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Tony Pearson is a Master Inventor, Senior IT Architect and Event Content Manager for [IBM Systems for IBM Systems Technical University] events. With over 30 years with IBM Systems, Tony is frequent traveler, speaking to clients at events throughout the world.
Lloyd Dean is an IBM Senior Certified Executive IT Architect in Infrastructure Architecture. Lloyd has held numerous senior technical roles at IBM during his 19 plus years at IBM. Lloyd most recently has been leading efforts across the Communication/CSI Market as a senior Storage Solution Architect/CTS covering the Kansas City territory. In prior years Lloyd supported the industry accounts as a Storage Solution architect and prior to that as a Storage Software Solutions specialist during his time in the ATS organization.
Lloyd currently supports North America storage sales teams in his Storage Software Solution Architecture SME role in the Washington Systems Center team. His current focus is with IBM Cloud Private and he will be delivering and supporting sessions at Think2019, and Storage Technical University on the Value of IBM storage in this high value IBM solution a part of the IBM Cloud strategy. Lloyd maintains a Subject Matter Expert status across the IBM Spectrum Storage Software solutions. You can follow Lloyd on Twitter @ldean0558 and LinkedIn Lloyd Dean.
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Well, it's Tuesday again, and you know what that means? IBM Announcements!
(FTC Disclosure: I work for IBM, and have either written code and/or presented the DS8000 storage system and Spectrum Storage products in my professional capacity. This blog post can be considered a "paid celebrity endorsement" for the IBM DS8000 Storage System and Spectrum Storage software.)
IBM DS8880 and DS8880F Storage Systems
For those not up on the DS8000 nomenclature, here's a quick recap:
DS8880 supports a hybrid mix of Flash cards, SSD, 15K, 10K and 7200 rpm drives.
This includes the DS8884 and DS8886. The Flash cards are held in High Performance Flash Enclosures (HPFE) directly attached to the controllers, whereas the SSD and spinning disk are in shelves connected via the Device Adapters.
DS8880F is an all-flash array, with Flash cards only in HPFE. This includes the DS8884F, DS8886F and DS8888F models.
DS8880/F is convenient shorthand to refer to both the hybrid and all-flash models collectively.
Today, IBM announces new 7.68TB flash cards for the High Performance Flash Enclosures of the IBM DS8880/F. These are double the capacity of the 3.84TB cards currently available, doubling the total capacity to 368.6TB per HPFE.
Different DS8880 models support a different number of HPFE. An HPFE is a pair of 2U drawers, holding a total of 48 flash cards. You can purchase flash in groups of 16 cards, with the option to mix and match within the HPFE. For example, you can have 16 cards at the 1.6TB capacity, 16 cards with 3.68TB and 16 cards of the new 7.68TB capacity, all in a single HPFE.
The new 7.68TB support 1 Drive Write Per Day (DWPD). Some people call these "Read-Intensive" drives, but IBM refers to them as "High-Capacity Drives", to differentiate them from the "High Performance Drives" that support 10 DWPD.
In reality, the read performance is similar in both types of Flash cards offered, but the write performance is slightly slower for the High-Capacity drives due in part to additional garbage collection performed in the background. Our studies found that over 90 percent of workloads might find the High-Capacity drives good enough to handle I/O requirements.
IBM Easy Tier was updated to distinguish between High-Performance and High-Capacity flash cards, so that blocks of data that have higher or lower I/O characteristics will be relocated to the appropriate level of storage.
The newest level of IBM Spectrum Storage Suite simplifies procurement by bringing together the latest releases of the following software:
IBM Spectrum Accelerate V11
IBM Spectrum Archive Enterprise Edition V1 (Linux edition)
IBM Spectrum Control Advanced Edition V5
IBM Spectrum Protect Suite V8 (including Spectrum Protect Plus!)
IBM Spectrum Scale Data Management Edition V5
IBM Spectrum Virtualize Software for SAN Volume Controller V8 (including FlashCopy and Remote Mirror, Real-time Compression and Encryption Software)
IBM Spectrum Virtualize Software-only V8
IBM Cloud Object Storage System V3
Instead of buying software products separately, a single license enables administrators to deploy IBM Spectrum Storage Suite software when and where they need it, without having to wait. Simplified capacity pricing can significantly reduce software costs and time spent on license management.
The Spectrum Storage suite also offers a "sandbox" approach for try-and-buy. Since you have access to all the software listed, you can set up a sandbox to experiment with the functionality, without having to pay for the added capacity, until you deploy it to dev/test, quality assurance, or production.
The suite is licensed per Tebibyte [TiB]. For those not familiar with international standards, here is a comparison table:
Always decimal, 10 to the 12th power
Always binary, 2 to the 40th power
The two terms sound similar and represent nearly the same quantity within 10 percent of each other, so it is understandable when people mistakenly use the terms interchangeably.
From farm to fork, IBM Food Trust platform is a collaborative network of growers, processors, wholesalers, distributors, manufacturers, retailers and others enhancing visibility and accountability in each step of the food supply.
Powered by the IBM Blockchain Platform on IBM servers and storage systems, IBM Food Trust directly connects participants through a permissioned, permanent and shared record of food origin details, processing data, shipping details and more.
(This reminds me of a funny story: the man sitting next to me on my flight back from an IBM Systems conference in New Orleans asked me, "You look familiar. Didn't I see you at the conference this week?" I responded "Yes, were you there for the "server" or "storage" side?" He thought about it for a while, and said "I guess the server side". "Too bad", I replied, "I am on the storage side."
It took us a while, but I realized he worked in the food and restaurant industry, and that he was at a completely different conference. It happened to also have both a "server" and "storage" side!)
The IBM Food Trust platform provides new levels of transparency, quicker recalls, better standardized communication and protection of brand value. As an authorized user, you have immediate access to shared, actionable food supply data through integrated IBM Blockchain-powered modules for faster traceability and more confidence in provenance.
Today, IBM announces new services to enable clients to successfully connect to and make use of the IBM Food Trust Platform.
This month, IBM Tucson Development Lab is celebrating 40 year anniversary! IBM has been operating in Arizona for the past 70 years, and of course IBM has been in the storage business for the past 90 years if you consider "punched cards" as storage on paper.
This year also marks the 40 year anniversary of DFHSM, the first product I worked on when I started here back in 1986. DFHSM stands for the Data Facility Hierarchical Storage Manager, which effectively moves data between disk and tape storage.
IBM put up two banners to celebrate! The first was for IBM Enterprise Tape storage. My first question was "What are punched cards doing on a banner for magnetic tape?"
A bit of history will explain that the first tape storage was non-magnetic. Back in 1725, Basile Bouchon developed the control of a loom by punched holes in paper tape. These were used to create intricate patterns in woven cloth.
In the late 1880s, Herman Hollerith, a young technical whiz at the US Census Bureau, had an idea for a machine that could count and sort census results far faster than human clerks. The bureau funded Hollerith’s work, and the [first tabulating machines] helped count the 1890 census, saving the bureau several years’ work and more than US$5 million.
Hollerith left the bureau to form the Tabulating Machine Company, selling his system to other countries’ census offices and then to businesses such as railroads and retailers. Hollerith had little competition, and his machines and punched cards became the standard for the industry.
In 1911, financier Charles Flint bought the Tabulating Machine Company and merged it with the International Time Recording Company and the Computing Scale Company of America to form the Computing-Tabulating-Recording Company, or C-T-R, later renamed IBM in 1924.
In 1928, IBM introduced a new version of the punched card with rectangular holes and 80 columns. The 80-character standard was used from everything from the first computer screens, to the first file layouts
It wasn't until 1952 that the first magnetic tape system hit the scene: the IBM model 726. Tape reels were the size of pizzas, and were prominently shown spinning around in various Hollywood movies to represent computers "working" on a problem.
In my now infamous 2007 post [Hu Yoshida should know better], I explain the 3850 Mass Storage System (MSS). In 1974, The IBM 3850 MSS was one of the first hybrid disk-and-tape storage systems. It was an automated tape library pretending to be disk, with tape cartridges stored in hexagonal honeycomb shelves. The tape cartridges were cylindrical, about the size of a can of soda. The spool of 770 feet of tape media held just 5MB of data.
A full IBM 3850 MSS configuration with thousands of tape cartridges was used for the 1980 US Census, holding 102 GB database, representing the data collected about 226.5 million U.S. residents. That's about 450 bytes per resident, enough to fill six punched cards.
The second banner was for IBM Enterprise Disk storage.
IBM introduced the IT industry's first commercial disk system in 1956. While the banner says "RAMAC 305", that is the name of the server. The storage system was called the [350 Disk Storage Unit]. It was the size of two refrigerators and held 5 MB of data.
In the early 1990s, I visited a client in Germany that had a 3990 controller with two 3390 disk systems attached, holding 90 GB of data in the size of three refrigerators. They had five storage administrators to manage this configuration.
A few years later at another client, they had roughly 7000 GB (7 TB) of data on their mainframe, and an equal amount across all of their Windows and UNIX servers. I met with their storage administrators, there were two for the mainframe, and about three dozen for the distributed servers.
I had two questions for them. First, why were there two storage admins for the mainframe? The mature policy-based automation on the platform would mean only one person required. Their response: when one of us is on a two-week vacation, the other can handle the workload.
My second question was for the remaining storage admins: When was the last time any of you took a two-week vacation? None had, of course, since the storage administration tools back then meant they were all working overtime on various tedious and manual tasks!
In February 2006, the folks in IBM Germany asked the IBM Storage Marketing team what events or celebration were planned for September 13, 2016, the 50 year anniversary of disk. My marketing colleagues responded, "that is only seven months away, you didn't give us enough lead time notice to plan!"
Demonstrate that IBM technologies in areas like Artificial Intelligence (AI), Blockchain, Cloud, and the Internet of Things (IoT) are relevant in solving the world's biggest challenges
Encourage developers to contribute their time and talent to open source projects that benefit the greater good
Generate fresh ideas on how to tackle age-old problems that plague society
Each year will have a different focus. This year, the focus is in preventing, responding to and recovering from natural disasters, especially important with 2017 ranked as one of the worst years on record for catastrophic events, including fires, floods, earthquakes and storms.
Call for Code invites developers to create new applications to help communities and people better prepare for natural disasters. For example, developers may create an app that uses weather data and supply chain information to alert pharmacies to increase supplies of medicine, bottled water and other items based on predicted weather-related disruption. Or it could be an app that predicts when and where the disaster will be most severe, so emergency crews can be dispatched ahead of time in proper numbers to treat those in need.
Can't think of any ideas for an app? Here are some TED videos that might inspire you:
IBM's $30 million USD investment over five years will fund access to developer tools, technologies, free code and training with experts. To raise awareness and interest in Call for Code, IBM is coordinating interactive educational events, hackathons and community support for developers around the world in more than 50 cities, including Amsterdam, Bengaluru, Berlin, Delhi, Dubai, London, New York, San Francisco, Sao Paulo and Tel Aviv.
(My earliest memory of using a contest for fresh ideas was back in 1975, after the city of Tucson purchased the Tucson Rapid Transit Company. Rather than hiring an expensive marketing agency to run focus groups or surveys, the City of Tucson published in the local newspaper a "Name that Bus" contest. The winning entry was [Sun Tran], submitted by 25-year-old college student [Benjamin Rios]. He won the grand prize: $150 portable television!)
The winning Call for Cloud team will receive a financial prize and access to long-term support to help move their idea from prototype to real-world application.
Developers can register today at the [Callforcode.org] website. Projects can be submitted by individuals – or teams of up to five people – between June 18, 2018 and August 31, 2018. If you would like me on your team, as an honorary member, technical adviser or mentor, please let me know!
Thirty semi-finalists will be selected in September. A prominent jury, including some of the most iconic technologists in the world, will choose the winning solution from three finalists. The winner will be announced in October 2018 during a live-streamed concert and award event coordinated by David Clark Cause.
Additional details, a full schedule of in-person and virtual events, and training and enablement for Call for Code are available at [www.developer.ibm.com/callforcode] website.
Well, it's Tuesday again, and you know what that means? IBM Announcements! After much needed vacation in Cancun Mexico, Lake Havasu and Sedona, Arizona, I am glad to be back at work! This week, I was visiting clients in the Los Angeles area.
IBM FlashSystem 9100
IBM's latest addition to its lineup of All-Flash Arrays is the FlashSystem 9100.
There are actually two models: the 9110 (model AF7) has 8-core processors, and the 9150 (model AF8) has 14-core processors. Both models are 2U 19-inch shelves with 24 drives on the front, with two control node canisters in the back. The term "FlashSystem 9100" applies to both 9110 and 9150 models.
Each canister has two processors, 64GB to 768GB of cache memory, an on-board 1GbE port for management, four 10GbE ports for Ethernet, and three HIC slots for I/O adapters, which can be any mix of quad-port FC cards, dual-port 25GbE Ethernet cards, or 12Gb SAS cards for expansion drawers.
For drives, you can have any mix of FlashCore Modules (FCM) or Industry-Standard NVMe (ISN) drives. The FlashCore modules are similar to the FlashCore boards in the FlashSystem 900, including Variable-Striped RAID, advanced flash management, heat binning, health separation, hardware-embedded encryption and compression.
These FCM are packaged into standard NVMe SSD form-factor, with 4.8, 9.6 and 19.2 TB capacities. The Industry-Standard NVMe drives come in 1.92, 3.84, 7.68 and 15.36 TB capacities to offer additional price/capacity options to clients.
A fully maxed out twenty-four FCM module system at 19.2TB represents approximately 400TB usable capacity, combined with 5:1 data footprint reduction with deduplication and compression, can provide up to an effective 2PB in as little as 2U of rack space!
The NVMe and FlashCore technology truly accelerates performance. Latencies as low as 100 microseconds are 2.5x lower than competitive offerings. Each control enclosure can deliver up to 2.5 Million IOPS, and a four-way cluster up to 10 million IOPS in just 8U!
You can mix and match FCM and ISN drives in the same controller, but FCM and ISN have to be in their own separate RAID groups. To use Distributed RAID6 (DRAID6), you need at least six drives for this.
IBM has made a "Statement of Direction" that these models are NVMe-OF hardware ready and will support both FC-NVMe and NVMe-OF over Ethernet by year end. Part of this involves changes to server-side software, including various operating systems, device drivers, and multi-pathing drivers.
The FlashSystem 9100 support up to 40U of expansion drawers, over 12Gb SAS, in two sizes. A 2U drawer for 24 SFF drives, and 5U for 92 SFF/LFF drives. Each FlashSystem 9100 can support up to 760 drives. These expansion drawers are not NVMe, so the Solid-State Drives (SSD) inside them use standard SAS. Consider using Easy Tier sub-LUN automated tiering to move fast data up to the FCM/ISN drives, and slower data to these SAS-based SSD.
Even though it doesn't have a "V" in its name, the FlashSystem 9100 runs Spectrum Virtualize, so you can also virtualize other storage behind it. Over 400 different storage devices from leading storage vendors are supported. The FlashSystem 9100 can be virtualized behind SVC or FlashSystem V9000.
FlashSystem 9100 can also cluster with Gen2 and Gen2+ models of the Storwize V7000 and V7000F controllers. You can connect up to four of any of these into a single cluster, supporting up to 3,040 drives.
The FlashSystem 9100 offers all of the features you have come to love from the rest of the Spectrum Virtualize products: data deduplication and compression, encryption, high-availability guarantee, data footprint reduction guarantee, hardware refresh option after three years, storage utility pricing, and IBM Storage Insights support.
IBM has no plans to withdraw either the existing FlashSystem V9000 nor the Storwize V7000/F models anytime soon. They continue to be available for purchase.
To complement the hardware features of the FlashSystem 9100, IBM has come up with three Multi-cloud solutions.
Multi-Cloud Solution for Data Reuse, Protection and Efficiency - this combines Spectrum CDM with Spectrum Protect Plus to take snapshots of volumes on FlashSystem 9100. These snapshots are not just for data protection, but can also be "reused" for other purposes, like dev/test, DevOPS, or analytics.
Multi-Cloud Solution for Business Continuity and Data Reuse - combines Spectrum CDM with Spectrum Virtualize in the Public Cloud, allowing you to take snapshots to the IBM Cloud for disaster recovery. The snapshots can be used in the cloud, or copied back to the same or different data center.
Multi-Cloud Solution for Private Cloud Flexibility and Data Protection - combines IBM Cloud Private, Spectrum CDM, and Spectrum Connect to support client's efforts to re-factor their applications with Docker containers and Kubernetes. IBM FlashSystem 9100 can be used as persistent storage for containerized applications.
This release applies only to the Storwize V7000/F and the new FlashSystem 9100 models, and provides support for iSCSI Extensions over RDMA (iSER) on the 25GbE NIC cards. If you want to cluster existing Storwize V7000/F models to the new FlashSystem 9100 models, you need all of them to be at least v8.2.0 release.
Lower latencies and higher bandwidth requirements can be addressed by using RDMA to implement iSCSI. iSER is a new interconnect protocol that allows iSCSI to run on top of RDMA technology. RDMA can be implemented by using RoCE (RDMA over Converged Ethernet) or iWARP (Internet Wide-area RDMA Protocol). iSER enables iSCSI to run on top of it regardless of which of these technologies is used underneath.
The "Storage Utility" pricing available for many of IBM's other products has been extended to include the IBM FlashSystem 9100 and IBM Cloud Object Storage.
Basically, this is a variable-priced usage-based lease. Let's say you lease 500TB of capacity, but only use 150TB, the first few months you only pay for 150TB, a bit later, you use more, and now start paying more monthly, say 200TB. The price can go up or down. At the end of the lease, typically 36 or 60 months, you have a choice: give the equipment back, or pay the difference.
Several readers have asked me what is the difference between Hybrid Cloud and Multi-Cloud. The two phrases are used in various contexts, not just by IBM, but also by our competitors, as well as the press and industry analysts.
A hybrid cloud attempts to develop a single platform to run a specific Cloud workload. This single platform combines two or more of the following resources:
on-premise private Cloud
off-premise private Cloud
off-premise public Cloud
A Hybrid Cloud is like the United Nations peacekeeping force. A single force, with a single mission, representing the combined resources of many countries.
A Hybrid Cloud is a deployment model that might offer advantages over just using a Private Cloud, or just using a Public Cloud.
A practical example is Tennis Australia. For three weeks every January, they run the Australian Open, a tennis tournament, with over 4,000 employees, and millions of views to their website each day. For the rest of the year, they have only about 300 employees, and manage quite well to run smaller tournaments for high-school and college students, as well as plan for next year's event.
In this case, a Hybrid Cloud that combines perhaps two racks of an on-premise private Cloud, combined with the incredible power of IBM Cloud, gives them the variability and agility needed to run smoothly without wasting CAPEX on equipment they don't need.
Many "Hybrid Cloud" products focus on being the "glue" that combines two different resources together. This can be at the management layer, the data layer, the application layer, or the infrastructure layer.
In contrast, a Multi-Cloud represents a deployment strategy for different Cloud workloads. One workload might be better served on a Private Cloud, another workload might be better served on a Public Cloud, and a third workload, as we saw above, might benefit from the combined resources of a Hybrid Cloud.
In the past, people felt that all Cloud Service Providers were the same. Just as people buy gasoline from which ever gas station offers the lowest prices, many just chose their Cloud Service Provider based entirely on the costs involved. Loyalty can change the minute new price tables are published.
But today, Cloud Service Providers have made an effort to provide differentiation. For example, your Multi-Cloud might have three Hybrid Clouds. One cloud platform combines your on-premise Private Cloud with IBM Cloud, another combines your on-premise Private Cloud with Amazon Web Services, and a third combines your on-premise Cloud with Microsoft Azure.
In this case, a Multi-Cloud is like the various armed forces. You might deploy the Army for one mission, the Navy for another, and the Air Force or Marines for a third.
Many "Multi-Cloud" products focus on being versatile and multi-purpose. For example, the same FlashSystem 9100 that you deploy in your "Analytics Cloud" platform could also be useful for your "Docker Container Cloud" platform, or your "DevOPS Cloud" platform. IBM's various Multi-Cloud Solutions provide the additional software and services needed to complement the FlashSystem 9100 to pull this off.
Deciding to use a Multi-Cloud strategy is mostly a business decision. Deploying a Hybrid Cloud as one of your Multi-Cloud platforms could be a combination of business and technical decision.
Mark your calendars! IBM plans to have back-to-back Technical University events in Hollywood, Florida:
October 8-12, will focus on IBM Z mainframe, and a subset of IBM Storage that offer synergy for IBM Z, such as DS8880 storage system, and the TS7760 Virtual Tape Engine.
October 15-19, will focus on IBM Power Systems and the entire IBM Storage portfolio.
When I first learned of this, I was not aware there was a city called Hollywood in Florida. The Hollywood in Florida is situated between Fort Lauderdale and Miami, so you can fly into either of those two airports to get to the conference.
(Did you know? The Hollywood most people know in California is no longer its own city, but rather incorporated as a neighborhood district into Los Angeles back in 1910. There are actually thirty different places called "Hollywood" around the world, two dozen in the United States, with the rest scattered in Ireland, Turkey, Russia, Singapore and the Philippines. Not all of these are formally "cities", but in some cases neighborhoods, districts, unincorporated areas, or other populated places. The Hollywood in Maryland claims to be the first, established in 1867!)
I only plan to attend the second week only, October 15-19. Here are some highlights:
In the past, IBM had keynote sessions for each brand, for example, one focused on IBM Power systems, and another on IBM Storage. However, these were scheduled during the same time slot, forcing some people to make a tough choice.
To solve this, the two keynote sessions will be staggered, so attendees can attend both!
The storage keynote will take on a new format, with a panel of experts. I have been invited as one of the experts to participate! If there is a particular topic you want to hear about on the panel, please enter your comments below.
As with most conferences, there is a "Call for Papers" requesting speakers submit the topics they can present, and then conference coordinators accept, adjust or reject them in building the final agenda.
Here are the topics I submitted:
Build your personal brand! Social Media tips from an experienced blogger
The Pendulum Swings Back - Understanding Converged and Hyperconverged Systems
IBM Hybrid and Multi-Cloud storage solutions
IBM Cloud Object Storage (powered by Cleversafe)
Managing Risks with Data Footprint Reduction
Information Lifecycle Management: Why Archive is different than Backup
The Seven Tiers of Business Continuity and Disaster Recovery
If you attended the IBM Technical Universtiy in Orlando last May, the conference in October will have six months' worth of new announcements and products to cover.
I also plan to be at the IBM Technical University events in Johannesburg, South Africa (September 11-13), and Rome, Italy (October 22-26). If you plan to be at any of these events, let me know! If not, you can follow along with Twitter hashtag: #IBMtechU
I travel a lot. In the first six months of this year, I was on the road 17 of the 26 weeks. This week, I am visiting clients in beautiful Minneapolis, MN.
Several readers have asked me what mobile phone or web apps I find the most useful, and here are my top three. For each, I will explain how I use them, and why they are useful.
(FTC Disclosure: I work for IBM, and have no financial connections to any of the companies mentioned below, and have not been compensated in any way to mention them on this post. IBM has selected Concur as its travel platform, which runs TripIt mentioned below. This blog post can be considered a "paid celebrity endorsement" for each of the three sites below.)
[Rome2Rio] is one I use long before I plan my trip, and works both on my mobile phone as well as web application. Many people use apps like "Google Maps" for driving directions from point A to point B. But Rome2Rio handles airlines, trains and other alternative modes of transportation. It also provides estimated prices for each mode of transportation.
Landing in Gatwick Airport, I used Rome2Rio to figure out the most cost-effective way to get to my hotel on Southampton Row. A taxi would have been $160-200, Ride-share like Uber or Lyft $75-95, and train $17-28. I chose the train and saved a lot of money!
Rome2Rio is a great app, both for advanced planning, as well as dealing with situations in the moment. I have it bookmarked on my browser, and the app installed on my phone.
Long before IBM signed on Concur as its travel expense and trip planning tool, I was using [TripIt]. It automatically enters all of my airfare, hotel and car rental reservations into a single chronological itinerary, but then lets me add everything in between, such as meetings, dinner restaurant plans, and other activities.
While I am planning my travels, TripIt ensures I have all the connections I need. If I land at this airport, do I have a rental car or other transportation to the hotel? This forces me to get in advance all of the times and locations of every client dinner, briefing, or other meeting, so that I can plan how to get from point A, to B, to C, accordingly.
A few days before my trip, I can print out my TripIt itinerary, to PDF format file to send to my family and co-workers.
While traveling, I have the TripIt app to have all the information I need close at hand, including hotel address locations, or confirmation numbers once I arrive to the hotel.
[FlightStats] will show you the status of all flights, on any airline. Just enter the 2-character airline code, like AA for American Airlines, or DL for Delta Airlines, then the flight number. Here are the different ways I find this useful:
When I land at an airport connection, but have not yet left the plane, I can use FlightStats to determine which gate I have arrived at, and which gate I need for my next flight. This will give me a good sense of how much time I have, do I need to hurry, can I stop for a snack, and so on.
FlightStats seems to be more up-to-date than computer screens at the airport. I have learned of flight delays from FlightStats sooner than I have from the computer screens or gate agents.
If my flight is canceled or delayed, FlightStats also can find flights from point A to B using real-time information.
Are there any apps or web sites you recommend? Please comment below!
Well, it's Tuesday again, and you know what that means? IBM Announcements!
(This week I am in Pennsylvania and New York speaking to clients. The weather this week has not been cooperative!)
Spectrum Protect Plus 10.1.2
Just in time for the upcoming VMworld conference, IBM announces the following features added to Spectrum Protect Plus, a snapshot-based backup software for VMware, Hyper-V and databases.
Data-at-Rest Encryption for local backups stored in the vSnap repository
IBM Db2 support with point-in-time recovery
VMware vSphere 6.7 support
Alerting for backup and restore jobs and storage thresholds limits
Drill-down capabilities for dashboard widgets
Spectrum Protect 8.1.6
IBM also continues to enhance its traditional file-based backup product. Here are some of the features:
Tier data by backup state for container pools. When you have multiple backup versions, the most recent version is called the "active", the older versions are called "inactive" versions. Rarely do you recover inactive versions, so this feature allows them to be migrated off to object or cloud storage.
Ransomware detection for Virtual Environment workloads. This is an enhancement of the "Ransomware detection" introduced earlier this year, but for VMware and Hyper-V images.
IBM DS8882F All-Flash Array
When IBM announced the DS8880, it shocked folks that it changed them from the previous 33-inch wide, to a standard 19-inch width. The IBM Z team followed up with 19-inch wide models of its mainframe servers.
Now, IBM can bring these together. There are two flavors of the new DS8882F:
The "Rackless" model is 17U in height with the optional keyboard/monitor, and can be put into existing 19-inch racks. These can be used with VMware, Linux, Windows, AIX and z/OS.
The "Flex Frame" model, which is 16U, allowing it to fit nicely inside a single-rack IBM Z Z14 ZR1 model, or LinuxOne RockHopper II model. It is 16U instead of 17U because it shares the existing 1U-high keyboard/monitor unit.
Like the DS8888F, DS8886F, and DS8884F models, the new DS8882F uses the High Performance Flash Enclosure (HPFE) gen2 drawers, supporting either high-performance/high-endurance drives (400GB to 3.2TB each), or high-capacity/standard-endurance drives (3.8TB to 15.3 TB each).
The R8.5 release of firmware that accompanies this announcement also supports data-in-flight encryption for Transparent Cloud Tiering. It also supports a new feature called "Safeguarded Copies", up to 500 copies to protect against hackers and ransomware.
IBM Spectrum Access blueprints have been extended to support IBM Z and LinuxOne. These blueprints show how to run IBM Cloud Private with Spectrum Connect with IBM block storage, including IBM DS8880/F, SVC, Storwize and FlashSystem models.
IBM Storage Solutions for Virtual Desktop Infrastructures (VDI)
IBM offers a new blueprint to configure Virtual Desktops with its newly announced IBM FlashSystem 9100 device. The low latency/high IOPS capability of the FlashSystem 9100 is perfect for the type of "boot storms" that are often encountered with VDI deployments.
IBM Spectrum Scale 5.0.2 and Elastic Storage Server
At recent IBM Technical University, I joked that the IBM Elastic Storage Server is only "part of a complete breakfast" because it only supported the NSD POSIX interface. To make it useful in most situations, you needed to buy additional servers outside of the ESS to run Spectrum Scale protocol nodes to provide industry-standard file and object protocols.
Today, IBM announced that you can order a new "IBM Elastic Storage Server Data Server" (5148-22L) which is a POWER server with the Spectrum Scale software pre-installed for protocol node support. It has [similar specifications] to the IBM Elastic Storage Server Management Server (5148-21L).
If you prefer to run Spectrum Scale in the cloud, you can "Bring your own license" (BYOL) to Amazon Web Services.
Well, it's Tuesday again, and you know what that means? IBM Announcements! This week I am in San Francisco, California speaking to clients. A bit colder than Tucson, Arizona!
(FTC Disclosure: I work for IBM. Special thanks to Mark Larson (IBM SAN team), and both Craig Nelson and Peter Schmelter from Broadcom, for their assistance with this post. I have no personal financial interest in Broadcom. This blog post can be considered a "paid celebrity endorsement" of the IBM products mentioned below.)
Spectrum Control v5.3
Back in 2003, I was the chief architect of Spectrum Control v1, formerly called TotalStorage Productivity Center, and later Tivoli Storage Productivity Center. IBM Spectrum Control is part of the IBM Spectrum Storage Suite.
There are two editions: Standard Edition and Advanced Edition.
(What happened to the other editions? The "Base Edition" is now called IBM Spectrum Connect. The "Spectrum Control Storage Insights" service in the IBM Cloud is now just called IBM Storage Insights and Storage Insights Pro.)
The Standard Edition v5.3 offers the following:
Capacity visualization and management, Performance troubleshooting, Health and performance alerting, Application modeling, and support for VMware data sources
Create, save, and send reports directly in the web UI. The reports can be run now, or scheduled to be run later. When a report is run, it can be sent by email or exported and saved in different file types.
Support IBM FlashSystem 900 AE3 models using compression, and the new IBM FlashSystem 9100
Improved automation of counting the licenses for enclosure-based storage devices
The latest IBM Copy Services Manager (CSM) v6.2 for managing remote mirroring, replacing the previous IBM Tivoli Storage Productivity Center for Replication.
The Advanced Edition v5.3 provides all of the above, as well as the following.
Tiered storage optimization with intelligent analytics
Service catalog with policy-based provisioning
Self-service provisioning with restricted use logins
Analysis of reclaimable space
Showback and Chargeback reports
Application-based snapshot management using IBM Spectrum Protect Snapshot (formerly known as IBM FlashCopy Manager, FCM)
Clients with v5.2.x version of IBM Spectrum Control can upgrade to this new release.
Clients with IBM Spectrum Virtualize-based appliances can bundle Spectrum Control v5.3 with the latest Spectrum Virtualize v8 code. This bundle is referred to as "IBM Virtual Storage Center", or VSC for short. VSC supports SAN Volume Controller, FlashSystem 9100 and V9000, Storwize V7000 and V5000 models.
IBM's announcement of NVMe-capable FlashSystem 9100 has caused many to re-evaluate their SAN infrastructure. All IBM b-type Gen5 and Gen6 switches and directors are NVMe-ready!
(Last year, Broadcom completed its acquisition of Brocade. I am thankful both start with the letter "B", so we won't have to rename our B-type switches to another letter!)
There are two new products in this announcement. The SAN 128B-6 is a Gen6 switch in a 2U container. The other is a 64-port Blade that fits into existing Gen6 Directors, like the 256B-6 or 512B-6 models.
But the 128B-6 doesn't have 128 standard ports ! It actually has 96 standard ports, plus eight "Q-Flex" ports (that can be used to create a total of 128 ports) . Likewise, the 64-port blades have 16 Q-Flex ports (that can be used to create 64 ports).
What is going on? The Q-Flex ports can actually run four channels in different colors of light over the same fiber optic cable, reducing the wiring mess. These Q-Flex can be used for host or device traffic, but are often used as "Inter-Switch Links" or ISL for short.
All of the standard and Q-Flex ports are 32Gbps, but can are capable of autosensing 4, 8, 16, and 32 Gbps port speedsm depending on the SFPs used , for interoperability with existing servers and storage devices. In the case of Q-Flex, all four colors must be run at the same speed, so a Q-Flex represents either 4x32, 4x16, 4x8 or 4x4 Gbps links. You cannot mix different speeds on a single Q-Flex.
In addition, the 64-port blade also supports 10 GbE, 25 GbE, and 40 GbE using the appropriate QSFP transceivers.
Last week, September 11-13, I was in Johannesburg for the IBM Technical University! The event was held at the Hyatt Regency in the Rosebank section of town. This event was focused on IBM Systems, including storage, Power systems, and IBM Z mainframe servers. Here is my recap for the first day:
Opening Keynote Session
The conference was opened by a warm welcome from Ronnie Moodley, IBM Executive for Systems Hardware. He explained that we live in a VUCA world. For those who have not heard this term before, it is a four-letter acronym that conflates four different business challenges: [Volatility, Uncertainty, Complexity, and Ambiguity].
Ronnie also mentioned the shifts in marketing, from the "four P's" to the "four E's":
Clients are no longer evaluating individual products, but also services that come with it, the context on how it is used, the identify of users, and other characteristics that provide a complete experience.
With so many free, open-source alternatives, the question is not comparing the prices of competing products, but what do you exchange for choosing one option for another. Often referred to as the total cost of ownership (TCO) or "opportunity cost" in economic terms.
The Internet and cloud technologies now allow people to buy and use products practically anywhere. Having a bricks-and-mortal location on a busy street corner may no longer be a competitive advantage.
Old marketing methods relied on uni-directional promotion from corporate marketing teams. Today, social media, blogs, and word-of-mouth evangelism are providing greater influences on purchase decision.
The second segment was "The World is our Lab", by Kugendran Naidoo, IBM Research South Africa. Unlike some companies that consolidate all of their research to one location, IBM does research across the globe, with two locations in Africa (Nairobi, Kenya and here in Johannesburg, South Africa).
Dr. Naidoo explained that often research leads us into areas we weren't expecting. For example, an algorithm developed to detect black holes in space failed, but it turned out to be useful for detecting Wi-Fi hot spots.
This begins back in 1974, when Stephen Hawking theorized that under certain circumstances, small black holes might "evaporate" — and simultaneously emit radio signals. These hypothesized black holes were about the mass of Mount Everest, and smaller than an atom. Soon after, the physicist and engineer John O'Sullivan tried to find these signals.
If these small black holes were evaporating, they would emit radio signals as they vanished. But because of their great distance from us, these signals would be hard to identify because they would be tiny by the time they arrived, as well being buried in a background of louder 'noise'. Furthermore, this tiny signal would be 'smeared' (turned from a sharp spike into a rounded shape). So he and his colleagues came up with a wonderful mathematical tool to detect these tiny, smeared signals.
As it turned out, they never did find these small black holes.
In 1992, John O'Sullivan was at Commonwealth Scientific and Industrial Research Organization (CSIRO) in Australia, trying to develop computer networks that communicated without wires.
But there was a big problem. The signals he wanted to detect were tiny, smeared and buried in a background of louder 'noise'. Just like the black hole signals.
By a wonderful coincidence, his black hole mathematics turned out to be the key to Wi-Fi. CSIRO took out patents in Australia in 1992, and in the US in 1996. By 2000, they had some working chips.
Improve your NAS environment in One Day! Introducing IBM Spectrum NAS
IBM has been in the NAS storage business for decades. IBM Spectrum NAS is our most recent software defined storage. This session gave an overview on how Spectrum NAS is designed. This software can be deployed on as few as four nodes in less than an hour, leaving you the rest of the day to migrate your data from other NAS solutions.
IBM Spectrum NAS fills the gap between a single file server and expensive dual-controller models available commercially. A single file server, running perhaps Windows Storage Server or Linux with NFS and Samba, represents a single point of failure (SPOF). Lose the one server, and your department or team loses access to all of those shared files!
At the other extreme, commercial dual-controller NAS devices, such as those from NetApp or DellEMC, are loaded with advanced features and application-specific capabilities. Some people take advantage of these, others don't.
IBM Spectrum NAS is software defined storage that runs on four or more nodes, is highly available, and provides many of the advanced features offered by commercial dual-controller models at roughly half the total cost of ownership.
Dip your TOE in our Pool! iSER and Data Reduction with IBM Spectrum Virtualize
All of the presenters at this conference were asked to come up with fun and quirky titles for their sessions. The title is a bit of wordplay.
When IBM launched its SAN Volume Controller in 2003, I was one of the "Technical Evangelists" that traveled around the world to explain how it works. Today, 15 years later, I am still talking about how great this technology is.
Ethernet network interface cards that have co-processors to offload some of the TCP/IP processing are called TCP-Offload-Engines, or "TOE" cards.
IBM recently announced two new flavors of 25GbE cards, one that supports RDMA over Converged Ethernet (RoCE), and another that supports Internet Wide Area RDMA protocol (iWARP).
To implement data deduplication, the Spectrum Virtualize team refactored the code that handled pools of managed space. The original pools are now referred to as "Legacy Storage Pools", and the new pools are referred to as "Data Reduction Pools".
Fahima Zair, Tony Pearson, and Maria Lancaster
After the sessions, we had a nice evening reception to celebrate the General Availability of the IBM FlashSystem 9100. At events like these, many attendees are local and commute to the event, so I was happy to see many stuck around to have conversations with the experts.
I was able to reconnect with many of my colleagues, including Fahima Zair in charge of our VersaStack relationship with Cisco, and Maria Lancaster from our Storage Marketing team.