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000-111 IBM Distributed Systems Storage Solutions Version 7

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000-111 exam Dumps Source : IBM Distributed Systems Storage Solutions Version 7

Test Code : 000-111
Test name : IBM Distributed Systems Storage Solutions Version 7
Vendor name : IBM
: 269 actual Questions

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IBM IBM Distributed Systems Storage

power techniques: using greater revenue Than at the start concept | killexams.com actual Questions and Pass4sure dumps

February 25, 2019 Timothy Prickett Morgan

Any model takes refinement, no matter if it is some thing a human spreadsheet jockey places collectively or it's a disbursed neural community it really is knowledgeable with laptop discovering recommendations to finish some kind of identification and manipulation of information. So it is with the power techniques profits model I sequel collectively a month ago in the wake of IBM reporting its monetary effects for the fourth quarter.

I didn't in fact suggest to secure into it at the time. i was just going to collect a short table of the equable forex growth costs of the energy programs company and i simply kept going lower back in time and wondering what this data in fact supposed. equable forex increase prices are entertaining for month-to-month and 12 months-to-12 months comparisons for a company that does industry in lots of currencies around the globe, nevertheless it doesn’t basically order you the measurement of the energy programs company. As a refresher, here is what that boom chart for energy systems seems like:

So I went lower back in time and took my top-quality stab, according to assistance from the analysts at Gartner and IDC, on reckoning what the quarterly revenues for dash techniques were in 2009, and i converted the consistent forex boom costs that IBM supplies each quarter with the as-said figures, which might be mentioned in varied currencies and converted to U.S. bucks at the conclusion of every quarter in accordance with the relative (and infrequently fluctuating) values of these currencies in opposition t the U.S. greenback.

I made what turned into an attractive first rate mannequin from this. however after getting some feedback and additionally giving it slightly more concept, I came to the conclusion that the preparatory revenue mannequin became a minute brief on the external sales – which means folks that are reported as external income through IBM when it's talking to the Securities and exchange commission – in a pair of distinct and significant ways, some of which are less complicated to guesstimate than others.

the primary means it changed into demure is barely that it became simply too low for the exterior sales. no longer a gross lot, however a immense volume that requires the model to be adjusted for 2018 and backcast the entire means returned to 2009. My initial mannequin reckoned that external vigour systems sales (again, signification those now not bought to other IBM divisions however these bought to conclusion clients and channel companions) in 2018 came to a tad bit more than $1.6 billion, however I reckon now that it is greater enjoy $1.78 billion. That may too no longer sound enjoy a ample deal, however it is an eleven p.c dissimilarity in the model, and i pride myself on being inside 5 percent or less in most issues. but this is very tough to finish within the absence of information, and vulgar i can declare is that I believe it is more reform now in line with remarks and recent statistics.

however that isn't vulgar the dash programs earnings that IBM does, and the image is more advanced, and this week I want to are trying to tackle some of that complexity to existing a more accurate photograph. apart from these external revenue of power programs gear to channel partners and users, IBM too “sells” energy methods machinery to the Storage techniques unit that is a component of systems group as the foundation of a considerable number of storage arrays, just enjoy the DS8800 progression disk/flash hybrid arrays, and software-defined storage enjoy Spectrum Scale (GPFS) and Lustre parallel file methods as well as a number of object, key/price, and obstruct storage engines. lower back in the day, IBM used to provide tips about how a Great deal of its as-mentioned revenues came from servers, storage, and chip manufacturing, however it not does this. It does talk about increase in storage hardware, so that you can lunge forward from the historic facts to the brand recent and engage a sight at to determine how an abominable lot vigour programs iron, and its cost, is underpinning quite a lot of IBM storage. it is complicated to avow with any precision, but the power systems element of storage looks to be somewhere north of $200 million in 2018 – my pot is $226 million, up 15 p.c from 2017 degrees and considerably higher nonetheless than stages in 2016. In any experience, if you add that storage a fraction of the vigour methods enterprise in – which IBM doesn't eschew itself – then the energy methods division likely brought in whatever north of $2 billion in revenues in 2018.

here is what the chart showing exterior energy tackle servers and internal storage-related power programs revenues loom to be collectively:

these storage-related vigour systems earnings are enjoy icing on the cake, as you could see, ranging somewhere between eight % and 13 p.c of total vigour techniques earnings (with simply these two gadgets, which is not the comprehensive picture).

here's what this facts feels enjoy if you annualize it and consolidate these power systems earnings:

That offers you a stronger thought of the slope of the earnings bars. And in case you enjoy cogent statistics, privilege here is the table of the information at the back of that:

in case you wish to definitely comprehensive the photo on vigour programs hardware earnings, there's a different factor that must be added in: Strategic outsourcing contracts involving energy techniques machinery. There are some very significant agencies that beget very gigantic compute complexes in line with power iron, and in a lot of situations, they are a ample deal larger aggregations of programs than even gadget z retail outlets have. and a lot of of those valued clientele beget IBM control these programs below an outsourcing shrink during the world technology services enterprise. And when GTS buys iron to better power tackle for shoppers, here is no longer protected within the externally said figures. it is arduous to determine how an abominable lot power tackle GTS consumes, and at what fee, but privilege here’s what they are able to say. IBM could invent that rate anything it desired, any quarter that it desired, so there are doubtless practices in location to examine that apparatus that GTS buys at a ample market value to uphold away from the appearance of impropriety. in case you appear at the annual revenues for systems neighborhood, which comprises energy techniques and gadget z servers, operating techniques for these machines, and storage, IBM bought a complete of $eight.85 billion in hardware and operating systems, with $814 million of that being to interior IBM organizations; I reckon that most of that went to GTS for outsourcing, and further that about half went for servers, 1 / 4 went for storage, and a quarter for operating programs. It is not difficult to imagine that a pair of hundred million greenbacks in vigour systems iron turned into “bought” by artery of GTS for outsourcing contracts terminal year. So perhaps the “true” revenues for vigour systems hardware is greater enjoy $2.3 billion, and with might be a quarter of the $1.sixty two billion in operating programs being on vigour iron (the other three quarters comes from very elevated priced utility on gadget z mainframes), the breakdown of the $2.sixty six billion or so in energy programs earnings may appear enjoy this:

this is a larger enterprise than many could beget anticipated, and it is ecocnomic and growing. It can be worse. And it has been. And it is getting more suitable.

linked studies

Taking At Stab At Modeling The power methods business

power methods hold transforming into To finish Off 2018

programs A vivid Spot In mixed consequences For IBM

The Frustration Of now not figuring out How we're Doing

vigor programs Posts growth in the First Quarter

IBM’s systems community On The financial Rebound

large Blue gains, Poised For The Power9

The dash Neine Conundrum

IBM Commits To Power9 improvements For huge vigour programs stores

Storage and AI work collectively in IBM’s multicloud approach | killexams.com actual Questions and Pass4sure dumps

an incredible focal point of the announcements from IBM Corp.’s feel convention final week worried synthetic intelligence and making it attainable across vulgar cloud platforms. This “AI far and wide” strategy applies to IBM’s storage artery as smartly.

In December, IBM announced a storage tackle co-designed with Nvidia Corp. for AI workloads and a considerable number of facts equipment, equivalent to TensorFlow. AI reference structure is additionally integrated in IBM’s dash line of servers.

there's curiously a further fundamental AI integration within the works, as IBM continues to heart of attention on the hybrid cloud. “We’re working on a third one at the moment with a further main server dealer as a result of they covet their storage to be any residence there’s AI and any residence there’s a cloud — big, medium or small,” said Eric Herzog (pictured), chief advertising officer and vp of international storage channels at IBM.

Herzog spoke with John Furrier (@furrier) and Stu Miniman (@stu), co-hosts of theCUBE, SiliconANGLE Media’s cellular livestreaming studio, vulgar over the IBM mediate event in San Francisco. They discussed IBM’s focal point on cyber resilience in its storage items and meeting customer wants in a multicloud ambiance. (* Disclosure below.)

New facets for resiliency

apart from multicloud and AI, IBM’s storage operation has additionally been focused on cyber resilience. In August, the industry launched Cyber Incident recovery among the points included within the newest unlock of its Resiliency Orchestration platform.

the brand recent product was designed to abruptly recuperate information and functions following a cyberattack. “sure, every person is used to the ‘super wall of China’ preserving you, and then of route chasing the unhealthy guy down when they infraction you,” Herzog spoke of. “but once they infraction you, it would unavoidable be exceptional if every thing had records at leisure encryption.”

Enhancements to IBM’s storage portfolio over the past 12 months had been designed to accommodate client environments which are increasingly multicloud-oriented. The heart of attention has been on software-defined storage solutions that stream and protect counsel in a wide orbit of compute ecosystems, as Herzog wrote in a recent weblog submit.

“You may too beget NTT Cloud in Japan, you might too beget Alibaba in China, you may too beget IBM Cloud Australia, and then you may beget Amazon in Latin the usa,” said Herzog, who seemed on the convention wearing a symbolic Hawaiian surfer shirt. “You don’t battle the wave; you experience the wave. And that’s what vulgar and sundry is coping with.”

Watch the comprehensive video interview under, and be confident to engage a sight at more of SiliconANGLE’s and theCUBE’s insurance of the IBM feel experience. (* Disclosure: IBM Corp. backed this side of theCUBE. Neither IBM nor other sponsors beget editorial control over content on theCUBE or SiliconANGLE.)

picture: SiliconANGLE considering you’re privilege here …

… We’d enjoy to order you about their mission and the artery you could uphold us fulfill it. SiliconANGLE Media Inc.’s industry model is based on the intrinsic value of the content, now not advertising. in contrast to many on-line publications, they don’t beget a paywall or dash banner promoting, because they wish to preserve their journalism open, devoid of paw or the need to chase traffic.The journalism, reporting and commentary on SiliconANGLE — together with are living, unscripted video from their Silicon Valley studio and globe-trotting video groups at theCUBE — engage lots of complicated work, time and funds. conserving the high-quality extravagant requires the assist of sponsors who are aligned with their imaginative and prescient of ad-free journalism content.

in case you enjoy the reporting, video interviews and different ad-free content material here, please engage a moment to check out a pattern of the video content supported via their sponsors, tweet your help, and retain coming lower back to SiliconANGLE.

IBM Mashes Up PowerAI And Watson laptop discovering Stacks | killexams.com actual Questions and Pass4sure dumps

previous in this decade, when the hyperscalers and the teachers that dash with them were constructing laptop researching frameworks to transpose vulgar types of statistics from one format to yet another – speech to text, text to speech, image to textual content, video to text, etc – they had been doing so now not only for scientific curiosity. They beget been trying to resolve actual company problems and addressing the wants of consumers the usage of their application.

on the same time, IBM became trying to limpid up a special difficulty, naming developing a question-answer system that could anthropomorphize the search engine. This application became referred to as venture Blue J internal of IBM (not to be puzzled with the open source BlueJ built-in development atmosphere for Java), turned into wrapped up privilege into a utility stack known as DeepQA by means of IBM. It was this DeepQA stack, which changed into in keeping with the open source Hadoop unstructured facts storage and analytics engine that came out of Yahoo and yet another challenge referred to as Apache UIMA, which predates Hadoop through a number of years and which changed into designed by using IBM database specialists within the early 2000s to technique unstructured records enjoy textual content, audio, and video. This deep QA stack turned into embedded within the Watson QA device that changed into designed to play Jeopardy towards people, which they noted in detail here eight years ago. The Apache UIMA stack became the key a fraction of the WatsonQA gadget that did natural language processing that parsed out the speech in a Jeopardy reply, transformed it to text, and fed it into the statistical algorithms to create the Jeopardy question.

Watson gained the competition towards human Jeopardy champs Brad Rutter and Ken Jennings, and a brand – which invoked IBM founder Thomas Watson and his admonition to “think” in addition to medical professional Watson, the sidekick of fictional supersleuth Sherlock Holmes – became born.

rather than invent Watson a product on the market, IBM offered it as a provider, and pumped the QA device plenary of records to engage on the healthcare, economic services, energy, advertising and media, and education industries. This turned into, most likely, a mistake, however on the time, within the wake of the Jeopardy championship, it felt enjoy every thing was touching to the cloud and that the SaaS mannequin became the appropriate manner to go. IBM in no artery truly talked in unbelievable aspect about how DeepQA become constructed, and it has in a similar artery no longer been particular about how this Watson stack has modified over time – eight years is a very long time within the laptop gaining information of space.  It is not limpid if Watson is material to IBM’s revenues, but what is obvious is that desktop researching is strategic for its methods, utility, and services organizations.

So it truly is why IBM is at terminal bringing together vulgar of its desktop getting to know tools and inserting them beneath the Watson brand and, very importantly, making the Watson stack attainable for purchase so it can too be dash on private datacenters and in different public clouds anyway the one that IBM runs. To be actual, the Watson capabilities as well because the PowerAI machine gaining information of practising frameworks and adjunct tools tuned up to dash on clusters of IBM’s vigour systems machines, are being brought collectively, and they'll be sequel into Kubernetes containers and distributed to dash on the IBM Cloud private Kubernetes stack, which is accessible on X86 systems as well as IBM’s own energy iron, in virtualized or naked metallic modes. It is that this encapsulation of this recent and comprehensive Watson stack with IBM Cloud private stack that makes it portable throughout inner most datacenters and other clouds.

by the way, as a fraction of the mashup of those tools, the PowerAI stack that makes a speciality of deep getting to know, GPU-accelerated machine gaining information of, and scaling and disbursed computing for AI, is being made a core fraction of the Watson Studio and Watson computing device getting to know (Watson ML) utility equipment. This integrated utility suite gives commercial enterprise facts scientists an end-to-conclusion developer tools. Watson Studio is an built-in development atmosphere according to Jupyter notebooks and R Studio. Watson ML is a collection of machine and deep studying libraries and mannequin and records administration. Watson OpenScale is AI mannequin monitoring and warp and equity detection. The software previously known as PowerAI and PowerAI enterprise will continue to be developed by the Cognitive techniques division. The Watson division, in case you don't appear to be usual with IBM’s organizational chart, is fraction of its Cognitive solutions community, which comprises databases, analytics equipment, transaction processing middleware, and numerous functions allotted both on premises or as a provider on the IBM Cloud.

it's unclear how this Watson stack could trade in the wake of IBM closing the pink Hat acquisition, which should quiet occur earlier than the conclusion of the 12 months. nonetheless it is competitively priced to await that IBM will tune up vulgar of this software to dash on pink Hat commercial enterprise Linux and its own KVM digital machines and OpenShift implementation of Kubernetes and then push definitely complicated.

it is likely profitable to evaluate what PowerAI is vulgar about after which pomp how it is being melded into the Watson stack. earlier than the combination and the identify changes (extra on that in a second), here is what the PowerAI stack looked like:

in accordance with Bob Picciano, senior vp of Cognitive systems at IBM, there are more than 600 industry clients that beget deployed PowerAI tools to dash machine researching frameworks on its energy programs iron, and clearly GPU-accelerated systems enjoy the power AC922 tackle that's on the heart of the “Summit” supercomputer at o.k.Ridge national Laboratory and the sibling “Sierra” supercomputer at Lawrence Livermore countrywide Laboratory are the main IBM machines individuals are using to finish AI work. here's a ample looking ample birth for a nascent industry and a platform that is relatively recent to the AI crowd, but most likely not so diverse for commercial enterprise shoppers which beget used dash iron in their database and software tiers for decades.

The preparatory PowerAI code from two years ago started with models of the TensorFlow, Caffe, PyTorch, and Chainer laptop getting to know frameworks that massive Blue tuned up for its energy processors. The great innovation with PowerAI is what's known as colossal model help, which makes exercise of the coherency between Nvidia “Pascal” and “Volta” Tesla GPU accelerators and Power8 and Power9 processors in the IBM vigour methods servers – enabled via NVLink ports on the energy processors and tweaks to the Linux kernel – to allow tons greater neural network practicing fashions to be loaded into the system. vulgar of the PowerAI code is open source and dispensed as code or binaries, and so far only on power processors. (We suspect IBM will retrograde agnostic on this eventually, considering the fact that Watson tools should dash on the great public clouds, which with the exception now of the IBM Cloud, won't beget energy methods accessible. (Nimbix, a professional in HPC and AI and a smaller public cloud, does present energy iron and helps PowerAI, by the way.)

underneath this, IBM has created a groundwork referred to as PowerAI business, and here's no longer open source and it is simply obtainable as fraction of a subscription. PowerAI enterprise adds Message Passing Interface (MPI) extensions to the laptop getting to know frameworks – what IBM calls disbursed deep getting to know – as well as cluster virtualization and computerized hyper-parameter optimization options, embedded in its Spectrum Conductor for Spark (sure, that Spark, the in-memory processing framework) tool. IBM has too added what it calls the deep getting to know influence module, which includes tackle for managing records (such as ETL extraction and visualization of datasets) and managing neural community fashions, together with wizards that imply the artery to most advantageous exercise records and models. On reform of this stack, IBM’s first industrial AI software that it's selling is referred to as PowerAI vision, which may too be used to label vivid and video statistics for practicing fashions and instantly instruct models (or augment present models supplied with the license).

So in spite of everything of the alterations, here's what the brand recent Watson stack feels like:

As you could see, the Watson desktop researching stack helps a lot more desktop discovering frameworks, above vulgar the SnapML framework that got here out of IBM’s analysis lab in Zurich this is providing a major efficiency capabilities on dash iron compared to working frameworks enjoy Google’s TensorFlow. here's surely a greater complete stack for computer discovering, including Watson Studio for developing fashions, the well-known Watson computer getting to know stack for practicing and deploying fashions in creation inference, and now Watson OpenScale (it's mislabeled within the chart) to computer screen and befriend enrich the accuracy of fashions based on how they are running in the box as they infer issues.

For the moment, there is not any trade in PowerAI industry licenses and pricing vulgar over the first quarter, however after that PowerAI commercial enterprise may be introduced into the Watson stack to add the distributed GPU laptop studying working towards and inference capabilities atop power iron to that stack. So Watson, which began out on Power7 machines taking fraction in Jeopardy, is coming again domestic to Power9 with production machine discovering functions in the enterprise. They aren't determined if IBM will present an identical allotted machine discovering capabilities on non-vigor machines, nevertheless it appears possible that is valued clientele wish to dash the Watson stack on premises or in a public cloud, it will ought to. dash techniques will must stand on its own merits if that comes to move, and given the merits that Power9 chips beget with reference to compute, I/O and reminiscence bandwidth, and coherent reminiscence throughout CPUs and GPUs, that may additionally not be as a Great deal of an impact as they might suppose. The X86 architecture will must win by itself deserves, too.

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HPC in Life Sciences fraction 1: CPU Choices, climb of Data Lakes, Networking Challenges, and More | killexams.com actual questions and Pass4sure dumps

For the past few years HPCwire and leaders of BioTeam, a research computing consultancy specializing in life sciences, beget convened to examine the situation of HPC (and now AI) exercise in life sciences.

Without HPC writ large, modern life sciences research would quickly grind to a halt. It’s cogent most life sciences research computing is less focused on tightly-coupled, low-latency processing (traditional HPC) and more relative on data analytics and managing (and sieving) massive datasets. But there is plenty of both types of compute and disentangling the two has become increasingly difficult. Sophisticated storage schemes beget long been de rigueur and recently swiftly networking has become well-known (no surprise given lab instruments’ prodigious output). Lastly, striding into this shifting environment is AI – deep learning and machine learning – whose deafening hype is only exceeded by its transformative potential.

Ari Berman, BioTeam

This year’s discussion included Ari Berman, vice president and common manager of consulting services, Chris Dagdigian, one of BioTeam’s founders and senior director of infrastructure, and Aaron Gardner, director of technology. Including Dagdigian, who focuses largely on the enterprise, widened the scope of insights so there’s a nice blend of ideas presented about biotech and pharma as well as traditional academic and government HPC.

Because so much material was reviewed they are again dividing coverage into two articles. fraction One, presented here, examines core infrastructure issues around processor choices, heterogeneous architecture, network bottlenecks (and solutions), and storage technology. fraction Two, scheduled for next week, tackles the AI’s trajectory in life sciences and the increasing exercise of cloud computing in life sciences. In terms of the latter, you may be confidential with NIH’s STRIDES (Science and Technology Research Infrastructure for Discovery, Experimentation, and Sustainability) program which seeks to sever costs and ease cloud access for biomedical researchers.


HPCwire: Let’s tackle the core compute. terminal year they touched potential climb of processor diversity (AMD, Intel, Arm, Power9) and certainly AMD seems to beget achieve on strong. What’s your engage on changes in core computing landscape?

Chris Dagdigian: I can be quick and dirty. My view in the commercial and pharmaceutical and biotech space is that, aside from things enjoy GPUs and specialized computing devices, there’s not a lot of movement away from the mainstream processor platforms. These are people touching in 3-to-5-year purchasing cycles. These are people who standardized on Intel after a few years of smart during the AMD/Intel wars and it would engage something of huge significance to invent them shift again. In commercial biopharmaceutical and biotech there’s not a lot of consuming stuff going on in the CPU set.

The only other thing that’s consuming that’s happening is as more and more of this stuff goes to the cloud or gets virtualized, a lot of the CPU stuff actually gets hidden from the user. So there’s a growing fraction of my community (biomedical researchers in enterprise) where the users don’t even know what CPU their code is running on. That’s particularly cogent for things enjoy AWS batch, and AWS Lambda (serverless computing services) and that sort of stuff running in the cloud. I mediate I’ll desist here are declare on the commercial side they are leisurely and conservative and it’s quiet an Intel world and the cloud is hiding a lot of the cogent CPU stuff particularly as people retrograde serverless.

Aaron Gardner: That’s an consuming point. As more clouds beget adopted the Epyc CPU, some people may not realize they are running on them when they start instances. I would declare too that the climb of informatics as a service and workflows as a service is going to abstract things even more. It’s relatively smooth today to dash most code with some level of optimization across the Intel and AMD CPUs. But the gap widens a bit when you talk about, is the code, or portions of it being GPU accelerated, or did you switch architectures from AMD64 to Power9 or something enjoy that.

We talked terminal year about a transition from compute clusters being a hub fed by large-spoke data systems towards a data cluster where the hub is the data lake with its various touching pieces and storage tiers, but the spokes are vulgar the different types of heterogeneous compute services that span and uphold the workload dash on that system. They definitely beget seen movement towards that model. If you sight at vulgar Cray’s announcements in the terminal few months, everything from what they are doing with Shasta and Slingshot, and work towards making the CS (cluster supercomputers) and XC (tightly coupled supercomputers) work seamlessly, interoperably, in the same infrastructure, we’re seeing companies enjoy Cray and others gearing up for a heterogeneous future where they are going to uphold multiple processor architectures and optimize for multiple processor architectures as well as accelerators, CPUs and GPUs, and beget it vulgar work together in a coherent whole. That’s actually very exciting, because it’s not about betting on one particular horse or another; it’s about how well you are going to integrate across architectures, both traditional and non-traditional.

Ari Berman: Circling back to what Chris said. Life sciences historically has been sort of leisurely to jump in and adopt recent stuff just to try it or to remark if it will be three percent faster because the differences gained in information generation at this point in life science for those three percent are not ground breaking – it’s fine to wait a minute while. Those days, however, are dwindling because of the amount of data being generated and the urgency with which it has to be processed and too the backlog of data that has to be processed.

So they are not in life sciences at a point where – other than the differentiation of GPUs – applications are being designed specifically for different system processors other than for Intel. There’s some caveats to that. Normally as long as you can compile it and dash it on one of the main system processors and it can dash on a run-of-the-mill version of Linux, they are not optimizing for that; the exceptions to that are some of the built in math libraries that can be taken edge of on the Intel system platform, some of the data offloading for touching data to and from CPUs from remote or even internally, reminiscence bandwidth really matters a lot, and some of those things are differentiated based on what kindhearted of research you are doing.

HPCwire: It sounds a minute enjoy the battle for mindshare and market partake among processor vendors doesn’t matter as much in life sciences, at least at the user level. Is that fair?

Ari Berman: Well, they really enjoy a lot of the future architectures. AMD is coming out with for better reminiscence bandwidth to manipulate things enjoy PCIe links, having recent interconnects between CPUs, and too the connection to the motherboard. One of the immense bottlenecks Intel quiet has to unravel is how finish you secure data to and from the machine from external sources. Internally they beget optimized the bandwidth a gross lot, but if you beget huge central sources of data from parallel file systems, you quiet beget to secure it in and out of that system, and there are bottlenecks there.

Aaron Gardner: With the Rome architecture touching forward, AMD has provided a much better approach to reminiscence access, touching away from NUMA (nonuniform memory) to a central reminiscence controller with uniform latency across dies. This is really well-known when you beget up to 64 cores per socket. touching back towards a more favorable reminiscence access model on a per node design level I mediate is really going to befriend provide advantages to workloads in the life sciences and that is certainly something they are looking at testing and exploring over the next year.

Ari Berman: I finish mediate that for the first time in a while Power9 has some potential relevance, mostly because Summit and Sierra (IBM-based supercomputers) coming into play and those machines being built on Power9. I mediate people are exploring it but I don’t know that it will invent much of a play outside of just unadulterated HPC. The other thing I meant to bring up is a residence where I mediate AMD is ahead of Intel in fab technology. AMD is already manufacturing at 7nm versus the 14nm. I thought that it was really innovative of AMD to finish a multiple nanometer fabrication for their next release of processors where the IO core is 14nm and the processing core is 7nm because, just for power and distribution efficiency.

Aaron Gardner: In terms of market share, I mediate AMD has been extremely strategic over the terminal 18 months because when you sight at places that got burned by AMD in the past when it exited the server market, there were not enough benefits to warrant jumping back in fully privilege away. But AMD is really geared towards the economies-of-scale kind plays such as in the cloud where any edge in efficiency is going to be appreciated. So I mediate they beget been strategic [in choosing target markets] and we’ll remark over the next pair of years how it plays out. I mediate they are at the moment not in a residence where the client needs to specify a unavoidable processor. They are going to remark the integrators influence here, what they elect to sequel together in their heterogeneous HPC systems portfolio, influence what CPUs people secure and that may really sequel the winners and losers over time.

ARM they remark continue to grow but not explosively and I’d declare Power is certainly interesting. Having the great Power systems at the top of the TOP500 has really validated Power9 for exercise in capability supercomputing. How those are used though versus the GPUs for target workloads is interesting. In common they may be headed to a future where the CPU is used to circle on the GPU for unavoidable workloads. Nvidia would probably favor that model. It’s just very consuming the interplay between CPU and GPU; it really does beget to finish with whether you are accelerating a little number of codes to the nth degree or you are trying to beget more diverse application uphold which is where multiple CPU and GPU architectures are going to be needed.

Ari Berman: Using GPUs is quiet a huge thing for lots of different reasons. At the moment GPUs are hyped for AI and ML, but they beget been used extensively for a lot of the simulation space, Schrodinger suite, molecular modeling, quantum chemistry, those sorts of things, and too down into phylogenetic inference, special inheritance, things enjoy that. There are many Great applications for vivid processors, but really I would harmonize with others that it really boils down to system processors and GPUs at the moment in life sciences. I did hear anecdotally from a pair of folks in the industry that were using the IBM Q cloud just to try quantum [computing], just to remark how it worked with really elevated level genomic alignment and they kindhearted of got it to work and I’ll leave it at that.

HPCwire: They probably don’t consecrate enough coverage to networking given its import driven by huge datasets and the climb of edge computing. What’s the situation of networking in life sciences?

Chris Dagdigian: In pharmaceuticals and biotech, Ethernet rules the world. The elevated precipitate low latency interconnects are quiet in niche environments. When they finish remark non-ethernet fabrics in the commercial world they are being used for parallel filesystems or in specialized HPC chemistry & molecular modeling application environments where MPI message passing latency actually matters. However I will bluntly declare networking precipitate is now the most captious issue in my HPC world. I feel that compute and storage at petascale are largely tractable problems. touching data at scale within an organization or outside the boundaries of your firewall to a collaborator or a cloud is the single biggest rate limiting bottleneck for HPC in pharma and biotech. Combine with that the cost elevated precipitate Ethernet has not gone down as swiftly as the cost of commoditization in storage and compute. So they are in this double whammy world where they desperately need swiftly networks.

The corporate networking people are fairly smug about the 10 gig and 40 gig links they beget in the datacenter core whereas they need 100 gig networking going outside the datacenter, 100 gig going outside the building, sometimes they need 100 gig links to a particular lab. Honestly the artery that I manipulate this in enterprise is I am helping research organizations become a champion for the networking groups; they traditionally are under budgeted and don’t typically beget 40 gig and 100 gig and 400 gig on their radar because you know they are looking at bandwidth graphs for their edge switches or their firewalls and they just don’t remark the insane data movement that they beget to finish between the laboratory instrument and a storage system. The second thing, and I beget utterly failed at it, is articulating that there are products other than Cisco in the world. That argument does not skim in enterprise because there is a tremendous installed base. So I am in the enmesh 22 of I pay a lot of money for Cisco 40 gig and 100 gig and I just beget to live with it.

Ari Berman: I would harmonize networking is one of the major challenges. Depending on what granularity you are looking at, I mediate most of the HPCwire readers will care a lot about interconnects on clusters. Starting there, I would declare they are seeing a fairly even distribution of unadulterated Ethernet on the back discontinue because of vendors enjoy Arista for instance, which is producing more affordable 100 gig low latency Ethernet that can be sequel on the back discontinue so you don’t beget to finish the gross RDMA versus TCP/IP dance necessarily. But most clusters are quiet using InfiniBand on their back end.

In life sciences I would declare that they quiet remark Mellanox predominantly as the back end. I beget not seen life-science-directed organizations [use] a gross lot of Omni-Path (OPA). I beget seen it at the NSF supercomputer centers, used to Great effect, and they enjoy it a lot, but not really so much in life sciences. I’d declare the precipitate and diversity and the abilities of the Mellanox implementation could really outclass what is available in OPA today. I mediate the delays in OPA2 beget wound them. I finish mediate the recent interconnects enjoy Shasta/Slingshot from Cray are paving the artery to producing a reasonable competitor to where Mellanox is today.

Moving out from that, Chris is right. There are so many people using the cloud that don’t upgrade their internet connections to a wide enough bandwidth or engage their security enough out of the artery or optimize it enough so that people can effectively exercise the cloud for data-intensive applications, that getting the data there is impossible. You can exercise the cloud but only if the data is already there. That’s a huge problem.

Internally, a lot of organizations beget moved to Hot spots of 100 gig to be able to lunge data effectively between datacenters and from external data sources but a lot of 10 gig quiet predominates. I’d declare that there is a lot of 25 gig implementations and 50 gig implementations now. 40 gig sort went by the wayside. That’s because of the 100 gig optical carriers where they are actually made up of four individual wavelinks and so what they did was to just shiver those out and so the profile factors beget shrunk.

Going back to the cluster back end. In life sciences the judgement elevated performance networking on the back discontinue of a cluster is really well-known isn’t necessarily for inter-process communications, it’s for storage delivery to nodes. Almost every implementation has a great parallel distributed file system where vulgar of the data are coming from at one point or another. You beget to secure them to the CPU and that backend network needs to be optimized for that traffic.

Aaron Gardner: That’s a common case in the life sciences. They primarily sight at storage performance to bring data to nodes and even to lunge between nodes versus message passing for parallel applications. That’s starting to shift a minute bit but that’s traditionally been how it is. They usually beget looked at a single elevated performance fabric talking to a parallel files system. Whereas HPC as a gross has for a long time dealt with having a swiftly fabric for internode communications for great scale parallel jobs and then having a storage fabric that was either brought to vulgar of the nodes or in a manner of speaking shunted into the other fabric using IO router nodes.

“One of the things that is very consuming with Cray announcing Slingshot is the aptitude to talk both an internal low latency HPC optimized protocol as well as Ethernet, which in the case of HPC storage removes the need for IO router nodes, instead allowing the HCA (host channel adapters) and switching to manipulate the load and protocol translation and vulgar of that. Depending on how transparent and smooth it is to implement Slingshot at the little and mid-scale I mediate that is a potential threat to the continued prevalence of traditional InfiniBand in HPC, which is essentially Mellanox today.”

HPCwire: We’ve talked for a number of years about the revolution in life sciences instruments, and how the gush of data pouring from them overwhelms research IT systems. That has sequel stress on storage and data management. What’s you sense of the storage challenge today?

Chris Dagdigian: My sense is storing vast amounts of data is not particularly challenging these days. There’s a lot of products on the market, very many vendors to elect from, and the actual act of storing the data is relatively straightforward. However, no one has centrally cracked the how they manage it, how finish they understand what we’ve got on disk, how finish they carefully curate and maintain that stuff. Overwhelmingly the dominant storage pattern in my world is if they are not using a parallel files system for precipitate it’s overwhelmingly scale-out network attached storage (NAS). But they are definitely in the era where some of the incumbent NAS vendors are starting to be seen as dinosaurs or being placed on a 3-year or 4-year upgrade cycle.

The other thing is there’s quiet a lot of interest in hybrid storage, storage that spans the cloud and can be replicated into the cloud. The technology is there but in many cases the pipes are not. So it is quiet relatively difficult to either synchronize or replicate and maintain a consistent storage namespace unless you are a really solid organization with really swiftly pipes to the outside world. They quiet remark the problems of lots of islands of storage. The only other thing I will declare is I am known for maxim the future of scientific data at repose belongs in an remonstrate store, but that it’s going to engage a long time to secure there because they beget so many dependencies on things that await to remark files and folders. I beget customers that are buying petabytes of network attached storage but at the same time they are too buying petabytes of remonstrate storage. In some cases they are using the remonstrate storage natively; in other cases the remonstrate storage is their data continuity or backup target.

In terms of file system preference, the commercial world is not only conservative but too incredibly concerned with admin cross and value so almost universally it is going to be a mainstream choice enjoy GPFSsupported by DDN or IBM. There are lots of really consuming alternatives enjoy BeeGFS but the issue really is the enterprise is nervous about fancy recent technologies, not because of the fancy recent technologies but because they beget to bring recent people in to finish the care and feeding.

Aaron Gardner: Some of the challenges with how they remark storage deployed across life science organizations is how close to the bottom beget they been driven. With traditional supercomputing, you’re trying to secure the fastest storage you can, and the most of it, for the least amount of money. The uphold needed is not the primary driver. In HPC as a whole, Lustre and GPFS/Spectrum Scale are quiet the predominate players in terms of parallel file system. The consuming stuff over the terminal year or so has been Lustre trading hands (from Intel to DDN). With DDN leading the charge, the ecosystem is quiet being kept open and I mediate carefully crafted so other vendors can provide solutions independently from DDN. They finish remark IBM stepping up Spectrum Scale performance and Spectrum Scale 5offering a lot of ample features proven out and demonstrated on the zenith and Sierra kind systems, making Spectrum Scale every bit as pertinent as it ever was.

As far as performant parallel file systems there are consuming alternatives. There is more presence and momentum behind BeeGFS than they beget seen in prior years. They remark some adoption and clients interested in trying and adopting it but the number deployments in production and at a great scale is quiet pretty limited.

These days remonstrate storage is seen more enjoy a tap that you circle on and you are getting your remonstrate storage through AWS or Azure or GCP. If you are buying it for on-premise, there’s minute differentiation seen between remonstrate vendors. That’s the perception at least. They are seeing interest in what they summon next generation storage systems and file systems – things like WekaIO that provide NVMe over fabrics (NVMeOF) on the front discontinue and export their own NVMeOF autochthonous file system as opposed to obstruct storage. This removes the need to exercise something enjoy Spectrum Scale or Lustre to provide the file system and can drain frigid data to remonstrate storage either on premise or in the cloud. They finish remark that as a viable model touching forward.

I would add declare that speaking to NVME over fabrics in general; that it seems to be growing and becoming established as most of the recent storage vendors coming on the scene are currently architecting that way. That’s ample in their book. They certainly remark performance advantages but it really matters how it’s done—it is well-known that the software stack driving the NVME media has been purpose built for NVME over fabrics or at least significantly redesigned. Something ground up enjoy WekaIO or VAST will accomplish very well. On the other hand you could elect NVME over fabrics as the hardware topology for a storage system, but if you then layer on a legacy file system that hasn’t been updated for it you might not remark much benefit.

Couple of other quick notes. It seems enjoy storage benchmarking in HPC has been receiving more attention both in terms of measuring throughput and metadata operations, with the latter being valued and seen as one of the primary bottlenecks that govern the absolute utility of a cluster. For projects enjoy the IO500 we’ve seen an uptick in participation, both from national labs as well as vendors and other organizations. The terminal thing worth mentioning is data management. Scraping data for ML training data sets, for example, is one of the things driving us to understand the data they store better than they beget in the past. One of the simple ways to finish that is to tag your data and they are seeing more files systems coming on the scene with a focus on tagging as a core in-built feature. So while they achieve at the problem from different angles you could sight at what companies like Atavium is doing for primary storage or Igneous for secondary storage, providing the aptitude to tag data on ingest and the aptitude to lunge data (policy-driven) according to tags. This is something that they beget talked about for a long time and beget helped a lot of clients tackle.”

Link to fraction Two (HPC in Life Sciences fraction 2: Penetrating AI’s Hype and the Cloud’s Haze)

Asavie IoT Connect Service Now Available on AWS Marketplace to Expedite Enterprise IoT Projects | killexams.com actual questions and Pass4sure dumps

Asavie, a leader in secure Enterprise Mobility and Internet of Things (IoT) Connectivity,announced today that Asavie IoT Connect is now available on Amazon Web Services (AWS) Marketplace. The on-demand secure, network connectivity service enables developers to deploy IoT projects in minutes. By combining the flexibility and achieve of AWS with Asavie IoT Connect’s seamless edge-to-Cloud secure cellular network management, businesses can quickly deploy and scale their IoT projects in a trusted end-to-end environment.

Asavie IoT Connect is an on-demand, secure connectivity service designed to connect IoT edge devices to the AWS cloud. Developers can provision their IoT devices in minutes with a seamless and secure private cellular connectivity to transmit data to the Amazon Virtual Private Cloud (Amazon VPC). Asavie IoT Connect enables a completely private network, extending from edge IoT devices to AWS, that shields devices from public Internet borne cyberthreats such as malware and Distributed Denial of Service (DDoS) attacks.

The availability of such an on-demand seamless secure connection from the edge device to the cloud facilitates enterprise adoption of IoT by removing some of the complexity and skills required to manage the lifecycle of an IoT deployment. As observed by Emil Berthelsen, Snr. Director & Analyst with Gartner, “Moving deeper into IoT solutions and architectures, however, will require recent skills around connectivity, integration, cloud and possibly analytics. On the one hand, connecting and integrating IoT endpoints, platforms and enterprise systems will be captious to ensure the secure rush of data from the edge to the platform. At another level, providing suitable processing and storage capabilities, and enabling the exercise of future cloud-based services, will require skills from the cloud service area.” [i ]

Garth Fort, Director, AWS Marketplace, Amazon Web Services, Inc. said, “IoT is top of intelligence for many of their customers in multiple sectors. We’re continuing to invent it easier for customers to innovate and meet their growing IoT industry needs and we’re delighted to welcome Asavie IoT Connect on AWS Marketplace to befriend customers quickly and securely deploy IoT solutions.”

Brendan Carroll, CEO with industrial IoT sensor manufacturer, EpiSensor said, “Our global customers rely on the calibre of their products to continually monitor and provide insights on their industrial processes, 24/7. In circle they rely on their suppliers Asavie and AWS to provide the resilient, secure connectivity and storage services to enable us to fulfill their exacting service level agreements across the globe.”

“The ease with which the Asavie IoT Connect service allows us seamlessly connect individual devices to the AWS cloud infrastructure allows us to scale device-based deployments anywhere in the world,” added Carroll.

Asavie CEO, Ralph Shaw said, “As an AWS IoT Competency Partner, Asavie has already demonstrated pertinent technical proficiency and proven customer success, delivering solutions seamlessly on AWS. Today’s announcement builds on this foundation and expands their distribution capabilities to the enterprise market. With Asavie and AWS, enterprises can now confidently implement their IoT retrograde to market strategies across multiple territories.”

“By simplifying the secure integration of data from edge IoT devices to the cloud, Asavie empowers global businesses to drive increased cost savings, reduce risk and expedite their IoT implementations,” continued Shaw.

Visit Asavieat MWC onbooth7F30.

About Asavie

Asavie makes secure connectivity simple for any size of mobility or IoT deployment in a hyper-connected world. Asavie’s on-demand services power the secure and quick-witted distribution of data to connected devices anywhere. They enable enterprise customers globally to harness the power of the internet of things and mobile devices to transform and scale their businesses. Strategic distribution and technology partners involve AT&T, AWS, Dell, IBM, Microsoft, Singtel, Telefonica, Verizon and Vodafone. Asavie is an ISO 27001 certified company. For more information visit: www.asavie.com and ensue @Asavie on Twitter.

[i] Gartner: 2017 Strategic Roadmap for Successful Enterprise IoT Journeys - 29 November 2017 – Author Emil Berthelsen

View source version on businesswire.com: https://www.businesswire.com/news/home/20190224005118/en/

SOURCE: Asavie"> <Property FormalName="PrimaryTwitterHandle" Value="@Asavie

For AsavieHugh Carroll, Asavie, + 353 1 676 3585/+353 087 136 9869 hugh.carroll@asavie.comAnne Marie McCallion, ReturnPR +353 86 8349329 annemarie@returnpr.com

Copyright industry Wire 2019

Blockchain May be Overkill for Most IIoT Security | killexams.com actual questions and Pass4sure dumps

Blockchain crops up in many of the pitches for security software aimed at the industrial IoT. However, IIoT project owners, chipmakers and OEMs should stick with security options that address the low-level, device- and data-centered security of the IIoT itself, rather than the application to promote blockchain as a security option as well as an audit tool.

Only about 6% of Industrial IoT (IIoT) project owners chose to build IIoT-specific security into their initial rollouts, while 44% said it would be too expensive, according to a 2018 survey commissioned by digital security provider Gemalto.

Currently, only 48% of IoT project owners can remark their devices well enough to know if there has been a breach, according to the 2019 version of Gemalto’s annual survey.

Software packages that could fill in the gaps were few and far between. This is largely because securing devices aimed at industrial functions requires more memory, storage or update capability than typical IIoT/IoT devices currently have. That makes it difficult to apply security software to networks with IIoT hardware, according to Steve Hanna, senior principal at Infineon Technologies, who co-wrote an endpoint-security best-practices pilot published by the Industrial Internet consortium in 2018.

Still, the recognition is widespread that security is a problem with connected devices. Spending on IIoT/IoT-specific security will grow 25.1% per year, from $1.7 billion during 2018, to $5.2 billion by 2023, according to a 2018 market analysis report from BCC Research. Another study, by Juniper Research, predicts 300% growth by 2023, to just over $6 billion.

Since 2017, a group of companies including Cisco, Bosch, Gemalto, IBM and others beget promoted blockchain as a artery to create a tamper-proof provenance for everything from chips to gross devices. By creating an auditable history, where each recent event or change in status has to be verified by 51% of the members of the group participating in a particular ledger, it should be possible to track an individual component from point of sale to the original manufacturer to verify whether it’s been tampered with.

Blockchain too can be used to track and verify sensor data, avert duplication or the insertion of malicious data and provide ongoing verification of the identity of individual devices, according to an analysis from IBM, which promotes the exercise of blockchain in both technical and financial functions.

Use of blockchain in securing IIoT/IoT assets among those polled in Gemalto’s latest survey rose to 19%, up from 9% in 2017. And 23% of respondents said they believe blockchain is an ideal solution to secure IIoT/IoT assets.

Any security may be better than none, but some of the more Popular options don’t translate well into actual IIoT-specific security, according to Michael Chen, design for security director at Mentor, a Siemens Business.

“You beget to sight at it carefully, know what you’re trying to accomplish and what the security level is,” Chen said. “Public blockchain is Great for things enjoy the stock exchange or buying a home, because on a public blockchain with 50,000 people if you wanted to cheat you’d beget to secure more than 50% to cooperate. Securing IIoT devices, even across a supply chain, is going to be a lot smaller group, which wouldn’t be much reassurance that something was accurate. And meanwhile, we’re quiet trying to pattern out how to finish root of confidence and key management and a lot of other things that are a different and more of an immediate challenge.”

Others agree. “Using blockchain to track the current location and situation of an IoT device is probably not a ample exercise of the technology,” according to Michael Shebanow, vice president of R&D for Tensilica at Cadence. “Public ledgers are a means of securely recording information in a distributed manner. Unless there is a defined need to record location/state in that manner, then using blockchain is a very high-overhead means of doing so. In general, applications probably don’t need that level of authenticity check.”

Limitations of blockchainsEven the most robust public blockchain efforts are often less efficient than the solutions they replace. But more importantly, they don’t invent a process more secure by removing the need for trust, argues security guru Bruce Schneier, CTO of IBM Resilient.

Blockchain reduces the amount of confidence they beget to sequel in humans and requires that they confidence computers, networks and applications that may be single points of failure. By contrast, a human-driven legal system has many potential points of failure and recovery. One can invent the other more efficient, but there’s no judgement to assume that simply shifting confidence to machines, regardless of context or trait of execution, will invent anything better, Schneier wrote.

Public-ledger verification methods can be applied to many aspects of identity and supply chain for IIoT/IoT networks, according to a 2018 report from Boston Consulting Group. Only 25% of the applications BCG identified had completed the proof-of-concept phase, however, and problems such as faked or plagiarized approvals identified in cryptocurrency cases, a lack of standards, performance issues and regulatory skepticism vulgar raised doubts about its usefulness as a artery to manage basic security and authentication this early in the maturity of both the IIoT and blockchain.

“When they beget blockchain worked out for supply chain, we’ll probably beget the means to apply it to chips and IoT, but it probably doesn’t work the other way,” Chen said.

The overhead required for blockchain verifications of location or status data for thousands of devices is off-putting, and it’s much easier to identify hardware using a public/private key—especially if the private key is secured by a number identified in a physically unclonable function, Shebanow agreed. “Barring a lab attack, PUF via hardware implementation makes it nearly impossible to spoof an ID, whereas software is never 100% secure. It is virtually impossible to prove that a knotty software system has no back door.”

The bottom line: Stick with root of trust, secure boot and build from there, until there’s an efficient blockchain template for IoT.

Related StoriesBlockchain: Hype, Reality, OpportunitiesTechnology investments and rollouts are accelerating, but there is quiet plenty of latitude for innovation and improvement.IoT Device Security Makes leisurely ProgressWhile attention is being paid to security in IoT devices, quiet more must be done.Are Devices Getting More Secure?Manufacturers are paying more attention to security, but it’s not limpid whether that’s enough.Why The IIoT Is Not SecureDon’t foible the technology. This is a people problem.

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AXELOS [1 Certification Exam(s) ]
Axis [1 Certification Exam(s) ]
Banking [1 Certification Exam(s) ]
BEA [5 Certification Exam(s) ]
BICSI [2 Certification Exam(s) ]
BlackBerry [17 Certification Exam(s) ]
BlueCoat [2 Certification Exam(s) ]
Brocade [4 Certification Exam(s) ]
Business-Objects [11 Certification Exam(s) ]
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CA-Technologies [21 Certification Exam(s) ]
Certification-Board [10 Certification Exam(s) ]
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CheckPoint [41 Certification Exam(s) ]
CIDQ [1 Certification Exam(s) ]
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ComputerAssociates [6 Certification Exam(s) ]
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CPP-Institue [2 Certification Exam(s) ]
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CWNA [1 Certification Exam(s) ]
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Enterasys [13 Certification Exam(s) ]
Ericsson [5 Certification Exam(s) ]
ESPA [1 Certification Exam(s) ]
Esri [2 Certification Exam(s) ]
ExamExpress [15 Certification Exam(s) ]
Exin [40 Certification Exam(s) ]
ExtremeNetworks [3 Certification Exam(s) ]
F5-Networks [20 Certification Exam(s) ]
FCTC [2 Certification Exam(s) ]
Filemaker [9 Certification Exam(s) ]
Financial [36 Certification Exam(s) ]
Food [4 Certification Exam(s) ]
Fortinet [13 Certification Exam(s) ]
Foundry [6 Certification Exam(s) ]
FSMTB [1 Certification Exam(s) ]
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GuidanceSoftware [2 Certification Exam(s) ]
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HDI [9 Certification Exam(s) ]
Healthcare [3 Certification Exam(s) ]
HIPAA [2 Certification Exam(s) ]
Hitachi [30 Certification Exam(s) ]
Hortonworks [4 Certification Exam(s) ]
Hospitality [2 Certification Exam(s) ]
HP [750 Certification Exam(s) ]
HR [4 Certification Exam(s) ]
HRCI [1 Certification Exam(s) ]
Huawei [21 Certification Exam(s) ]
Hyperion [10 Certification Exam(s) ]
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IAHCSMM [1 Certification Exam(s) ]
IBM [1532 Certification Exam(s) ]
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ICAI [1 Certification Exam(s) ]
ICDL [6 Certification Exam(s) ]
IEEE [1 Certification Exam(s) ]
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IIA [3 Certification Exam(s) ]
IIBA [2 Certification Exam(s) ]
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Intel [2 Certification Exam(s) ]
IQN [1 Certification Exam(s) ]
IRS [1 Certification Exam(s) ]
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ISC2 [6 Certification Exam(s) ]
ISEB [24 Certification Exam(s) ]
Isilon [4 Certification Exam(s) ]
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Juniper [64 Certification Exam(s) ]
LEED [1 Certification Exam(s) ]
Legato [5 Certification Exam(s) ]
Liferay [1 Certification Exam(s) ]
Logical-Operations [1 Certification Exam(s) ]
Lotus [66 Certification Exam(s) ]
LPI [24 Certification Exam(s) ]
LSI [3 Certification Exam(s) ]
Magento [3 Certification Exam(s) ]
Maintenance [2 Certification Exam(s) ]
McAfee [8 Certification Exam(s) ]
McData [3 Certification Exam(s) ]
Medical [69 Certification Exam(s) ]
Microsoft [374 Certification Exam(s) ]
Mile2 [3 Certification Exam(s) ]
Military [1 Certification Exam(s) ]
Misc [1 Certification Exam(s) ]
Motorola [7 Certification Exam(s) ]
mySQL [4 Certification Exam(s) ]
NBSTSA [1 Certification Exam(s) ]
NCEES [2 Certification Exam(s) ]
NCIDQ [1 Certification Exam(s) ]
NCLEX [2 Certification Exam(s) ]
Network-General [12 Certification Exam(s) ]
NetworkAppliance [39 Certification Exam(s) ]
NI [1 Certification Exam(s) ]
NIELIT [1 Certification Exam(s) ]
Nokia [6 Certification Exam(s) ]
Nortel [130 Certification Exam(s) ]
Novell [37 Certification Exam(s) ]
OMG [10 Certification Exam(s) ]
Oracle [279 Certification Exam(s) ]
P&C [2 Certification Exam(s) ]
Palo-Alto [4 Certification Exam(s) ]
PARCC [1 Certification Exam(s) ]
PayPal [1 Certification Exam(s) ]
Pegasystems [12 Certification Exam(s) ]
PEOPLECERT [4 Certification Exam(s) ]
PMI [15 Certification Exam(s) ]
Polycom [2 Certification Exam(s) ]
PostgreSQL-CE [1 Certification Exam(s) ]
Prince2 [6 Certification Exam(s) ]
PRMIA [1 Certification Exam(s) ]
PsychCorp [1 Certification Exam(s) ]
PTCB [2 Certification Exam(s) ]
QAI [1 Certification Exam(s) ]
QlikView [1 Certification Exam(s) ]
Quality-Assurance [7 Certification Exam(s) ]
RACC [1 Certification Exam(s) ]
Real-Estate [1 Certification Exam(s) ]
RedHat [8 Certification Exam(s) ]
RES [5 Certification Exam(s) ]
Riverbed [8 Certification Exam(s) ]
RSA [15 Certification Exam(s) ]
Sair [8 Certification Exam(s) ]
Salesforce [5 Certification Exam(s) ]
SANS [1 Certification Exam(s) ]
SAP [98 Certification Exam(s) ]
SASInstitute [15 Certification Exam(s) ]
SAT [1 Certification Exam(s) ]
SCO [10 Certification Exam(s) ]
SCP [6 Certification Exam(s) ]
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See-Beyond [1 Certification Exam(s) ]
Siemens [1 Certification Exam(s) ]
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Social-Work-Board [4 Certification Exam(s) ]
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SUN [63 Certification Exam(s) ]
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Sybase [17 Certification Exam(s) ]
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Teacher-Certification [4 Certification Exam(s) ]
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TIA [3 Certification Exam(s) ]
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Trainers [3 Certification Exam(s) ]
Trend [1 Certification Exam(s) ]
TruSecure [1 Certification Exam(s) ]
USMLE [1 Certification Exam(s) ]
VCE [6 Certification Exam(s) ]
Veeam [2 Certification Exam(s) ]
Veritas [33 Certification Exam(s) ]
Vmware [58 Certification Exam(s) ]
Wonderlic [2 Certification Exam(s) ]
Worldatwork [2 Certification Exam(s) ]
XML-Master [3 Certification Exam(s) ]
Zend [6 Certification Exam(s) ]

References :

Dropmark : http://killexams.dropmark.com/367904/11587765
Wordpress : http://wp.me/p7SJ6L-Vv
Issu : https://issuu.com/trutrainers/docs/000-111
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weSRCH : https://www.wesrch.com/business/prpdfBU1HWO000CHAC
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publitas.com : https://view.publitas.com/trutrainers-inc/pass4sure-000-111-practice-tests-with-real-questions
Box.net : https://app.box.com/s/y8s0ia8x4a2sjctkyluk9f3zxq0es81w
zoho.com : https://docs.zoho.com/file/5ptno29d914de95544b28810055264631e8ab

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