Tony Pearson is a Master Inventor and Senior IT Architect for the IBM Storage product line at the
IBM Systems Client Experience Center in Tucson Arizona, and featured contributor
to IBM's developerWorks. In 2016, Tony celebrates his 30th year anniversary with IBM Storage. He is
author of the Inside System Storage series of books. This blog is for the open exchange of ideas relating to storage and storage networking hardware, software and services.
(Short URL for this blog: ibm.co/Pearson )
My books are available on Lulu.com! Order your copies today!
Safe Harbor Statement: The information on IBM products is intended to outline IBM's general product direction and it should not be relied on in making a purchasing decision. The information on the new products is for informational purposes only and may not be incorporated into any contract. The information on IBM products is not a commitment, promise, or legal obligation to deliver any material, code, or functionality. The development, release, and timing of any features or functionality described for IBM products remains at IBM's sole discretion.
Tony Pearson is a an active participant in local, regional, and industry-specific interests, and does not receive any special payments to mention them on this blog.
Tony Pearson receives part of the revenue proceeds from sales of books he has authored listed in the side panel.
Tony Pearson is not a medical doctor, and this blog does not reference any IBM product or service that is intended for use in the diagnosis, treatment, cure, prevention or monitoring of a disease or medical condition, unless otherwise specified on individual posts.
This week, IBM clients, Business Partners and executives get together for the inaugural IBM [Think 2018] conference. There are nearly 40,000 attendees.
This is a combination of last year's three events: Edge, InterConnect, and World of Watson (WoW). The combined event is divided into four "campuses":
Cloud and Data -- formerly covered at InterConnect
Modern Infrastructure -- formerly covered at Edge
Business and AI -- formerly covered at World of Watson
Security and Resiliency -- covered in the other three events
(I am not in Las Vegas! In my first post in this series, [Science Slam], I forgot to mention that I was not physically there, and have since been flooded with invitations and requests for one-on-one meetings with clients and cocktail parties. Sorry folks! I am in Tucson writing these blog posts by watching the live stream videos of the event.)
Putting Smart to Work
Ginni Rometty, IBM Chairman, President and CEO, kicked off the event. In the opening video, we realize that "smart" is just a placeholder, translated to "Putting Cloud to Work", "Putting AI to work", and so on.
An "interesting moment" that happens every 25 years, when business and technology change at the same time. Those who learn exponentially are disruptors, not victims of disruption.
[Moore's law]: Double the number of transistors on a chip every 18-24 months.
[Metcalfe's law]: The value of a network is related to the square of the number of nodes involved.
[Watson's law]: Ginni would like to coin this new law to refer to exponential learning from data using Artificial Intelligence (AI).
How much of the world's data is searchable? only about 20 percent. The other 80 percent is proprietary that provides competitive advantage. IBM is helping clients be the "incumbent disruptor".
Ginni covered three inflection points: your business, society, and IBM itself
Companies must go on the offense, leverage multiple digital platforms (plural), and empower people by enable "man+machine" learning in every process they have. What are better decisions worth? Over $2 Trillion US dollars!
Man+Machine better than man-alone and machine-alone. At [Credit Mutuel], a leading European bank, Watson technology is used to answer 60 percent of customer emails, and 95 percent of the employees there are happier about this.
IT technology represents both the greatest opportunity and the biggest issue of our time.
Trust and responsibility. We must be data stewards, with focus on privacy and security. Only 4 percent of data is encrypted.
Jobs and skills. Man+Machine augments man alone. 100 percent of jobs will change. Ginni coined the term "new collar jobs" a few years ago.
Inclusion is important. IBM is one of the leaders in this area with its 400,000 employees spanning all races, genders, and sexual orientations. IBM was awarded [Catalyst award] for companies making real change for women in the workplace. IBM is the only tech company to be ever awarded this, and this will be the fourth time IBM is honored with this award.
IBM has revamped its own HR with [Workday]. In 2016, Workday partnered with IBM on 7-year deal to use IBM Cloud for its platform. IBM in turn has switched its HR to using Workday applications.
Mainframe technologies and POWER9 are now on the IBM Cloud. IBM is also expanding IBM Cloud Private to include "IBM Cloud Private for Data".
To date, IBM has completed 16,000 Watson engagements to-date. Watson Oncology now in 150 hospitals analyzing 13 different types of cancer.
The big system Watson used to play Jeopardy in 2011 have been broken down to micro-services and APIs that are more easily consumable by applications.
IBM and Apple have announced integration with Watson. Apple [CoreML] natively goes to Watson. IBM can now go straight to Apple Swift code. A new "Watson Studio" allows you to develop AI models in the cloud, then deploy them in private on-premises.
IBM will also offer "Watson Assistant". In the past, buying Watson was like buying a puppy, you needed to train it yourself. If you wanted a vicious guard dog, or a seeing-eye dog, that was up to you. Now, IBM offers "Watson Assistant" which is pre-trained.
Secure to the core
IBM is obsessed with security and trust, from Blockchain to Pervasive Encryption.
In the past, IBM often tried to do this all on its own, but in today's business climate, IBM now has strategic partnerships in these many areas.
Lowell McAdam, Chairman and Chief Executive Officer, Verizon Communications was the first guest speaker.
April 2017, Verizon launched Oath, formed from the company’s acquisition of AOL and Yahoo, which houses more than 50 digital and technology brands that together engage more than 1 billion people worldwide.
(I personally have been working with Verizon for decades, back when they were just NyNEX, BellAtlantic, and GTE, before they acquired Vodaphone, MCI, AOL and Yahoo! I use FlickR, one of the Yahoo brands.)
With the acquisition of AOL and Yahoo, Verizon formed "Oath", with over 1.2 billion consumers. The name came from the promise to customers for giving them to get what they want, when they want them.
Largest fiber provider for the USA. We have enough fiber on hand to stretch to Mars.
They invest $18 billion per year, but often payoffs not for another 5 years. [5G Wireless network technology] is an example. Lowell feels that 5G will usher the "fourth" industrial revolution:
Speeds over 1Gbps for consumers, 25Gbps for commercial, compared to 10 Mbps typical today.
5G will support 1,000 more devices per cell site, enabling IoT like intelligent lighting, video surveillance, face recognition.
5G has short latency, 1 msec compared to 200 msec today to cell site and back. This shorter latency will enable Augmented Reality and Virtual Reality (AR/VR).
5G also reduces battery consumption, imagine only charging your cell phone once per month!
Verizon delivers value three ways:
Provide connectivity only. Verizon will continue to do this for some markets
Like IBM, Verizon promises it will not use customer data in any manner that the customer did not "opt in" for. Business is based on trust. Those business that lose trust have difficult time to regain it.
Shipping, Supply Chain and Global Trade
Michael J. White manages the Global Trade Digitization organization for Maersk. He was recently named CEO-designate of the IBM-Maersk Joint Venture.
Shipping products is $4 Trillion US Dollar business. As much as 80 percent of what we consume came over the ocean. On average, 20 percent of the shipping cost is administrative paperwork, however, in some cases, the administrative costs exceed the physical transport costs.
State of industry, over the last 5 years, has been 3.7 percent compound annual growth rate (CAGR). This is expected to increase to 4 percent as economies bounce back. Many companies run lean, expecting their supply chains to provide supplies "just in time".
Unfortunately, shipping is hugely inefficient, paper-based. This impedes growth of local trade. Take for example the shipment of a container of Avocados from Kenya to Netherlands: 30 entities involved, over 100 individuals, over 200 transactions.
Why did IBM-Maersk joint venture pick blockchain? Blockchain is not a solution searching for a problem. The problems are well known, and blockchain addresses them. Smart contracts and decentralized authority provides immutable trust, critical in an industry where many parties do not know each other.
IBM Maersk Joint venture was formed over the past 18 months to create the world's best global trading platform.. There are 25 companies on-boarding now, with another 40 companies have expressed interest to join soon.
Unlike the anonymity of Bitcoin that enables terrorists and murders for hire, IBM is focused on transparency that all parties identify each other.
Blockchain benefits all the key parties involved. Carriers benefit, customers benefit, and ports and terminals get information earlier upstream for better planning during peak periods, and this results in better utilization of resources available.
(Not everyone benefits - counterfeiters and corrupt government officials will not be happy with Blockchain used in this manner!)
Paperless transactions reduces re-keying information by 80 percent. Less re-keying means fewer mistakes, fewer typos.
This new global trade platform offers opportunities in adjacent blockchain networks for financial services, insurance, and food safety. To ensure food safety, Blockchain is used by Walmart, Kroger, Unilever and 20 others. One third of food grown is wasted.
Dave McKay, President & Chief Executive Officer, Royal Bank of Canada (RBC) was the next speaker. Dave graduated from the University of Waterloo, a COBOL computer programmer at heart. RBC still use COBOL programs in their banking applications!
RBC is the top bank in Canada, and would be #5 bank if it was based in the USA. It will be celebrating its upcoming 150th anniversary in 2019. Highest customer sat for multiple years running. RBC has 13 million customers. RBC is also Canada's #1 broker/dealer for investment banking.
Back in the 1980s, banks were only open 10am-3pm, and treated it as a privilege for clients to work with the bank. Account holders came in several times per week, and relationships were built with local branches. Today, account holders are not coming into branch offices, using ATMs and mobile phones instead.
In the past, consumers used their RBC Credit Cards, and this provided brand recognition for RBC. Today, traditional banking services are now being embedded into other value chains. With Apple Wallet, for example, you enter your RBC credit card once, and then nobody knows what bank you are using to pay for coffee.
Like any bank, RBC is focused on three areas: moving money, storing money, and lending money. AI is needed to evaluate these transactions into knowledge, to provide business value and insight. However, RBC has only 40 Applied and Pure data science researchers on staff. This was deemed not enough, so RBC partnered with IBM.
Cloud, the computer power and speed needed, RBC has 60 apps in development in the IBM Cloud. While silicon valley start-ups might "let the app fail faster in the hands of clients", that approach doesn't work with money transactions.
RBC has invested heavily in blockchain. It will transform how we work with others. Digital transformation not just technology, but also cultural change. Is RBC in the mortgage business or the "Housing enablement business"? Is it in the car loan business or "transportation enablement business"?
Working with small business, they want to focus on their own clients, not bookkeeping and accounting. RBC has deployed AI in the Cloud to create the Advisor's Virtual Assistant [AVA] application. There have been over 48 million interactions in the first four months!
RBC is also investing $500 million this year to build the IT skills of their employees.
RBC is also focused on the stewardship of data. The strength and trust of financial institutions is the core to a strong economy. RBC policies are based on "opt in" to provide value relevant to both clients and the bank. Banks that breach that trust will struggle.
Ginni (and the rest of the company) has re-invented IBM to achieve exponential change. The change impacts all industries, not just the three we saw on the stage during this keynote session.
To follow along with the rest of Think2018 conference, watch the live stream on [www.ibm.com/events/think/watch] or follow the twitter hashtag #Think2018
This week, IBM clients, Business Partners and executives get together for the new IBM [Think 2018] conference. This is a combination of last year's three events: Edge, InterConnect, and World of Watson (WoW).
(The theme this week is "Putting smart to work." Some might feel that this is a grammatically-incorrect use of the adjective [smart], referring to having quick-witted intelligence or being neat and well-dressed. Many words in the English language have multiple meanings and uses. The word smart is also a noun, referring to either business acumen, technical skills, or "a sharp stinging pain")
The keynote session today was "Science Slam: Unveiling 5 Breakthrough Technologies That Will Change the World!" by Arvind Krishna, IBM Research Director. IBM has over 3,000 researchers, in 12 labs, across six continents.
This talk was based on IBM's annual five-in-five, five predictions that might change the world in the next five years. For amusement, read my 10-year-old blog post [Five in five for 2008], including predictions for smart thermostats that can be controlled remotely, and self-driving cars.
("Science Slam" is IBM Research version of [Pecha Kucha], but instead of art students having 20 minutes to show 20 PowerPoint slides, each IBM research scientist has 5-7 minutes to explain the research project they are exploring. These are done both internally, as well as to audiences outside the company.)
Jamie Garcia served as emcee, introducing each of the five experts. Each spent 5-7 minutes, Science Slam style, on what projects they were working on.
1. Crypto-anchors and blockchain technology
‘Everything you don’t understand about money
combined with everything you don’t understand
about computers’ [25-minute video]
Andreas Kind presented first. Blockchain is not just a provenance system that enables Bitcoin and other cryptocurrencies, it can be used for other goods.
(The best layman explanation of blockchain and cryptocurrencies I saw was John Oliver's humorous take on his HBO show [Last Week Tonight]!)
Counterfeit goods, from cinnamon to footwear, to medicine and automotive parts, is estimated over $1.8 trillion US dollars. IBM is working on how to use blockchain for other things, such as to restore trust into global supply chain. IBM hopes to reduce the number of counterfeit goods in half or more.
Andreas explained tamper-proof technologies called "crypto-anchors" -- from indelible ink on pharmaceuticals to computers smaller than a grain of salt -- that can be used to track products as they travel from one country to the next.
2. Lattice Cryptography and Fully Homomorphic Encryption
Cecilia Boschini from IBM Zurich presented next. As quantum computers get more powerful, the basic math involving prime numbers that most current encryption models are based on become vulnerable.
(Don't worry, she assured the audience, hackers would need a 1000-Qubit quantum computer to break today's encryption codes, which don't exist yet!)
What we need are post-quantum or quantum-resistant mathematical models. Lattice Cryptography aims to use more difficult math equations to make it more difficult for hackers to break the code, even when armed with quantum computers.
Another challenge with existing encrypted data is that we must decrypt the data to perform computations on it. Fully Homomorphic Encryption, or [FHE] for short, allows computations to be done in its encrypted state. For example, if I had a list of names with credit card or social security numbers encrypted, I could sort this list alphabetically without decrypting any of the data.
3. AI-enabled robotic microscopes to monitor ocean water
Tom Zimmerman is known as IBM Almaden's [McGyver], able to use common technologies in new and innovative ways.
By 2025, over half of the world's population will be living in water-stressed locations. IBM is working on robotic microscopes that can be deployed across the oceans, connected to the Cloud, monitoring the state of plankton.
Why plankton? Plankton produces two-thirds of all oxygen we breathe, and serves as the "baby food" for all oceanic species. Tom has re-programmed "face recognition" in smartphone cameras to recognize plankton, identifying what they are doing and eating.
Monitoring plankton provides an "early warning system", the proverbial [canaries in the coal mine] for impending water problems.
4. Eliminating Bias from Artificial Intelligence (AI)
Information overload! Overwhelmed by too much, our brains sort it out by either looking only for differences, or focusing on what we are already familiar with that confirm our beliefs.
Not enough meaning. Lacking complete information, our brains fill the gaps and connect the dots to find patterns that aren't patterns at all. Racism, prejudice, and stereotypes are examples of this.
The need to act fast! Survival in some cases demands acting fast, to avoid being eaten by an animal, for example. Unfortunately, our brains favor the quick and simple, over the more important but often delayed, distant or complicated response.
What should we remember? We decide what to remember, and what to forget. Our brains often favor generalities over specifics, as they take up less space. The details we remember when we experience it, or often edited or reinforced after the fact.
IBM is collaborating with the Massachusetts Institute of Technology [MIT] to reduce bias in Artificial Intelligence by rating different AI models on fairness.
The AI models that will win in the future are those where the biases are tamed or eliminated altogether.
5. Quantum Computing
Talia Gershon was the last speaker.
Many problems become exponentially more difficult to solve with classical computers. For example, simulating protein molecular bonding gets more difficult the larger the molecules are, because you have more electron interactions.
Quantum Computers run at a temperature of 15 millikelvin (mK), which is 460 degrees below zero. The computation unit is called a [Qubit], and a 5-Qubit quantum computer can solve problems that your laptop can solve classically. IBM now has "IBM Q" with 50-Qubit computers available.
The IT industry is still in the early stages, but IBM Quantum Information Software development kit (QISkit) allows programmers to experiment and develop algorithms for this new computational model.
Over the next five years, IBM predicts that Quantum Computing will transition from the lab, to the mainstream, to solve problems that were previously too difficult or time-consuming to solve.
Back then, IBM allowed its employees the option to run Windows, Linux or Mac OS. Since then, dual-boot Windows/Linux configurations, like the one I had back then on my Thinkpad T410, proved too difficult for our help desk, so these are no longer allowed.
In 2015, I received my new Thinkpad T440p to replace the old T410 model. For those 20 to 25 percent of the IBM employee population that manage, support and connect directly to client networks, IBM required Linux encrypted with LUKS, using Windows as KVM guests when needed for specific applications. This is more secure than running Windows natively, preventing viruses and other malware to spread between IBM and its clients.
As I am occasionally asked to help out our colleagues in lab services or with critical situations, I decided to implement my laptop to match, just in case. RHEL is rock solid, and running Windows as KVM guests could not be easier. Not having to worry about Windows viruses while travelling on business is a huge benefit as well.
Upgrading from RHEL 6.1 all the way up to RHEL 6.9 was simply a push of a button, all the new applications and kernel get installed, followed by a quick reboot. The migration from RHEL 6.9 to RHEL 7.4, however, was a major undertaking.
In past migrations, I was moving from a working laptop to a second laptop, affording me to be fully productive on the old machine until I was ready to cut over. In this case, I am performing a fresh install on my existing machine. To avoid any problems or delays, I wrote myself an 8-page, 17 step migration plan to capture all the tasks I needed to do to minimize the impact to my productivity.
(For those without sufficient computer skills to justify working at the world's top computer company, IBM has a help desk. You hand over your laptop, they backup the home directory, wipe your system clean, fresh install, restore your home directory, and return the laptop to you 3-5 days later, leaving the rest of the tasks up to you. Basically, this would merely replace the first three of my 17 steps below. I did not feel like burdening our help desk, nor wait 3-5 days without a laptop!)
Here were my steps:
Backup my existing system
In addition to backing up all my individual files to the Cloud, I also used [Clonezilla] to create a full image backup of my 500GB drive to an external USB drive.
Not all data is in file form. I also exported my browser bookmarks, so that I could import them back later. I also ran an "rpm -qa" to get a list of my existing applications installed.
Initially, I thought to format the 4TB external drive in UDF format, which is readable by Windows, Linux and Mac OS and supports files that are larger than 4GB in size.
Not knowing whether I should use [ExFAT] or Universal Disk Format [UDF] format, I split the 4TB into two 1.9TB partitions, and formatted one as ExFAT, and the other as UDF. Both formats support files greater than 4GB in size, which I have, but I discovered that on the older RHEL 6.9 release, based on a 2.6 Linux kernel, you can only write 68GB of data to a UDF partition. This is fixed in later kernels, but doesn't help me with my existing RHEL 6.9 release.
Fortunately, the latest Clonezilla LiveCD chops up the cloned images into files small enough that you can write to a variety of formats, and has a newer kernel that allows writing the full capacity of UDF partition.
In a crisis, I can restore back to RHEL 6.9 within 2 hours. This was my "relief valve" if I encountered any major delays and had to go travel for business on short notice.
Fresh install of RHEL 7.4 Linux
This completely wipes clean my drive, and installs two partitions. A tiny "/boot" partition needed to boot the system, and the remaining drive capacity as a large LUKS-encrypted LVM, to be internally partitioned between "/" and "swap" logical volumes.
Copy all of my files back
The challenge is that some files might clobber some of the configurations of the new applications. For this reason, I created /home/tpearson/RHEL69 and put everything there, so that I can move them to the correct locations as appropriate.
Copying all the files back in this manner eliminated having to be tethered to the external USB drive.
Setup LAN connectivity
I have to connect to IBM and guest systems, so this configuration is important. This includes EAP, TLS and VPN configurations. I thought I could just re-use the certificates I have for RHEL 6.9, but no, I had to create and register fresh new certificates for RHEL 7.4 release.
Configure Cinnamon Desktop
RHEL 7.4 uses Gnome 3 by default, which is quite different than Gnome2 used in RHEL 6.9 release. I don't care for it, so I configured [Cinnamon desktop] instead. Many people who use Linux Mint or Ubuntu might be familiar with this, and for those switching from Windows or RHEL 6.9 Linux, Cinnamon has familiar "Start" button in lower left corner.
By default, our RHEL 7.4 image comes with Firefox and Chrome browsers, so all I needed to do was import the bookmarks that I had exported in step 1 above.
Configure KVM guests
I was able to bring over my Windows7 Kernel-Virtual Machine [KVM] from RHEL 6.9 and run without problems, but this was bloated and now consuming nearly 60GB of space. Therefore, I decided to get a fresh Windows7 and Windows10 guest images instead.
Like with Linux, I wrote down what applications I had installed on Windows, and used that to configure the Windows guests. Nearly everything I do runs natively on Linux, but I do use Microsoft Office (Powerpoint, Excel, Word) and a nice tool called [CutePDF] that allows me to print to PDF instead of an actual printer.
Windows10 comes with the "Print-to-PDF" feature built-in, so no need for CutePDF on that one.
Configure IBM Notes, Sametime and Gnote
IBM is a heavy user of [IBM Notes] (formerly called Lotus Notes), not just for email but also for its document management and database capabilities. Sametime is our "Instant Messenger" app. [Gnote] is a linux-based tool to store short notes, I use it for all of my email templates for quick copy-and-paste responses.
IBM recently made using printers super easy. Print to the common "Cloud printer", and then pick up your print-outs from any printer in the building, any IBM building, worldwide. I could print in Tucson, for example, and pick up my print-outs when I am in the IBM buildings in Austin, Texas!
I also had to configure my printer at home, for those days where I need to print a boarding pass or quick document.
Configure File Sharing
IBM has deployed IBM [Spectrum Scale] internally for employees to share files across the company called "Global Storage Architecture" (GSA). Configuration for me just meant having to find my local cell (tucgsa) for Tucson, and entering my credentials.
Install Docker and DSX Desktop
[DSX Desktop] is the local laptop version of IBM's cloud-based [Data Science Experience], allowing me to perform Hadoop and Spark analytics for the various projects I work on. It runs as a Docker container, so I had to configure Docker as well.
Install Multimedia Codecs
One of the big detractors for Linux, compared to Windows or Mac OS, is the lack of multimedia support. Linux distros, like Red Hat, don't ship with these pre-installed, leaving this as an exercise for the end user.
IBM does a lot of audio and video files, including replays of conference calls and webinars for internal training. I keep a collection of different audio and video files to ensure that I have everything configured correctly for proper playback.
Install GIMP and other software
The GNU Image Manipulation Program [GIMP] is a great tool for quick editing of graphics. Another tool, Inkscape is designed for vector graphics.
Configure file-level backup
In addition to doing full-volume image backups with Clonezilla, I back up individual files, which are sent over the IBM internal network to a central server. All I need is configure to my previous backup set, and create the appropriate include/exclude list.
Many employees might just back up their home directory, but I customize a lot of the Linux configuration, so I like to backup a few more directories. Here is what I choose to back up:
Congigure Grub2 boot configuration
RHEL 7.4 supports [Grub2], which allows you to boot iso files directly. I like to add Clonezilla and [SystemRescueCD] as boot options. These were simple enough to add, just follow instructions, copy files to the /boot directory, and create a menuentry for each.
Validate final configuration
After eight days, I have finally completed all these steps, and am able to validate that everything is working correctly. I did some sample workflows, such as:
Verify that I can launch Windows KVM guest, edit Powerpoint presentation, and print to PDF file.
Verify that I can open email, launching embedded URL links, and copy-and-paste templates from Gnote
Launch GIMP, verify that I can edit graphics, and import the results in a Powerpoint presentation.
Download and play a Webinar replay MP4 file
Fresh Clone of full volume image
Using the Clonezilla that I added to the Grub2 boot menu, I am able to backup my full 500GB drive. At this point, I will keep the RHEL 6.9 for a few weeks as emergency backup, but so far, everything seems to be working just fine.
This took longer than I expected, but am happy with the final result. Red Hat is rock-solid, and the new RHEL 7.4 allows me to run DSX Desktop, Windows 10, and some other applications that were not available on our previous RHEL 6.9 build.
Well, it's Tuesday again, and you know what that means? IBM Announcements!
Everyone is getting ready for next week's "Think 2018" event, so these might get missed under all the excitement.
IBM Spectrum Archive Enterprise Edition V1.2.6
IBM [Spectrum Archive] Enterprise Edition supports Linear Tape File System (LTFS) cartridges as part of a larger IBM Spectrum Scale deployment. Version 1.2.6 provides features to help transition from old technology to new technology, at the library, drive and cartridge level. It also adds support for "Little Endian" mode for IBM Power servers.
Tape library replacement procedure
Tape intermixing in pool for technology upgrade
Support for LTO 8 Media on LTO 8 drives
Support for Power Systems in Little Endian (LE) mode
IBM Copy Services Manager [CSM] was formerly knows as Tivoli Storage Productivity Center for Replication. It manages the copy services like FlashCopy and remote mirroring for DS8000, Spectrum Virtualize family, and Spectrum Accelerate family products. Version 6.2.2 adds some nice features:
Support for scheduled tasks against Copy Services Manager sessions
Support to create DS8000 system diagnostics from the Copy Services Manager GUI and CLI for issue resolution
New SNMP event and email notifications for any detected path failures
Ability to enable embedded Easy Tier heat map transfer to support full Copy Services Manager session configuration, including practice volumes
Next week, I will not be in Las Vegas for Think 2018. If you won't be there either, you might consider watching some of the livestream videos at [www.ibm.com/events/think/watch] starting March 19, 2018.
Many of you have seen the Storage announcements that were made last month on February 20. I gave you all the skinny about the context of the technology shift and some resources to go deeper still in my blog post [IBM Storage Announcements for February 2018].
So, there’s a lot going on in IBM Storage right now. I’m looking forward to the upcoming IBM Systems Technical University in Orlando, Florida, from April 30 to May 4, 2018.
TechU’s are my favorite events to attend. This is a true event for techies! You get hands-on labs, demos, technical sessions, and birds of a feather (BOF) sessions and open technology discussions.
There are over 200 sessions on IBM Storage. I have the honor of sharing the latest in storage technology and strategy. Here are the topics I am scheduled to present:
IBM hybrid cloud storage solutions
Managing risks with data footprint reduction
Information lifecycle management: Why archive is different than backup
The seven tiers of business continuity and disaster recovery
Introduction to IBM Cloud Object Storage System (powered by Cleversafe)
The pendulum swings back: Understanding Converged and Hyperconverged Systems
Reporting and monitoring: How to verify your storage is being used efficiently