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Capacitor hold up times in 2.5" military SSDs
where are we heading with memory intensive systems?

what does "serverless software" really mean?
Editor:- February 20, 2017 - Did you want a side of SLBS (server less BS) with your software or hardware FUD? - is the title of an amusing new blog by Greg Schulz founder StorageIO.

Editor's comments:- I'm not going to quote from Greg's blog. To see what he says you'll just have to read it.

At one and the same time it provides a funny and cuttingly serious analysis of what happens when marketers stray too far off the edge - reminiscent of looney toons.

See also:- Marketing Views
Getting acquainted with the needs of new big data apps
Editor:- February 13, 2017, 2017 - The nature of demands on storage and big memory systems has been changing.

A new slideshare - the new storage applications by Nisha Talagala, VP Engineering at Parallel Machines provides a strategic overview of the raw characteristics of dataflows which occur in new apps which involve advanced analytics, machine learning and deep learning.

It describes how these new trends differ to legacy enterprise storage patterns and discusses the convergence of RDBMS and analytics towards continuous streams of enquiries. And it shows why and where such new demands can only be satisfied by large capacity persistent memory systems.
slideshare by Parallel Systmes - memory and storage demands from new real time analytics and other new apps
Among the many interesting observations:-
  • Quality of service is different in the new apps.

    Random access is rare. Instead the data access patterns are heavily patterned and initiated by operations in some sort of array or matrix.
  • Correctness is hard to measure.

    And determinism and repeatability is not always present for streaming data. Because for example micro batch processing can produce different results depending on arrival time versus event time. (Computing the right answer too late is the wrong answer.)
Nisha concludes "Opportunities exist to significantly improve storage and memory for these use cases by understanding and exploiting their priorities and non-priorities for data." the article

SSD software news
where are we heading with memory intensive systems?
Xitore envisions NVDIMM tiered memory evolution
Editor:- February 7, 2017, 2017 - "Cache based NVDIMM architectures will be the predominant interface overtaking NVMe within the next 5-10 years in the race for performance" - is the concluding message of a recent presentation by Doug Fink , Director of Product Marketing - Xitore - Next Generation Persistent Memory Evolution - beyond the NVDIMM-N (pdf)

NVDIMM adoption and evolution paper Xitore

Among other things Doug's slides echo a theme discussed before - which is that new memory media (PCM, ReRAM, 3DXpoint) will have to compete in price and performance terms with flash based alternatives and this will slow down the adoption of the alt nvms.

Editor's comments:- Xitore (like others in the SCM DIMM wars market) is working on NVDIMM form factor based solutions and in this and an earlier paper they provide a useful summary of the classifications in this module category.

However, the wider market picture is that the retiring and retiering DRAM story cuts across form factors with many other permutations of feasible implementation possible.

So - whereas the NVDIMM is a seductively convenient form factor for systems architects to think around - the competitive market for big memory will use anything from SSDs on a chip upto (and including) populations of entire fast rackmount SSD boxes as part of such tiered solutions - if the economics, scale, interface fabric and software make the cost, performance and time to market sums emerge in a viable zone of business risk and doability.

SSD news
storage market research
RAM ain't what it used to be
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"We are morphing from a storage hierarchy to a memory hierarchy. This is why I choose to work where I do. Memory rules."
Rob Peglar, Senior VP & CTO, Symbolic IO in a comment on LinkedIn (February 2, 2017).
"A repeatable pattern has emerged. Along this journey, we found the new stack is far more common, maybe even approaching standard, across more widely varied industries than we previously imagine."
From the blog - it's time to celebrate - FlashBlade is in general availability by Pure Storage (January 25, 2017)
SCM - competing semiconductor approaches compared
Editor:- January 10, 2017 - In a new video Storage Class Memory - Reality, Opportunity, and Competition -Sang-Yun Lee, CEO - BeSang presents his analysis of the technology SWOT state of the market.

SCM video

Among other things Sang-Yun Lee (whose company offers 3D super-NOR as an alternative competing SSD and SCM technology platform) notes the weaknesses of some competing technologies:-
  • when looking at cross-point structure memories (such as Micron's 3DXpoint) - "is the worst nightmare for manufacturing"
  • when looking at NVDIMM-P (such as Diablo's Memory 1) - "performance is not predictable at all times"
Editor's comments:- In some significant areas I disagree with the finality of some of of Mr. Lee's conclusions.

For example I think that changes in system aware software can improve the usability of nand flash as DRAM. This is because I think the applications experience leans more heavily towards the elastic behavior of the entire "virtual" memory system as a working model rather than transmitting every bump in the road from the native physical memory (even when that memory is DRAM) for reasons discussed here.

Also when it comes to concern about the endurance of nand flash when used in DRAM emulation - I am satisfied that due to the variability of DRAM data churn (which follows a time and fractional data change pattern in real applications - rather than all DRAM contents being equally turbulent) and provided that the emulated data capacity is big enough (and supported by a suitably sized RAM cache ratio) then I think that flash endurance is good enough for reasons discussed here.

On the other hand - due to the fact that SCM applications currently require a great deal of characterization and testing and may require proprietary tuning - and due to the diverse nature of risk / reward attitudes in the enterprise user base (which we already see when it comes to memory systems) I expect fragmentation will occur in SCM adoption.

On the one hand there will be those who are satisfied with the risks posed by software enhanced DRAM emulation (because they have the technical resources to assess the risks and have applications which match the software supported by early SCM solutions).

And on the other hand there will be many who prefer to wait to get solutions which rely more on native hardware and rely less on the magic promised by new software data architectures.

When memory technologies change then systems designers have to invest learning time to understand the implications of competing offers. And whatever your background Sang-Yun Lee's presentation will get you thinking about many important comparative technology issues ...see the video

See also:- the SSD heresies
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A3CUBE and memory fabrics....
Editor:- January 10, 2017 - When A3CUBE started talking about supporting big memory fabrics with PCIe (in 2014) there weren't too many other choices out there.

Now in 2017 the SSD and SCM news pages are awash with announcements about big memory systems. And growing industry support for NVMe over Fabric was one of the big market developments in 2016.

We're already seeing signs of clear fragmentation in the memory fabric market (mostly via server based interface expansion preferences such as PCIe, IB and GbE but some of the memory applications are also being cannibalized by tiered memory, new semiconductor memory solutions and DIMM wars.)

In this context it was interesting to see a recent video (January 2017) from A3CUBE which shows how their PCIe connected shared memory fabric can work with NVMe components too. ...see the video
A3cube and NVMe

3DXpoint revenue
"3D cross point we've said is a very de minimis amount of revenue in -- fiscal 2017. We will ship for revenue, but it's actually a fairly small amount and then we've set the expectation for somewhere around 5% of company revenues in 2018."

Ernie Maddock, CFO - Micron (January 10, 2017) in Micron Presents at Needham Growth Conference (transcript - by

SSD ad - click for more info

"IoT storage must be distributed. You can't think about a single storage device but, on the contrary, a multitude of devices with a small amount of storage can easily be part of a large distributed storage system.

It's a compelling idea but this approach has its challenges. Thousands of nodes for just hundreds of terabytes of storage?

It means massive scalability, a lot of node rebalancing when a node disappears, complex node discovery and management that could impact performance."
Interesting ideas from the blog - Storage ready for the post cloud era - by OpenIO. (January 10, 2017)

past Januaries in SSD market history
January 2000 The world's first online ads for SSDs appeared on

The ads were for a 5.25" SCSI RAM SSD called the Clipper 2 from Curtis.

more about SSD ads
January 2001 M-Systems sampled the world's smallest 16MB single-chip flash disk, the DiskOnChip 2000 TSOP.

more about SSDs on a chip
January 2005 published results of the world's first SSD user adoption preferences survey.

more about SSD market research
January 2006 NextCom was the first notebook maker to qualify flash SSDs for use in Windows XP, Linux and Solaris notebooks.

The drives used were BiTMICRO's E-Disks.

SPARC notebook history

notebook SSD market timeline
Cadence logo - click for more info


SSD news / market research / history

controllernomics - joins the memory latency to do list

Editor:- February 20, 2017 - As predicted 8 years ago - the widespread adoption of SSDs signed the death warrant for hardware RAID controllers.

Sleight of hand tricks which seemed impressive enough to make hard drive arrays (RAID) seem fast in the 1980s - when viewed in slow motion from an impatient SSD perspective - were just too inelegant and painfully slow to be of much use in true new dynasty SSD designs.

The confidence of "SSDs everywhere" means that the data processing market is marching swiftly on - without much pause for reflection - towards memory centric technologies. And many old ideas which seemed to make sense in 1990s architecture are failing new tests of questioning sanity.

For example - is DRAM the fastest main memory?

No - not when the capacity needed doesn't fit into a small enough space.

When the first solutions of "flash as RAM" appeared in PCIe SSDs many years ago - their scope of interest was software compatibility. Now we have solutions appearing in DIMMS in the memory channel.

This is a context where software compatibility and memory latency aren't the only concerns. It's understanding the interference effects of all those other pesky controllers in the memory space.

That was one of the interesting things which emerged in a recent conversation I had with Diablo Technologies about their Memory1. See what I learned in the blog - controllernomics and user risk reward with big memory "flash as RAM"

is Toshiba salami slicing its memory heirloom?

Editor:- February 14, 2017 - Toshiba has today, again, topped mainstream media tech headlines due to the resignation of the company's chairman. In recent weeks - were I so inclined (to fan the flames of rumor) - I could have inserted some story or other about the sale of Toshiba's semiconductor business in this news page every day.

Instead I came to the conclusion that the real story was that there probably wouldn't be a single big story because the sale of the entire memory systems business to a single buyer (most likely another memory or SSD company) would inevitably introduce a delay due to antitrust hurdles. And Toshiba needs financial bandaids now.

Therefore, what we've been seeing is a fragmented approach - which on linkedin I described as "salami slicing" the memory business heirloom. Western Digital got some - but no one will get it all quickly due to caution about the impact of regulator antiacid.

SanDisk announces the arrival of flight 2.5 NVMe

Editor:- February 10, 2017 - SanDisk recently recycled the "Skyhawk" SSD brand - which had previously been associated with a rackmount SSD product (launched in October 2014) from Skyera - another SSD company - like SanDisk - which was acquired by Western Digital and by coincidence whose founder's new company emerged from stealth this week. (See the story about Tachyum after this.)

The new SanDisk Skyhawk is aimed at the 2.5" NVMe PCIe SSD market.

Although SSD brand names can be important the significant thing about SanDisk's new Skyhawk is that it fixes a longstanding strategic weakness in its enterprise PCIe SSD product line which I commented on in October 2015 (when WD announced it would acquire SanDisk).

The irony is that Fusion-io (which created the enterprise PCIe SSD market and by whose acquisition SanDisk hoped in June 2014 to broaden its flash presence in the enterprise market) had been one of the earliest companies to demonstrate a prototype 2.5" PCIe SSD (in May 2012). But Fusion didn't productize that concept and chose instead to move upscale in form factor to boxes.

Decoupling from the complex legacy of the past is why it has taken nearly 5 years for SanDisk to launch its me too Skyhawk 2.5" NVMe SSD now.

our impact could be 100x SandForce - says cofounder of Tachyum

Editor:- February 8, 2017 - Tachyum emerged from stealth mode today announcing its "mission to conquer the performance plateau in nanometer-class chips and the systems they power."

Tachyum (named for the Greek "tachy," meaning speed, combined with "-um," indicating an element) was cofounded by Dr. Radoslav "Rado" Danilak, who has invented more than 100 patents and spent more than 25 years designing state-of-the-art processing systems and delivering significant products to market.

Among other things Rado founded or cofounded 2 significant companies in SSD market history:- Skyera - an ultra efficient petabyte scale rackmount SSD company acquired by WD in 2014 - and SandForce which designed the most widely deployed SSD controllers. SandForce was acquired by LSI for $322 million in 2011 and in 2014 LSI's SSD business was acquired by Seagate.

Rado's past work in processor applications include:- at Wave Computing where he architected the 10GHz Processing Element of their deep learning DPU.

Explaining the technology void and market gap which Tachyum will focus on Rado said - "We have entered a post-Moore's Law era where performance hit a plateau, cost reduction slowed dramatically, and process node shrinks and CPU release cycles are getting longer. An innovative new approach, from first principles is the only realistic chance we have of achieving performance improvements to rival those that powered the tech industry of past decades, and the opportunity is a hundred times greater than any venture I've been involved in."

Editor's comments:- on linkedin I said "I don't know any details but with so many physics rooted data agility problems still needing to be solved anything that Rado Danilak does will be worthy of our future attention."

Rado replied - "Like always you are right on target. In fact Tachyum is 100x of SandForce opportunity and impact."

See also:- in-situ SSD processing

Memory1 beats DRAM in big data multi box analytics

Editor:- February 7, 2017 - The tangible benefits of using flash as RAM in the DIMM form factor are illustrated in a new benchmark Apache Spark Graph Performance with Memory1 (pdf) - published today by Inspur Systems (the largest server manufacturer in China) in collaboration with Diablo Technologies.

The memory intensive tests were run on the same cluster of five servers (Inspur NF5180M4, two Intel Xeon CPU E5-2683 v3 processors, 28 cores each, 256GB DRAM, 1TB NVME drive).

The servers were first configured to use only the installed DRAM to process multiple datasets. Next, the cluster was set up to run the tests on the same datasets with 2TB of Memory1 per server.

The k-core algorithm (which is typically used to analyze large amounts of data to detect cross-connectivity patterns and relationships) was run in an Apache Spark environment to analyze three graph datasets of varying sizes upto a 516GB set of 300 million vertices with 30 billion edges.

Completion times for the smallest sets were comparable. However, the medium-sized sets using Memory1 completed twice as fast as the traditional DRAM configuration (156 minutes versus 306 minutes). On the large sets, the Memory1 servers completed the job in 290 minutes, while the DRAM servers were unable to complete due to lack of memory space.

Editor's comments:- As has been noted in previously published research by others - being able to have more RAM emulation flash memory in a single server box can (in big data computing) give similar or better results than implementing the server set with more processors and more DRAM in more boxes.

This is due to the traffic controller and fabric latencies between server boxes which can negate most of the intrinsic benefits of the faster raw memory chips - if they are physically located in another box.

The key takeaway message from this benchmark is that a single Memory1 enhanced server can perform the same workload as 2 to 3 non NVDIMM enhanced servers when the size of the working data set is the limiting factor.

More useful however (as you will always find an ideal benchmark which is a good fit to the hardware) is that the Memory1 system places lower (3x lower) caching demands on the next level up in the storage system (in this case the attached NVMe SSDs). This provides a higher headroom of scalability before the SSDs themselves become the next critical bottleneck.

In their datasheet about Memory1 enhanced servers Inspur give another example of the advantages of this approach - quoting a 3 to 1 reduction in server footprint and faster job completion for a 500GB SORT.

the road to DIMM wars
are you ready to rethink RAM?
DRAM's indeterminate latencies

who's well regarded in networked storage?

Editor:- February 1, 2017, 2017 - IT Brand Pulse today announced the results of its recent survey covering brand perceptions in the networked storage market.

Among other things:- "By nearly a 2-to-1 margin, Seagate, outperformed second-place challenger (Western Digital) to capture its 5th Market Leader award for Enterprise HDDs.)" the article

See also:- Branding Strategies in the SSD Market, Storage SoothSayers

Violin Memory

Editor:- January 30, 2017 - A report on LAW360 provides an interim update on the bankruptcy auction for Violin Memory and says Violin's assets were valued "at least $14.5 million".

Editor's comments:- This is a humbling end for a company whose CEO said 6 years ago that he hoped to build a billion dollar company.

You can read more about Violin's past and the highs and lows and what was said at the time in history sections of Violin's company profile page here in

Toshiba's semiconductor business rescues company

Editor:- January 25, 2017 - Toshiba was featured in the mainstream news media last week due to losses by its US nuclear power business which had been responsible for halving the value of shares in the company. Reports that Toshiba's financial fix centered around selling part of its semiconductor business to Western Digital got a good reaction from markets.

Datrium celebrates one year of NVMe flash difference in its open converged platform

Editor:- January 24, 2017 - A recent press release from Datrium - celebrating one year of supporting NVMe SSDs within its high availability open convergence server storage (software) platform - DVX (pdf) - discusses bottlenecks which are inherent in legacy rooted storage architectures in AFAs which are implemented by SAS or SATA SSDs in comparison to native NVMe SSDs.

"The benefit of NVMe drives - blistering performance - is unavailable on most storage arrays today for two reasons. First, an array or hyperconverged design cycle can only adopt new drive connectivity approaches at a certain rate. As a rigid, composed system, it takes time. Second, successful flash array vendors depend on data reduction to optimize pricing. This means the controller CPU must filter data inline, which adds delay. The benefits of NVMe are subsequently small because the benefits over SAS links are bottlenecked by CPU cycles beforehand."

Editor's comments:- The message of the company seems to be that whereas modern flash storage systems undeniably have done a great job at reducing infrastructure costs (compared to old style HDD systems) there is still much more performance and utilization which can be extracted from COTS servers and SSDs when they're working in a modern architecture with modern software. See their 2 minute video for the key claimed gain factors.

The extent of this next level up in performance, utilization and efficiency (as an industry aspiration) was part of what I was hinting at in my 2013 article - meet Ken - and the enterprise SSD software event horizon.

Primary Data gets ready to expand sales

Editor:- January 20, 2017 - Primary Data today announced that Robert Wilson has joined the company as the company's new Head of Sales. He previously had VP level sales roles for Pivot3 , EMC and Fusion-io (among others).

Wilson said - "With flash and cloud storage now common, and only so much innovation ahead in appliances, many in the storage industry are wondering what technology breakthrough is coming next."

NVMe now, NVDIMM coming - says Web-Feet Research

Editor:- January 16, 2017 - Web-Feet Research today announced it has released the 12th annual edition of its SSD market reports - SSD Markets and Applications 2017 ($5,500) - which concentrates on the enterprise market with the emergence of PCIe, NVMe (U.2 and M.2) and NVDIMM SSDs as well as quantifying the client and commercial markets. It addresses the difficulty of migrating from HDD to SSD and to Hybrid and All Flash storage systems while advancing the 'intelligent processing' of memory and storage.

Alan Niebel , CEO - Web-Feet Research says (among other things)

click here to see our directory of SSD market analysts
SSD Market Analysts
"With the adoption of new interfaces like NVMe and the Memory Channel, and embracing emerging media like 3D NAND and Persistent Memory (ReRAM / XPoint) the industry is undergoing a transformation. The old computing storage model is unable to keep up with the amount of data needed to be stored. It needs to merge storage into memory in order to process in real time more complex data, diverse data types and much higher volume of data anticipated through 2021.

"Even though NAND-Flash based SSDs perform at several orders of magnitude higher than hard-disk-drives they suffer from the same non-deterministic inadequacies as compared to solutions based on XPoint memory. Flash memory based SSDs suffer the indeterminate delay inserted by the Flash Translation Layer in its production of the of physical block addresses. This is one reason that All-Flash-Array architects like Pure Storage desire additional physical control at the FTL. Additional storage system functions such as deduplication, compression, error coding, power-on fill, data recovery ops, check pointing, and scrubbing are further accelerated by this approach.."

Crossbar samples 8Mb ReRAM

Editor:- January 12, 2017 - A report in EE Times Europe - Crossbar ReRAM in production at SMIC - says that Crossbar is sampling 8Mb ReRAM (its byte writable alt nvm) with R/W latency about 20nS and 12nS respectively and endurance north of 100K cycles.

The 8Mb chips use 40nm CMOS processing and the company plans to offer its nvm IP as cores which can be integrated in SoCs so as to make best use of the low latency.

Crossbar told EE Times Europe that the early customers would be characterizing the new memory and assessing its reliability. This is an important hurdle for any new memory technology to cross before designers can have the confidence to integrate them into commercial products. the article

NVDIMM market report

Editor:- January 11, 2017 - The NVDIMM market is estimated to grow at 64% CAGR over the course of 2016 to 2020 according to 9Dimen Research who recently published a report Global NVDIMM Industry 2016, Trends and Forecast Report ($2,850, 153 pages).

See also:- who's who in storage market research?

Another $75 million to support Kaminario's business outlook

Editor:- January 10, 2017 - Kaminario today announced it has secured $75 million in a new round of financing, bringing the company's total funding to $218 million.

image shows mouse at the one armed bandit - click to see VC funds in storage
VCs in SSDs
The company which is privately owned and doesn't disclose revenue says "Hundreds of customers rely on Kaminario K2 to power their mission critical applications and safeguard their digital ecosystem."

Editor's comments:- Kaminario has changed the internal make up of its flash drives (form factors, interfaces and components) in its arrays many times and has said in the past that its systems are based on an SDS model.

Today's news of continuing investment in the company seems to be a bet that whatever the consolodated enterprise memory systems market of the future might look like any vendor which can grow its sales through multiple transitions of raw technology uncertainty is valued.

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rackmount SSDs
In June 2012 - when writing about Kaminario's long range philosophy about the SSD market I said they were a rare example of a systems company which had good roadmap symmetry (having an architecture and software which was not closely tied to the advantages of any particular memory type or SSD form factor - but which could plausibly leverage future market improvements in SSDs with smaller bumps than vendors who had over optimized their systems to leverage transient technology spikes).

This is as much about choosing the customers, applications and segments as designing the business plan. Because some customer segments are so price and performance sensitive that only well adapted memory systems can compete and sell in such applications.

It always comes back to marketing in the end.

Foremay fires patent warning post about flash data destruct spikes

Editor:- January 10, 2017 - If you're seriously interested in data security in SSDs you'll already know that encryption is simply a promise to delay access to secured data rather than a guarantee that it will remain denied to those who shouldn't see it. That's why the SSD fast purge / autonomous data destruct / fast secure erase market has developed so many ingenious ways to offer better security assurance - which you can pick to match your deployment's time to erase, electrical power to erase and monetary cost budget.

Fast Purge flash SSDs directory & articles
fast purge SSDs
I noticed a new post on linkedin by Dennis Eodice VP Strategic Sales - Foremay - who says the company has a patent - 9,317,422 - for a technique which physically destroys the nand flash in an SSD using addressibly directed high voltage.

The implied message being that if any other companies have used similar techniques to secure SSDs which are sold in other regions - Foremay thinks this patent is enforceable to prevent this technique being used in competing SSDs sold in the US.

How do banks use big memory systems to detect fraud?

Editor:- January 9, 2017 - In the early 2000s I started hearing stories from vendors of ultrafast SSDs about how their fast memory systems were helping banks to not only ease the choke points in their transactions but also provide insights into fraud prevention.

A new white paper GridGain Systems provides a good introduction and synthesis of the various roles of in-memory computing in accelerating financial fraud detection and prevention (pdf) which includes many named bank examples.

storage security articles and news
This paper describes how in memory computing provides the low latency data sharing backbone which is needed to enable pattern detection for fradulent activity to be assessed in real-time while at the same time enabling genuine transactions to proceed quicky.

Among other things, the paper says...

"The move from disk to memory is a key factor in improving performance. However, simply moving to memory is not sufficient to guarantee the extremely high memory processing speeds needed at the enterprise level... Clients who have implemented the GridGain In-Memory Data Fabric to detect and prevent fraud in their transactions have found that they can process those transactions about 1,000 times faster." the article (pdf)

NVMdurance names new CMO

Editor:- January 9, 2017 - NVMdurance today announced that Kevin Kilbuck has been appointed as Chief Marketing Officer.

Kevin, who had previously been Director of Marketing at Micron, said - "We are at the tip of the iceberg of the flash disruption in storage, and NVMdurance is providing unique solutions to enable this."

BCC predicts $850 million market for carbon based NRAM in 2023

Editor:- January 9, 2017 - BCC Research recently announced a report - is NRAM Creating Market Volatility? - which among other things - predicts the size of the NRAM market based on technology developed by Nantero.

storage market research
market research
In the preamble BCC says...

"Can you give us a small peek at why NRAM will hold the advantage vs. Flash, SRAM and DRAM in the coming years? - The key word is breakthrough. With NRAM we depart the world of silicon and embrace cell phones, laptops and even an internet, that is increasingly going to become carbon based organisms. Smaller components that work faster but require less energy are absolute winners."

See also:- flash and alt nvms

SSD article in Military and Aerospace Electronics

Editor:- January 4, 2017 - If you're interested in military SSDs and mil SSD companies then a recent article - security and solid-state media driving data storage in the December edition of Military and Aerospace Electronics includes comments from various companies in the market. Among other things the article says...

"Today almost all aerospace and defense data storage for deployed applications have moved to solid state memory." the article

See also:- SSD market history, User Value Propositions for buying SSDs (2005)

Persistent Memory Summit - what's coming?

Editor:- January 3, 2017 - This is usually the time of year we'd be looking out for announcements from the Storage Visions conference - which for 15 years had been co-sited with CES. That link has now been cut with Storage Visions 2017 now taking place in October.

This decoupling makes sense when you consider that most of the innovations in the storage market have been coming from the cloud and enterprise markets rather then the consumer market.

If you're looking for a flagship event in January - consider instead the 2017 Persistent Memory Summit - (January 18, 2017, San Jose, CA).

Among the topics as you might expect from any standards org event (this event being run by SNIA) will be a presentation called - Rethinking Benchmarks for Non-Volatile Memory Storage Systems.

The need for a "goodness" or "aptness" standard for non DRAM based memory systems and components is something I discussed in an earlier news blog - is it realistic to talk about memory IOPS? (August 2016).

At the root of such a new standard will be how do you get agreements on latency zoning for different zones of temporary data?

I think a key factor on the usability of big memory emulation (even in a flattened latency world where all storage is solid state) is that different parts of the memory contents change more often than others. So even after you've figured out the best ways to cache and tier the memory systems - the experience of memory is still very application and infrastructure dependent.

My guess is that if new standards for memory systems benchmarks do emerge then they will follow the same patterns of abuse that we've seen in the past with MIPS, MFLOPS, SPECint/fp/marks and IOPS. And that will give the tech writers something to write about for years.
What happened before?

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Michelangelo found David inside a rock.
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after AFAs? - the next box
Editor:- January 24, 2017 - Throughout the history of the data storage market we've always expected the capacity of enterprise user memory systems to be much smaller than the capacity of all the other attached storage in the same data processing environment.

after AFAs - click to read rhe articleA new blog on the home page of - cloud adapted memory systems - asks (among other things) if this will always be true.

Like many of you - I've been thinking a lot about the evolution of memory technologies and data architectures in the past year. I wasn't sure when would be the best time to share my thoughts about this one. But the timing seems right now. the article

AccelStor NeoSapphire  all-flash array
1U enterprise flash arrays
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"...flash has been doing a great job for almost a decade now. Piece by piece it's been whittling away high end hard drive sales. This has had the domino effect of reducing both R&D spend by HDD manufacturers as well as investment in production facilities. It is generally accepted that 2017 will be the last year 15K RPM drives are produced, and that 2018 will probably see the last of the 10K RPM drives."
Says Trevor Pott in his blog - the Looming Storage Crisis - on (January 31, 2017).

Trevor has a column the Cranky Admin where in another recent blog - Overcoming the RAM Bottleneck he discusses software methods - supported in hypervisors - which can reduce the amount of physical RAM needed.

Targa Series 4 - 2.5 inch SCSI flash disk
2.5" removable military SSDs
for airborne apps - GbE / SATA / USB
from Targa Systems

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RAM has changed from being tied to a physical component to being a virtualized systems software idea - and the concept of RAM even stretches to a multi-cabinet memory fabric.
what's RAM really? - RAM in an SSD context

industrial mSATA SSD
industrial grade mSATA SSDs
>2 million write cycles per logical block.
from Cactus Technologies

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All the marketing noise coming from the DIMM wars market (flash as RAM and Optane etc) obscures some important underlying strategic and philosophical questions about the future of SSD.
where are we heading with memory intensive systems?

I think it's not too strong to say that the enterprise PCIe SSD market (as we once knew it) has exploded and fragmented into many different directions.
what's changed in enterprise PCIe SSD?
12 months of headlines
December 2016 Violin seeks bankruptcy protection.
November 2016 Silicon Motion announced the "world's first merchant SD 5.1 controller solution."
October 2016 Rambus announced it is exploring the use of Xilinx FPGAs in its Smart Data Acceleration research program.
September 2016 Everspin files for IPO to expand MRAM
August 2016 Seagate previews 60TB 3.5" SAS SSD

Nimbus demonstrates 4PB 4U HA AFA at FMS
July 2016 Diablo announces volume availability of its Memory1 128GB DDR4 DIMM
June 2016 Pure said its AFA revenue in Q1 2016 was more than leading HDD array brand
May 2016 efficiently coded memory architecture unveiled in systems by Symbolic IO

Encrip announces tri-state coded DRAM IP which can be used with any standard process
April 2016 Samsung began mass producing the industry's first 10nm class 8Gb DDR4 DRAM chips
March 2016 New funding for endurance stretching NVMdurance

Cadence and Mellanox demonstrate PCIe 4.0 interoperability at 16Gbps.
February 2016 It's not worth paying more for SLC reliability in PCIe SSDs says Google field study
January 2016 Quarch says many SSDs fail their first hot plug tests.

Plexistor announces availability of its Software Defined Memory

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