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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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The study surveyed 5,676 leaders from various industries, education, and government agencies responsible for workforce development and labor/workforce policy. This was a truly global survey, with respondents from North and South America, the Nordics, Europe, Africa, Middle East and Asia.
A gloomy picture for the future
The survey paints a gloomy picture for the future. The majority of industry executives struggle to keep their workforce skills current, in light of rapidly changing technological advancements.
Only 55 percent of the respondents felt the current education system, from grade school up to university, were adequate to ensure lifelong learning and skills development. Most blamed inadequate investment from private industry in addressing these issues.
Any problem can be solved if (a) everyone agrees what the problem is, and (b) everyone feels it is high enough priority to solve. The study found there was a disparity of what the problem is, what the priorities are, and who should solve it.
In the book Class Counts: Education, Inequality, and the Shrinking Middle Class, the author Allan Ornstein argues ".. the debate centers on whether the government should take a backseat or manage the economy, whether a free market should prevail or whether we should redefine or tinker with market forces..."
Which workplace skills are in short supply?
Can we at least agree on which workplace skills are in short supply?
Not surprisingly, Industry leaders ranked the top three skills required:
Technical core capabilities for Science, Technology Engineering and Math [STEM]
Basic computer and software/application skills
Fundamental core capabilities around reading, writing and arithmetic (often called [the three Rs])
These are all "hard skills", referring to the knowledge, skills and competencies to perform specific tasks. Nearly 75 percent of corporate training budgets are focused on hard skills.
Government leaders, on the other hand, especially those that are responsible for labor/workforce policy, ranked the top three skills:
Ability to communicate effectively in a business context
Willingness to be flexible, agile and adaptable to change
Ability to work effectively in team environments
These would all be classified as "soft skills", referring to the people skills, social skills, communication and emotional intelligence to effectively navigate the environment and work well with others.
In fact, these government leaders felt that STEM, computer skills and "the three Rs" ranked the lowest requirements in their priority.
"Unless managers have forgotten everything they learned in Econ 101, they should recognize that one way to fill a vacancy is to offer qualified job seekers a compelling reason to take the job. Higher pay, better benefits, and more accommodating work hours are usually good reasons for job applicants to prefer one employment offer over another."
"... the long-hours pandemic is a symptom of the tech and design sectors' badge-of-honor-martyr-complex. ... part of the reason that women can't have it all is that American business has grown this time-macho culture, a relentless competition to work harder, stay later, pull more all-nighters, ... the classic 40-hour work week have trained us to measure our labor by the number of hours we log,... However, this mindset is dead wrong when applied to today's professionals. The value ... isn't the time they spend, but the value they create through their knowledge."
IT jobs require creativity and focus. In a feature article titled [Why you should work 4 hours a day, according to science], Alex Soojung-Kim Pang, author of Rest: Why You Get More Done When You Work Less, looks at the work habits of highly accomplished creative people through history and finds that they all shared a passion for their work, a terrific ambition to succeed, and an almost superhuman capacity to focus.
Yet when you look closely at their daily lives, they only spent a few hours a day doing what we would recognize as their most important work. The rest of the time, they were hiking mountains, taking naps, going on walks with friends, or just sitting and thinking.
Encouraging more students to develop the skills early
While we all agree that employers should raise salaries, offer better benefits, and fix their morally-corrupt culture of working too many hours, that only addresses part of the problem, the demand half of the equation. We also need to get kids to learn the hard and soft skills needed at an early age.
Do students have what it takes to work in the IT industry? John Rampton lists the [15 Characteristics of a Good Programmer]. Most are soft skills, with my favorites being: Laziness, Impatience and Hubris.
In his book Why Good People Can't Get Jobs: The Skills Gap and What Companies Can Do About It, Peter Cappelli advises corporations to take a more proactive role:
"... a huge part of the so-called skills gap actually springs from weak employer efforts to promote internal training for either current employees or future hires ... It makes no sense for the employers, as consumers of skills, to remain an arm's-length distance from the schools that produce those skills..."
The major stakeholders, from industry to education to government, should partner together. For example, the Chicago Public Schools (CPS) system will be the first in the United States to [require all students to take computer science] in high school, starting with the class graduating in 2020. Grants and training are being provided by IT industry giants like Google and Microsoft.
IBM is also doing its part with [a new education paradigm], called Pathways in Technology Early College High Schools [P-TECH]. Normal high school is typically four years (grades 9 to 12), but P-TECH is a system of innovative public schools spanning grades 9 to 14 that bring together the best elements of high school, college, and career. The additional two years (grades 13 and 14) of community college can help teach the soft and hard skills needed for particular jobs in IT.
After the six years, students graduate with a no-cost associates degree in applied science, engineering, computers and related disciplines, along with the skills and knowledge they need to continue their studies or step easily into well paying, high potential jobs in the IT arena for multiple industries.
The paradigm has grown from one school in 2011 to 60 schools by September 2016, with over 300 large and small companies affiliated with P-TECH schools serving thousands of students.
So the future may not be as gloomy as predicted. Problems can be addressed if everyone works together to solve them. In the mean time, I will be taking the rest of the year off for long-overdue vacation. Perhaps I will go hike mountains and take naps, as Alex suggests above.
One of the differences between IBM and the other storage vendors is that IBM is also in the business of middleware, application-aware backup software, and advanced copy services. This allows IBM to put togethersolutions that work to address specific challenges for our clients.
IBM has written a whitepaper on a cleverVSS Snapshot Backup for Exchange using IBM Tivoli Storage Manager and the point-in-time copy capabilities of IBM System Storage disk systems.
A problem in the past was that each vendor's point-in-time copy method had its own unique proprietary interface.Microsoft Developed Volume Shadow Copy Services (VSS) as a common interface front-end to resolve this concern.IBM Tivoli Storage Manager for Mail can invoke standard VSS interfaces, and this in turn can invoke FlashCopyon the IBM System Storage SAN Volume Controller, DS8000 series, or DS6000 series disk system.
You might be thinking: Wouldn't it have been less effort to just have TSM for Mail invoke IBM proprietary interfaces,rather than having to put full VSS support into TSM for mail, and then full VSS support into IBM's various disksystems? Perhaps, but IBM doesn't decide to do things because it is the cheapest way, we focus on what is theright way, and in this case, customers now have more choices, then can use TSM for Mail with IBM or non-IBM disksystems that support the VSS interface, and IBM disk systems can be employed into other uses for VSS snapshot.
Of course, we would like our clients to consider both TSM and IBM System Storage disk systems for a combined solution,not because they are required to make the solution work, but because both are best-of-breed, and whitepapers likethis show how they can provide synergy working together.
There's some good discussion in the comments section over at Robin Harris' StorageMojo blog for hispost [Building a 1.8 Exabyte Data Center].To summarize, a student is working on a research archive and asked Robin Harris for his opinion. The archive will consist of 20-40 million files averaging 90 GB in size each, for a total of 1800 PB or 1.8 EB. By comparison, anIBM DS8300 with five frames tops out at 512TB, so it would take nearly 3600 of these to hold 1.8 EB. While this might seem like a ridiculous amount of data, I think the discussion is valid as our world is certainly headed in that direction.
IBM works with a lot of research firms, and the solution is to put most of this data on tape, with just enough disk for specific analysis. Robin mentions a configurion with Sun Fire 4540 disk systems (aka Thumper). Despite Sun Microsystems' recent [$1.7 Billion dollar quarterly loss], I think even the experts at Sun would recommend a blended disk-and-tape solution for this situation.
Take for example IBM's Scale Out File Services [SoFS] which today handles 2-3 billion files in a single global file system, so 20-40 million would present no problem. SoFS supports a mix of disk and tape, with built-in movement, so that files that were referenced would automatically be moved to disk when needed, and moved back to tape when no longer required, based on policies set by the administrator. Depending on the analysis, you may only need 1 PB or less of disk to perform the work, which can easily be accomplished with a handful of disk systems, such as IBM DS8300 or IBM XIV, for example.
The rest would be on tape. Let's consider using the IBM TS3500 with [S24 High Density] frames. A singleTS3500 tape library with fifteen of these HD frames could hold 45PB of data, assuming 3:1 compression on 1TB-size 3592 cartridges. You wouldneed 40 (forty) of these libraries to get to the full 1800 PB required, and these could hold even more as higher capacity cartridges are developed. IBM has customers with over 40 tape libraries today (not all with these HD frames, of course), but the dimensions and scale that IBM is capable lies within this scope.
(For LTO fans, fifteen S54 frames would hold 32PB of data, assuming 2:1 compression on 800GB-size LTO-4 cartridges.so you would need 57 libraries instead of 40 in the above example.)
This blended disk-and-tape approach would drastically reduce the floorspace and electricity requirements when compared against all-disk configurations discussed in the post.
People are rediscovering tape in a whole new light. ComputerWorld recently came out with an 11-page Technology Brief titled [The Business Value of Tape Storage],sponsored by Dell. (Note: While Dell is a competitor to IBM for some aspects of their business, they OEM their tape storage systems from IBM, so in that respect, I can refer to them as a technology partner.) Here are some excerpts from the ComputerWorld brief:
For IT managers, the question isnot whether to use tape, but whereand how to best use tape as part of acomprehensive, tiered storage architecture.In the modern storage architecture,tape plays a role not onlyin data backup, but also in long-termarchiving and compliance.
“Long-term archiving is the primaryreason any company shoulduse tape these days,” says MikeKarp, senior analyst at EnterpriseManagement Associates in Boulder,Colo. Companies are increasinglylikely to use disk in conjunctionwith tape for backup, but for long-termarchiving needs, tape remainsunbeatable.
After factoring inacquisition costs of equipment andmedia, as well as electricity and datacenter floor space, Clipper Groupfound that the total cost of archivingsolutions based on SATA disk, theleast expensive disk, was up to 23times more expensive than archivingsolutions involving tape. Calculatingenergy costs for the competing approaches,the costs for disk jumpedto 290 times that of tape.
“Tape isalways the winner anywhere costtrumps anything else,” says Karp.No matter how the cost is figured,tape is less expensive.
Beyond IT familiarity with tape,analysts point to other reasons whyorganizations will likely keep tapein their IT storage infrastructures.Energy savings, for example, is themost recent reason to stick withtape. “The economics of tape arepretty compelling, especially whenyou figure in the cost of power,”Schulz says.
So, whether you are planning for an Exabyte-scale data center, or merely questioning the logic of a disk-for-everything storage approach, you might want to consider tape. It's "green" for the environment, and less expensive on your budget.
Once again it's Tuesday, which means IBM announcement day!
Today IBM announced [two new DS3400 SAN Express Models]. These two new models will replace the IBM System Storage DS3400 SAN Express Kit model 41U and 42U to be withdrawn from marketing today. The DS3000 series of scalable, flexible, and affordable storage solutions support IBM System x, System p, and BladeCenter servers.
Two new IBM System Storage DS3400 SAN Express Kits are being introduced that provide the parts needed to setup and configure a SAN with the exception of a SAN switch that can be ordered separately. The IBM System Storage DS3400 SAN Express Kits contain Emulex EZPilot software that enables automated installation and configuration of the SAN components. IBM System Storage DS3400 SAN Express Kits models 41S and 42S and Emulex EZPilot software work in conjunction with the IBM TotalStorage SAN16B-2 Express Model Switch which comes with eight ports and eight 4 Gbps SFPs. The EZPilot software can support configurations with either one or two SAN16B-2 switches.
The 41S is a single-controller model DS3400 with two HBA cards and four cables. The 42S is the dual-controller model with two HBA cards and eight cables.
Soon, the U.S. is switching on-air television signals from analog to digital format. The switch-over happensFebruary 17, 2009. According to the [Federal Communications Commission], Americans haveuntil this Monday, March 31, to request up to two 40-dollar coupons towards the purchase of digital-to-analog converter boxesso that the on-air digital signals can be used with existing analog-only television equipment.
(For my readers outside the United States, a bit of background explanation may be necessary. Americans consider access to television a self-evident and unalienable right.According to a Pew Research report[Luxury or Necessity?] 64 percent of Americansconsider a television set a necessity, and 33 percent consider paid providers, like cable or satellite, a necessity.Even prisoners in U.S. jails are allowed to watch television!)
Taking advantage of the "Y2K crisis" like nature of this 2/17/2009 deadline, paid providers have been advertisingthat this deadline only applies to on-air customers. Those who have cable or satellite can continue to use theiranalog equipment. I have been a subscriber for Cox Cable for some time, and my parents recently made the switchas well. Two weeks ago, however, my parents called me in a panic. Cox Cable chose to move one channel, TurnerClassic Movies (TCM), over from their analog line-up over to their digital line-up. They thought this wasn't goingto happen until 2/17/2009! They asked me to investigate and provide them alternative options.
I spoke to a Cox Cable representative.
Did Turner force Cox Cable to do this? Did they digitize their entire collection of movies? No, Cox Cable is choosing to send the TCM signal over the digital bandwidth, and they are converted back to analog by their set-top box.
Do customers who now get one less channel get a discount? No, same price, less service.
Why move a single channel over? Eventually, everything is going digital, and this is a small "baby step" to getpeople to switch over.
But TCM is a collection of grainy, black-and-white movies from the 1950s and 1960s, it is probably the channelthat gets the least benefit to convert to digital. Why choose TCM specifically? TCM is "commercial-free" so providesno additional revenue opportunity. Moving this to digital frees up an analog channel to run a new "on demand" servicethat could generate additional revenue for Cox Cable.
What would it take in terms of additional cost and equipment to watch the TCM in digital?A set-top digital box from Cox Cable, which costs one-time 10 dollars to install by a professional technician, plus 11 dollars per month for the extra "service" provided.
Do I need a High-Def television set or other equipment? No, the digital signal for TCM is standard format, so no HD equipment required.
I currently split my cable signal, so that I can watch one channel and record another, or record two separate channels at the same time, using a standard format VCR and Tivo, can I continue to do this with the digital set-top box? Yes, absolutely.
I decided to give it a try, and a technician was scheduled to perform the installation last Sunday, which was Easter holiday for some people. The technician was able to connect the set-top box directly to my television set, but thesignal is converted to a single "Channel 3", forcing the use of a separate Cox Cable remote control unit to set the channel on the set-top box. He set the set-top box to TCM (channel 199) and showed that the TCM channel was now available again.
How would my VCR or Tivo record anything? You have to set the set-top box manually to the appropriate channel desired, then set the VCR or Tivo to record "Channel 3".
How would I record one channel while watching another? That does not appear possible with this set-top box. If we split before entering the set-top box, then that equipment would get the analog channels only, not TCM.
How about recording two different channels concurrently? No way.
I feel bad for the technician. He spent two hours on his Easter Sunday to install service that I was told by theirsales rep would work with my equipment, only to find out it won't and he ended up having to take it all back out andcancel the work order. He doesn't even get paid overtime for this.
So, I am back to where I was before, analog channels minus the TCM channel. However, the lesson is clear, eventuallyeverything is going to digital, and people may not realize what this means to them.
Can you believe it is September already? We have a number upcoming events that you might be interested in.
IBM Smarter Analytics by Design
Join the first of our 'Smarter Analytics by Design' virtual events to learn more from leading industry analyst IDC on how analytics can help you solve business challenges, and the capabilities you'll need to be successful in this ever-changing landscape. You'll also hear real case examples from AXTEL and Miami-Dade County and the results of their analytics approaches.
Webcast: IBM Smarter Analytics by Design Date: Thursday, September 13, 2012 Time: 1:00 pm ET / 12:00 pm CT / 10:00 am PT
Dan Vessett and Jean Bozman, International Data Corporation (IDC)
Gaspar Rivera Del Valle, AXTEL, Monterrey, Mexico
Adrienne DiPrima, Rosario Fiallos, Jaci Newmark, Miami-Dade County, South Florida
The problems that used to keep storage managers awake at night -- power, cooling and physical footprint -- are being successfully addressed by technology, but a more vexing issue still remains: How to get more out of the limited supply of skilled storage management professionals.
Webcast: Solving the Storage Capacity Crisis Date: Tuesday, September 25, 2012 Time: 12:00 pm ET / 10:00 am CT / 09:00 am PT
Demand for storage capacity continues to grow far faster than the pool of people to manage it. With no end in sight to data growth, businesses need to apply technology and practices that distribute management responsibility to the people who need storage, and multiply the volumes of storage that skilled professionals can handle.
In this presentation, in this session, I will cover best practices and new tools that are enabling leaps in productivity, in three main areas:
IBM is bringing back and expanding its Mini Briefing program to Oracle OpenWorld.
What is a Mini-Briefing you might ask? It is a small, customized briefing by the Executive Briefing Centers, held nearby a related conference, allowing conference attendees to take 1-2 hours out of their schedule to speak to IBM experts. These are intended to answer the question: Why choose IBM for your Oracle (and other) workloads?
Event: IBM Mini-Briefings Location: San Francisco Marriott Marquis, 55 Fourth Street, very close to the Moscone Center Dates: Monday through Wednesday, October 1-3, 2012
Last year, the Austin Executive Briefing Center had a room full of experts to help customers learn about IBM hardware to run Oracle applications. This year, IBM is back in San Francisco, with subject matter experts representing Power Systems, System x servers, PureSystems, Storage and System z mainframes.
Subject Matter Experts:
Pat O'Rourke, Austin Briefing Center, Power Systems
Dennis Wunder, Poughkeepsie Briefing Center, System z mainframes
Steve Loeschorn, Raleigh Briefing Center, System x servers
Curtis Neal, Tucson Briefing Center, Storage
Of course, IBM will also have a booth presence on the main Oracle OpenWorld showroom floor. Sadly, I will not be there myself this year. Please stop by and visit my colleagues!
To sign up for a Mini-Briefing at Oracle OpenWorld, for any or all of the topics above, visit the new [IBM STG Austin EBC] website.
I hope you can participate in one or more of these events!
For those who want to meet me in person, there are two opportunities coming up in December.
Data Center Conference, December 1-4
Once again, I will be blogging from Ceasar's Palace Las Vegas at this year's [Data Center Conference 2009]! Last year's conference was a blast, and this one looks to be quite exciting. IBM is again a premier sponsor. Scheduled to speak are the following IBM executives:
Helene Armitage, the new General Manager of System Software, on "IT-Wide Virtualization, A Prerequisite for a Truly Dynamic Infrastructure"
Steve Sams, the VP of Sites and Facilities, on "Data Center Actions Your CFO Will Love"
Barry Rudolph, the VP of System Storage, on "Meeting the Information Infrastructure Challenge"
We will also have an IBM booth at the Solutions Showcase, showing off the latest in Cloud Computing,
Service Management, Information Infrastructure, and Workload-optimized systems. You will be able to schedule one-on-one sessions with IBM executives and subject matter experts. Best of all, we will have on display a Portable Modular Data Center [PMDC] that can hold a fully operational data center in a standard [20 foot shipping container].
IBM Virtualization and Consolidation Briefing, December 15
This is being done "open house" style. If you can get yourself to the IBM Tucson Executive Briefing Center, IBM will provide you breakfast, a series of presentations, lunch, and then even more presentations. Your stomach and brain will be full by the end of the day. Here is a list of the presentations:
For the past three decades, IBM has offered security solutions to protect against unauthorized access. Let's take a look at three different approaches available today for the encryption of data.
Approach 1: Server-based
Server-based encryption has been around for a while. This can be implemented in the operating system itself, such as z/OS on the System z mainframe platform, or with an applicaiton, such as IBM Tivoli Storage Manager for backup and archive.
While this has the advantage that you can selectively encrypt individual files, data sets, or columns in databases, it has several drawbacks. First, you consume server resources to perform the encryption. Secondly, as I mention in the video above, if you only encrypt selected data, the data you forget to, or choose not to, encrypt may result in data exposure. Third, you have to manage your encryption keys on a server-by-server basis. Fourth, you need encryption capability in the operating system or application. And fifth, encrypting the data first will undermine any storage or network compression capability down-line.
Approach 2: Network-based
Network-based solutions perform the encryption between the server and the storage device. Last year, when I was in Auckland, New Zealand, I covered the IBM SAN32B-E4 switch in my presentation [Understanding IBM's Storage Encryption Options]. This switch receives data from the server, encrypts it, and sends it on down to the storage device.
This has several advantages over the server-based approach. First, we offload the server resources to the switch. Second, you can encrypt all the files on the volume. You can select which volumes get encrypted, so there is still the risk that you encrypt only some volumes, and not others, and accidently expose your data. Third, the SAN32B-E4 can centralized the encryption key management to the IBM Tivoli Key Lifecycle Manager (TKLM). This is also operating system and application agnostic. However, network-based encryption has the same problem of undermining any storage device compression capability, and often has a limit on the amount of data bandwidth it can process. The SAN32B-E4 can handle 48 GB/sec, with a turbo-mode option to double this to 96 GB/sec.
Approach 3: Device-based
Device-based solutions perform the encryption at the storage device itself. Back in 2006, IBM was the first to introduce this method on its [TS1120 tape drive]. Later, it was offered on Linear Tape Open (LTO-4) drives. IBM was also first to introduce Full Disk Encryption (FDE) on its IBM System Storage DS8000. See my blog post [1Q09 Disk Announcements] for details.
As with the network-based approach, the device-based method offloads server resources, allows you to encrypt all the files on each volume, can centrally manage all of your keys with TKLM, and is agnostic to operating system and application used. The device can compress the data first, then encrypt, resulting in fewer tape cartridges or less disk capacity consumed. IBM's device-based approach scales nicely. IBM has an encryption chip is placed in each tape drive or disk drive. No matter how many drives you have, you will have all the encryption horsepower you need to scale up.
Not all device-based solutions use an encryption chip per drive. Some of our competitors encrypt in the controller instead, which operates much like the network-based approach. As more and more disk drives are added to your storage system, the controller may get overwhelmed to perform the encryption.
The need for security grows every year. Enterprise Systems are Security-ready to protect your most mission critical application data.
Just as light bulbs burn out eventually after repeatedly being turned on and off, Flash does not last forever either.
A set of transistors can represent a single bit of informaiton (Single-level cell, or SLC for short), or multiple bits (Multi-level Cell, MLC). MLC typically refers to two bits, with a new "Triple-level cell" or TLC technology, able to store three bits per set of transistors.
SLC is faster and can endure more "Program-erase" write cycles, but MLC is less expensive to manufacture and therefore used in most consumer products, like digital cameras, smart phones, music players and USB memory sticks. To learn more on this, see this 6-page IBM whitepaper on [Comparison of NAND Flash Technologies Used in Solid-State Storage].
In between, "Enterprise MLC" (or eMLC for short) refers specifically to a different grade of chips IBM gets from the flash manufacturer. eMLC chips use a similar MLC bit arrangement, but are typically selected from higher bins, and most importantly have much longer program-erase cycle times which yield greater chip endurance, at the expense of long data retention when power is off (but seriously, when is anything off for very long in a data center?)
As a result, eMLC has 10x the endurance of regalar MLC, approaching parity with SLC at half the cost!
In the IBM FlashSystem, DRAM cache is used to buffer the writes first, then written out to the Flash. This helps to further improve the endurance.
For enterprise reliability, each Flash chip on the IBM FlashSystem has Error Correcting Codes (ECC), and then each set of 10 chips is placed in a 9+P RAID-5 configuration.
The chips are sub-divided into 16 planes. In the event a cell fails, the data for that plane can be reconstructed from parity, and written to spare space on the other planes of that same chip set. That plane is then reformated as an 8+P RAID-5, bypassing the failed plane.
In this manner, a cell failure only results in losing a small portion of one chip. If the same plane fails another failure on another chip, it will drop down to 7+P, 6+P, 5+P, and finally 4+P. This is known as "Variable Stripe RAID" or VSR for short.
IBM FlashSystem can survive over 1,000 such cell failures without an outage. By comparison, a single cell failure on an SSD often marks the entire drive as a failure.
But wait, there's more. Why stop at just RAID-5 across 10 chips. The chips are organized into modules, and IBM FlashSystem can perform RAID-5 across modules, in a 10+P+S RAID-5 configuration. This is referred to as "Two dimensional RAID" or 2D-RAID for short.
Even if you lost an entire module, the system will automatically rebuild on the spare module, and you can replace the bad one non-disruptively.
Many use cases for all-Flash arrays do not require such high levels of Enterprise reliability. Several of the all-Flash competitors have adopted a "design-for-failure" approach common among Cloud Service Providers like Amazon Web Services.
The idea is to assume that the data stored on them is just a copy from some other storage media. In the event of a Flash failure, it can easily be restored from a mirrored copy or backup.
For the IBM FlashSystem, The newer 800 series are based on eMLC, ideal for the majority of business applications, databases and virtual machine images placed on all-Flash arrays. The older 700 series are based on more expensive SLC, designed specifically for sustained write-intensive workloads.
Within each series, the "tens" models (710, 810) offer RAID-0 striping across ECC and VSR protected modules. For higher levels of availability, the "twenties" models (720, 820) offer ECC, VSR and 2D-RAID protection.
While some might be familiar with mashups that combine public Web 2.0 sources of information, enterprise mashups go one step further, integrating withthe "information infrastructure" of your data center. It's not just enough to deliver theright information to the right person at the right time, it has to bein the right format, in a manner that can be readily understood andacted upon. Enterprise mashups can help.