffing (19%).
• The regulation most respondents had to adhere to was GDPR (37%), followed by HIPAA and SOX (32% each).

Fortunately, security (42%) and cloud computing (35%) are organizations’ top two IT priorities in the coming year. It probably is too much, however, to expect management will increase security staffing until the organization finds its security breach on the front page of a large daily newspaper like the New York Times or Wall Street Journal. This is the corporate equivalent to shutting the proverbial gate after the horses (or data) have left.

So who are the bad guys you are up against. Verizon has an answer to this: Almost three-quarters (73%) of cyberattacks were perpetrated by outsiders. Members of organized criminal groups were behind half of all breaches, with nation-state or state-affiliated actors involved in 12%.

But don’t get complacent. Insider threats may be the hardest to defend against. Over a quarter (28%) of attacks involved insiders. The insider threat can be particularly difficult to guard against, as Verizon points out, since it can be difficult to spot the signs if someone is using their legitimate access to your data for nefarious purposes. Or to put it another way, the chances are you should be more nervous about a disgruntled employee than about a North Korean agent.

Similarly, audit security regularly. Most audit only annually but a few audit more frequently. More frequently leads to better security. As Syncsort found: Thirty-two percent of responding organizations only perform security audits annually, while 23 percent do so every three months and 19 percent every six months.

The areas you examine in audits also can help you improve security effectiveness. For example, Syncsort survey responders were most likely to examine application security (72%), backup/disaster recovery processes (70%), network security (69%), and antivirus programs and password policies (67% each).

Not surprisingly different organizations have different security priorities. For example, security (42%) and cloud computing (35%) are top two IT priorities for the majority of organization in the coming year.  

However, twenty-eight percent of respondents named adoption of cloud services as their top security-related challenge, followed by growing complexity of regulations (20%), and insufficient IT security staffing (19%).

Respondents also differed on which regulation they felt they had to meet first. The regulation most respondents reported having to meet: GDPR (37%), followed by HIPAA and SOX (32% each).

If you have had a chance to periodically review the various Verizon Data Breach Investigations Reports, you won’t be surprised to learn that organizations continue to experience data breaches.  Specifically, Syncsort found: forty-one percent of organizations have experienced data breaches, while 39 percent have not, However, 20 percent say they don’t know? Kinda scary.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

 

12 Ingredients for App Modernization

It is no surprise that IBM has become so enamored with the hybrid cloud. The worldwide public cloud services market is projected to grow 21.4 percent in 2018 to total $186.4 billion, up from $153.5 billion in 2017, according to Gartner.

The fastest-growing segment of the market is cloud system infrastructure services (IaaS), which is forecast to grow 35.9 percent in 2018 to reach $40.8 billion. Gartner expects the top 10 providers, often referred to as hyperscalers, to account for nearly 70 percent of the IaaS market by 2021, up from 50 percent in 2016.

Cloud computing is poised to become a “turbocharged engine powering digital transformation around the world,” states a recent Forrester report, Predictions 2019: Cloud Computing. Overall, the global cloud computing market, including cloud platforms, business services, and SaaS, will exceed $200 billion this year, expanding at more than 20%, the research firm predicts

Venkats’ recipe for app modernization; courtesy of IBM

Hybrid clouds, which include two or more cloud providers or platforms, are emerging as the preferred approach for enterprises.  Notes IBM: The digital economy is forcing organizations to a multi-cloud environment. Three of every four enterprises have already implemented more than one cloud. The growth of cloud portfolios in enterprises demands an agnostic cloud management platform — one that not only provides automation, provisioning and orchestration, but also monitors trends and usage to prevent outages. No surprise here; IBM just happens to offer hybrid cloud management.

By the start of 2019, the top seven cloud providers are AWS, Azure, Google Cloud, IBM Cloud, VMWare Cloud on AWS, Oracle Cloud, and Alibaba Cloud. These top players have been shifting positions around in 2018 and expect more shifting to continue this year and probably for years to come.

Clients, notes Venkat, are discovering that the real value of Cloud comes in a hybrid, multi-cloud world. In this model, legacy applications are modernized with a real microservices architecture and with AI embedded in the application. He does not fully explain where the AI comes from and how it is embedded. Maybe I missed something.

Driving this interest for the next couple of years, at least, is interest in application modernization. Companies are discovering that the real value comes through a hybrid multicloud. Here legacy applications are modernized through a real microservices architecture enhanced with AI embedded in the application, says Meenagi Venkat, Vice President of Technical Sales & Solutioning, at IBM Cloud. Venkat wrote what he calls a 12-ingredient recipe for application modernization here. Dancing Dinosaur will highlight a couple of the ingredients below. Click the proceeding link to see them all.

To begin, when you modernize a large portfolio of several thousand applications in a large enterprise, you need some common approaches. At the same time, the effort must allow teams to evolve to a microservices-based organization where each microservice is designed and delivered with great independence.

Start by fostering a startup culture. Fostering a startup culture that allows for fast failure is one of the most critical ingredients when approaching a large modernization program. The modernization will involve sunsetting some applications, breaking some down, and using partner services in others. A startup culture based on methods such as IBM Garage Method and Design Thinking will help bring the how-to of the culture shift.

Then, innovate via product design Venkat continues. A team heavy with developers and no product folks is likely to focus on the technical coolness rather than product innovation. Hence, these teams should be led by the product specialists who deliver the business case for new services or client experience

And don’t neglect security. Secure DevOps will require embedding security skills in the scrum teams with a product owner leading the team. The focus on the product and on designing security (and compliance) to various regimes at the start will allow the scaling of microservices and engender trust in the data and AI layers. Venkat put this after design and the startup culture. In truth, this should be a key part of the startup culture.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

Factsheets for AI

Depending on when you check in on the IBM website the primary technology trend for 2019 is quantum computing or hybrid clouds or blockchain, or artificial intelligence or any of a handful of others. Maybe IBM does have enough talented people, resources, and time to do it all well now. But somehow DancingDinosuar is dubious.

There is an old tech industry saying: you can have it right, fast, cheap—pick 2. When it comes to AI depending on your choices or patience you could win an attractive share of the projected $83 billion AI industry by 2021 or a share of the estimated $200 billion AI market by 2025, according to venturebeat.

IBM sees the technology industry at a pivotal moment in the path to mass adoption of artificial intelligence (AI). Google subsidiary DeepMind is leveraging AI to determine how to refer optometry patients. Haven Life is using AI to extend life insurance policies to people who wouldn’t traditionally be eligible, such as people with chronic illnesses and non-U.S. citizens. And Google self-driving car spinoff Waymo is tapping it to provide mobility to elderly and disabled people.

But despite the good AI is clearly capable of doing, doubts abound over its safety, transparency, and bias. IBM believes part of the problem is a lack of standard practices.

As a result, there’s no consistent, agreed-upon way AI services should be created, tested, trained, deployed, and evaluated, observes Aleksandra Mojsilovic, head of AI foundations at IBM Research and co-director of the AI Science for Social Good program. To clear up the ambiguity surrounding AI, Mojsilovic and colleagues propose voluntary factsheets or as more formally called Supplier’s Declaration of Conformity (DoC). The goal: increasing the transparency of particular AI services and engendering trust in them.

Such factsheets alone could enable a competitive advantage to AI offers in the marketplace. Such factsheets could provide explain-ability around susceptibility to adversarial attacks—issues that must be addressed in order for AI services to be trusted along with fairness and robustness, Mojsilovic continued. Factsheets take away the black box perception of AI and render the AI system understandable by both researchers and developers.

Several core pillars form the basis for trust in AI systems: fairness, robustness, and explain-ability, the first 3 pillars.  Late in her piece, Mojsilovic introduces a fourth pillar — lineage — which concerns AI systems’ history. Factsheets would answer questions ranging from system operation and training data to underlying algorithms, test setups and results, performance benchmarks, fairness and robustness checks, intended uses, maintenance, and retraining. More granular topics might include governance strategies used to track the AI service’s data workflow, the methodologies used in testing, and bias mitigations performed on the dataset. But in Mojsilovic’s view, documents detailing the ins and outs of systems would go a long way to maintaining the public’s faith in AI.

For natural language processing algorithms specifically, the researchers propose data statements that would show how an algorithm might be generalized, how it might be deployed, and what biases it might contain.

Natural language processing systems aren’t as fraught with controversy as, say, facial recognition, but they’ve come under fire for their susceptibility to bias.  IBM, Microsoft, Accenture, Facebook, and others are actively working on automated tools that detect and minimize bias, and companies like Speechmatics and Nuance have developed solutions specifically aimed at minimizing the so-called accent gap — the tendency of voice recognition models to skew toward speakers from certain regions. But in Mojsilovic’s view, documents detailing the ins and outs of systems—factsheets–would go a long way to restoring the public’s faith in AI.

Fairness, safety, reliability, explain-ability, robustness, accountability — all agree that they are critical. Yet, to achieve trust in AI, making progress on these issues alone will not be enough; it must be accompanied with the ability to measure and communicate the performance levels of a system on each of these dimensions, she wrote. Understanding and evaluating AI systems is an issue of utmost importance for the AI community, an issue IBM believes the industry, academia, and AI practitioners should be working on together.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.

IBM Pushes Hybrid Cloud

Between quantum computing, blockchain, and hybrid cloud IBM is pursuing a pretty ambitious agenda. Of the three, hybrid promises the most immediate payback. Cloud computing is poised to become a “turbocharged engine powering digital transformation around the world,” states a new Forrester report, Predictions 2019: Cloud Computing

Of course, IBM didn’t wait until 2019. It purchased Red Hat Linux at the end of Oct. 2018. DancingDinosaur covered it here a few days later. At that time IBM Chairman Ginni Rometty called the acquisition of Red Hat a game-changer. “It changes everything about the cloud market,” she noted. At a cost of $34 billion, 10x Red Hat’s gross revenue, it had better be a game changer.

Forrester continues, predicting that in 2019 the cloud will reach its more interesting young adult years, bringing innovative development services to enterprise apps rather than just serving up cheaper, temporary servers and storage, which is how it has primarily grown over the past decade. Who hasn’t turned to one or another cloud provider to augment its IT resources as needed, whether backup or server capacity, and network?

As Forrester puts it: The six largest hyperscale cloud leaders — Alibaba, Amazon Web Services [AWS], Google, IBM, Microsoft Azure, and Oracle — will all grow larger in 2019, as service catalogs and global regions expand. Meanwhile, the global cloud computing market, including cloud platforms, business services, and SaaS, will exceed $200 billion in 2019, expanding at more than 20%, the research firm predicts.

Hybrid clouds, which provide two or more cloud providers or platforms, are emerging as the preferred way for enterprises to go.  Notes IBM: The digital economy is forcing organizations to a multi-cloud environment. Three of every four enterprises have already implemented more than one cloud. The growth of cloud portfolios in enterprises demands an agnostic cloud management platform — one that not only provides automation, provisioning and orchestration, but that also monitors trends and usage to prevent outages.

Of course, IBM also offers a solution for this; the company’s Multicloud Manager runs on its IBM Cloud Private platform, which is based on Kubernetes container orchestration technology, described as an open-source approach for ‘wrapping’ apps in containers, and thereby making them easier and cheaper to manage across different cloud environments – from on-premises systems to the public cloud.

Along with hybrid clouds containers are huge in Forrester’s view. Powered by cloud-native open source components and tools, companies will start rolling out their own digital application platforms that will span clouds, include serverless and event-driven services, and form the foundation for modernizing core business apps for the next decade, the researchers observed. Next year’s hottest trend, according to Forrester, will be making containers easier to deploy, secure, monitor, scale, and upgrade. “Enterprise-ready container platforms from Docker, IBM, Mesosphere, Pivotal, Rancher, Red Hat, VMware, and others are poised to grow rapidly,” the researchers noted.

This may not be as straightforward as the researchers imply. Each organization must select for itself which private cloud strategy is most appropriate, they note. They anticipate greater private cloud structure emerging in 2019. It noted that organizations face three basic private cloud paths: building internally, using vSphere sprinkled with developer-focused tools and software-defined infrastructure; and having its cloud environment custom-built with converged or hyperconverged software stacks to minimize the tech burden. Or lastly, building its cloud infrastructure internally with OpenStack, relying on the hard work of its own tech-savvy team. Am sure there are any number of consultants, contractors, and vendors eager to step in and do this for you.

If you aren’t sure, IBM is offering a number of free trials that you can play with.

As Forrester puts it: Buckle up; for 2019 expect the cloud ride to accelerate.

DancingDinosaur is Alan Radding, a veteran information technology analyst, writer, and ghost-writer. Follow DancingDinosaur on Twitter, @mainframeblog, and see more of his work at technologywriter.com.