Winter has arrived here in the northern hemisphere and it is also the last day of 2015 e.g. End Of Year or EOY). For some this means relaxing and having fun after a busy year, for others, it’s the last day of the most important quarter of the most important year ever, particular if you are involved in sales or spending.
This is also that time of year where predictions for 2016 will start streaming out as well as reflections looking back at 2015 appear (more on these in January). Another EOY activity is planning for 2016 as well as getting items ready for roll-out or launch in the new year. Overall 2015 has been a very good year with many things in the works both public facing, as well as several behind the scenes some of which will start to appear throughout 2016.
Enjoy this abbreviated edition of the Server StorageIO update newsletter and watch for new tips, articles, predictions, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.
Thank you for enabling a successful 2015 and wishing you all a prosperous new year in 2016.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Hello and welcome to this November 2015 Server StorageIO update newsletter. Winter has arrived here in the northern hemisphere, although technically its still fall until the winter solstice in December. Regardless of if summer or winter depending on which hemisphere you are, 2015 is about to wrap up meaning end of year (EOY) activities.
EOY activities can mean final shopping or acquisitions for technology and services or simply for home and fun. This is also that time of year where predictions for 2016 will start streaming out as well as reflections looking back at 2015 appear (lets save those for December ;). Another EOY activity is planning for 2016 as well as getting items ready for roll-out or launch in the new year. Needless to say there is a lot going on so with that, enjoy this edition of the Server StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.
Recent Server StorageIO articles appearing in different venues include:
Virtual Blocks (VMware Blogs): EVO:RAIL Part II – Why And When To Use It? This is the second of a multi-part series looking at Converged Infrastructures (CI), Hyper-Converged Infrastructures (HCI), Cluster in Box (CiB) and other unified solution bundles. There is a trend of industry adoption talking about CI, HCI, CiB and other bundled solutions, along with growing IT customer adoption and deployment. Different sized organizations are looking at various types of CI solutions to meet various application and workloads needs. Read more here and part I here.
TheFibreChannel.com: Industry Analyst Interview: Greg Schulz, StorageIO In part one of a two part article series, Frank Berry, storage industry analyst and Founder of IT Brand Pulse and editor of TheFibreChannel.com, recently spoke with StorageIO Founder Greg Schulz about Fibre Channel SAN integration with OpenStack, why Rackspace is using Fibre Channel and more. Read more here
CloudComputingAdmin.com: Cloud Storage Decision Making – Using Microsoft Azure for cloud storage Let’s say that you have been tasked with, or decided that it is time to use (or try) public cloud storage such as Microsoft Azure. Ok, now what do you do and what decisions need to be made? Keep in mind that Microsoft Azure like many other popular public clouds provides many different services available for fee (subscription) along with free trials. These services include applications, compute, networking, storage along with development and management platform tools. Read more here.
Check out these resources and links technology, techniques, trends as well as tools. View more tips and articles here
The following are various recommended reading including books, blogs and videos. If you have not done so recently, also check out the Intel Recommended Reading List (here) where you will also find a couple of my books.
In case you had not heard, Microsoft recently released the bits (e.g. software download) for Windows Server 2016 Technical Preview 4 (TP4). TP4 is the successor to Technical Preview 3 (TP3) that was released this past August and is the most recent public preview version of the next Windows Server. TP4 adds a new tiering capability where Windows and storage spaces can cache and migrate data between Hard Disk Drives (HDD) and Non-Volatile Memory (NVM) including flash SSD. The new tiering feature supports a mixed HDD and NVM with flash SSD (including NVM Express or NVMe), as well as an all NVM scenario. Yes, that is correct, tiering with all NVM is not a type, instead enables using lower latency faster NVM along with lower cost higher capacity flash SSD. Learn more about what’s in TP4 from a server and storage I/O perspective in this Microsoft post, as well as more about S2D in this Microsoft Technet post here and here. You can get the Windows Server 2016 TP4 bits here which are already running in the Server StorageIO lab.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Welcome to NVMe place NVM Non Volatile Memory Express Resources. NVMe place is about Non Volatile Memory (NVM) Express (NVMe) with Industry Trends Perspectives, Tips, Tools, Techniques, Technologies, News and other information.
Disclaimer
Please note that this NVMe place resources site is independent of the industry trade and promoters group NVM Express, Inc. (e.g. www.nvmexpress.org). NVM Express, Inc. is the sole owner of the NVM Express specifications and trademarks.
Image used with permission of NVM Express, Inc.
Visit the NVM Express industry promoters site here to learn more about their members, news, events, product information, software driver downloads, and other useful NVMe resources content.
The NVMe Place resources and NVM including SCM, PMEM, Flash
NVMe place includes Non Volatile Memory (NVM) including nand flash, storage class memories (SCM), persistent memories (PM) are storage memory mediums while NVM Express (NVMe) is an interface for accessing NVM. This NVMe resources page is a companion to The SSD Place which has a broader Non Volatile Memory (NVM) focus including flash among other SSD topics. NVMe is a new server storage I/O access method and protocol for fast access to NVM based storage and memory technologies. NVMe is an alternative to existing block based server storage I/O access protocols such as AHCI/SATA and SCSI/SAS devices commonly used for access Hard Disk Drives (HDD) along with SSD among other things.
Comparing AHCI/SATA, SCSI/SAS and NVMe all of which can coexist to address different needs.
Leveraging the standard PCIe hardware interface, NVMe based devices (that have an NVMe controller) can be accessed via various operating systems (and hypervisors such as VMware ESXi) with both in the box drivers or optional third-party device drivers. Devices that support NVMe can be 2.5″ drive format packaged that use a converged 8637/8639 connector (e.g. PCIe x4) coexisting with SAS and SATA devices as well as being add-in card (AIC) PCIe cards supporting x4, x8 and other implementations. Initially, NVMe is being positioned as a back-end to servers (or storage systems) interface for accessing fast flash and other NVM based devices.
NVMe as a “back-end” I/O interface for NVM storage media
NVMe as a “front-end” interface for servers or storage systems/appliances
NVMe has also been shown to work over low latency, high-speed RDMA based network interfaces including RoCE (RDMA over Converged Ethernet) and InfiniBand (read more here, here and here involving Mangstor, Mellanox and PMC among others). What this means is that like SCSI based SAS which can be both a back-end drive (HDD, SSD, etc) access protocol and interface, NVMe can also being used for back-end can also be used as a front-end of server to storage interface like how Fibre Channel SCSI_Protocol (aka FCP), SCSI based iSCSI, SCSI RDMA Protocol via InfiniBand (among others) are used.
NVMe features
Main features of NVMe include among others:
Lower latency due to improve drivers and increased queues (and queue sizes)
Lower CPU used to handle larger number of I/Os (more CPU available for useful work)
Higher I/O activity rates (IOPs) to boost productivity unlock value of fast flash and NVM
Bandwidth improvements leveraging various fast PCIe interface and available lanes
Dual-pathing of devices like what is available with dual-path SAS devices
Unlock the value of more cores per processor socket and software threads (productivity)
Various packaging options, deployment scenarios and configuration options
Appears as a standard storage device on most operating systems
Plug-play with in-box drivers on many popular operating systems and hypervisors
NVMe and shared PCIe (e.g. shared PCIe flash DAS)
NVMe related content and links
The following are some of my tips, articles, blog posts, presentations and other content, along with material from others pertaining to NVMe. Keep in mind that the question should not be if NVMe is in your future, rather when, where, with what, from whom and how much of it will be used as well as how it will be used.
MSP CMG, Sept. 2014 Presentation (Flash back to reality – Myths and Realities – Flash and SSD Industry trends perspectives plus benchmarking tips)– PDF
Non-Volatile Memory (NVM) Express (NVMe) continues to evolve as a technology for enabling and improving server storage I/O for NVM including nand flash SSD storage. NVMe streamline performance enabling more work to be done (e.g. IOPs), data to be moved (bandwidth) at a lower response time using less CPU.
The above figure is a quick look comparing nand flash SSD being accessed via SATA III (6Gbps) on the left and NVMe (x4) on the right. As with any server storage I/O performance comparisons there are many variables and take them with a grain of salt. While IOPs and bandwidth are often discussed, keep in mind that with the new protocol, drivers and device controllers with NVMe that streamline I/O less CPU is needed.
Additional NVMe Resources
Also check out the Server StorageIO companion micro sites landing pages including thessdplace.com (SSD focus), data protection diaries (backup, BC/DR/HA and related topics), cloud and object storage, and server storage I/O performance and benchmarking here.
If you are in to the real bits and bytes details such as at device driver level content check out the Linux NVMe reflector forum. The linux-nvme forum is a good source if you are developer to stay up on what is happening in and around device driver and associated topics.
Disclaimer: Please note that this site is independent of the industry trade and promoters group NVM Express, Inc. (e.g. www.nvmexpress.org). NVM Express, Inc. is the sole owner of the NVM Express specifications and trademarks. Check out the NVM Express industry promoters site here to learn more about their members, news, events, product information, software driver downloads, and other useful NVMe resources content.
Image used with permission of NVM Express, Inc.
Wrap Up
Watch for updates with more content, links and NVMe resources to be added here soon.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO. All Rights Reserved. StorageIO is a registered Trade Mark (TM) of Server StorageIO.
Hello and welcome to this October 2015 Server StorageIO update newsletter. Fall has arrived here in the northern hemisphere which means its spring in the southern hemisphere, and getting colder here. While fall means cooler out-door temperature with winter just around the corner, in the IT/ITC industry, particular the data infrastructure sector (server, storage, I/O networking, hardware, software, cloud, physical, software defined virtual) things are very hot. Sure the various industry and vendor focused conferences, road shows and mini-events with associated new product, technology or services announcements (PTSA. There are also the various merger and acquisitions (M&A) that have occurred throughout the year including the recent Dell buying EMC, and Western Digital (WD) buying SANdisk among others.
This edition of the Server StorageIO update newsletter has a focus on industry trends perspectives including recent M&A and PTSA activity. In addition to industry fall industry M&A and PTSA activity, there also plenty of conference, seminars, workshops, webinars and other events some of which you can see here on the Server StorageIO events page.
On a slightly different note, for those interested and not aware of the European Union (EU) ruling earlier this month on data privacy (e.g. Safe Harbor), here and here are a couple of links to stories discussing the new ruling changes between the EU and US (among other countries). The EU data privacy rulings involve personal data being moved out of EU countries to US data centers such as cloud and application services firms.
Enjoy this edition of the Server StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.
HDD and SSD manufacturer WD buying SANdisk for $19B USD following their acquisition earlier this year of Amplidata (Object Storage) and earlier bought HDD and SSD manufacturer HGST along with SSD PCIe card vendor Virident and STEC among others.
Pure Storage (all flash array aka AFA SSD vendor) does an IPO (here and here).
Continue reading more about NVM, NVMe, NAND flash, SSD Server and storage I/O related topics at www.thessdplace.com as well as about I/O performance, monitoring and benchmarking tools at www.storageperformance.us.
Some new Products Technology Services Announcements (PTSA) include:
Amazon Web Service (AWS) Simple Storage Service (S3) Infrequent Access (IA) storage class for inactive data with immediate access vs. Glacier cold or frozen (dormant) data with slow or time delayed access. AWS also announced Snowball bulk data import/export 50TB appliance service in addition to their earlier offered capabilities.
Microsoft Azure recent enhancements include file access of cloud storage (on-premises and within Azure cloud) leveraging SMB interfaces. Here is a primer on Azure cloud storage service offerings. View other recent Azure Cloud Storage, Compute, Database and Data Analytics service offerings here. In addition to Microsoft Azure cloud offerings or Windows 10 desktop operating system, you can also download WIndows Server 2016 Technical Preview 3 (TP3) and see what’s new here. Some of the features include Storage Spaces Direct (e.g. DAS storage) and replication among other features.
Recent Server StorageIO articles appearing in different venues include:
Virtual Blocks (VMware Blogs): EVO:RAIL – What Is It And Why Does It Matter? This is the first of a multi-part series looking at Converged Infrastructures (CI), Hyper-Converged Infrastructures (HCI), Cluster in Box (CiB) and other unified solution bundles. There is a trend of industry adoption talking about CI, HCI, CiB and other bundled solutions, along with growing IT customer adoption and deployment. Different sized organizations are looking at various types of CI solutions to meet various application and workloads needs. Read more here.
WServerNews.com: Cloud (Microsoft Azure) storage considerations Let’s say that you have been tasked with, or decided that it is time to use (or try) public cloud storage such as Microsoft Azure. Ok, now what do you do and what decisions need to be made? Keep in mind that Microsoft Azure like many other popular public clouds provides many difference services available for fee (subscription) along with free trials. These services include applications, compute, networking, storage along with development and management platform tools. Read more here.
NetworkComputing: Selecting Storage: Buzzword Bingo The storage industry is rife with buzzwords. Here are some of the popular ones storage buyers need to navigate carefully to find storage products that truly meet their needs. Read more here.
InfoStor: What’s The Best Storage Benchmark? It Depends…
EnterpriseStorageForum: NAND, DRAM, SAS/SCSI & SATA/AHCI: Not Dead, Yet!
Check out these resources and links technology, techniques, trends as well as tools. View more tips and articles here
October 13 – Symposium: Software Defined Storage Management October 14 – Server Storage I/O Fundamental Trends October 15 – Symposium – Data Center Infrastructure Management (DCIM) October 16 – “Converged Day” Server and Storage Decision making
September 23 – Webinar Redmond Magazine & Dell Data Protection The New World Order of Data Protection – Focus on Recovery Learn more about the 9Rs of data protection and recovery
Non-Volatile Memory (NVM) Express (NVMe) continues to evolve as a technology for enabling and improving server storage I/O for NVM including nand flash SSD storage. NVMe streamlines performance enabling more work to be done (e.g. IOPs), data to be moved (bandwidth) at a lower response time using less CPU. The above figure is a quick look comparing nand flash SSD being accessed via SATA III (6Gbps) on the left and NVMe (x4) on the right. As with any server storage I/O performance comparisons there are many variables and take them with a grain of salt. While IOPs and bandwidth are often discussed, keep in mind that with the new protocol, drivers and device controllers with NVMe that streamline I/O less CPU is needed. Learn more about NVM, NVMe, flash, SSD and related topics at www.thessdplace.com.
The following are various recommended reading including books, blogs and videos. If you have not done so recently, also check out the Intel Recommended Reading List (here) where you will also find a couple of my books.
The Human Face of Big Data book review. To say this is a big book would be an understatement, then again, big data is a big topic with a lot of diversity if you open your eyes and think in a pragmatic way, which once you open and see the pages you will see. This is physically a big book (11x 14 inches) with lots of pictures, texts, stories, factoids and thought stimulating information of the many facets and dimensions of big data across 224 pages. The Human Face of Big Data is more than a coffee table or picture book as it is full of with information, factoids and perspectives how information and data surround us every day. Open up a copy of The Human Face of Big Data and you will see examples of how data and information are all around us, and our dependence upon it. Read more here.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Dude, Dell is Getting (Buying) an EMC and VMware Deal
Some of you might remember the marketing campaign "Dude you’re getting a Dell" to show somebody buying a Dell computer.
Today, Dell as in Michael Dell and his corporation Dell along with partner Silver Lake investment announced a $67B USD deal that they are acquiring EMC along with their stake in VMware which will stay an independently public traded company. Dell brings strength in small and medium-mid market strength and supplier to cloud and other managed service providers, Dell financing combines with EMC strength and enterprise portfolio. This deal also reunites the two parties who before had a strong storage joint venture with Dell OEMing EMC storage for about a decade before going their separate ways in the late 2000s.
Key points
Privately held Dell is acquiring EMC and its various business units
VMware will stay independent public company with Dell as major owner
EMC based in Hopkinton Massachusetts will be headquarters for new Dell Systems Business Unit
Dell Systems Business Unit will also be headquarters for Dell servers
New Dell Systems Business Unit joint with EMC is expected to be a $30B USD plus sized entity
Dell see’s revenue synergies of about 3x over 1x cost of the combined entities
Dell see’s ability to generate cash to service debt coming from increased revenue growth
EMC global support, professional services, consulting to complement Dell capabilities
Ability for both partners to leverage their best of strengths from SMB to enterprise to cloud
What this means big picture
Basically EMC has gone private under the Dell umbrella while VMware remains an independent publicly traded company, granted with EMC and now Dell being the primary shareholder of that entity. Dell went private back in 2013 with its founder Michael Dell along with Silver Lake Partners as key investors. EMC has been under pressure from activist investors to sell off its investment in VMware to increase shareholder and was rumored to have been in acquisition discussions with other organizations such as HP. Now EMC (e.g. the non-VMware part) is effectively a private held company as the Dell Systems Business Unit to be initially headquartered in Hopkinton Massachusetts (EMC Headquarters) while Dell Corporation headquarters will remain in Austin Texas.
The server business will be based in Hopkinton, which will be targeted at around a $30B USD business. Ironic that Massachusetts used to be a focus for server vendors from Dell (acquired by Compaq and then HP), Wang, DG (acquired by EMC) among others. This transaction puts Massachusetts back on the map as the Dell System Business Unit will also now be home to Dell servers. As of the announcement, there is an expectation that the Hopkinton headquarters will grow vs. shrink. Granted., some consolidation can be expected.
Some questions that exist (among many others)
What about Pivotal?
One of the questions I have is that during the announcement discussions, not much if anything has been said about Pivotal and its future role or how it will be folded in, or set up as a tracking stock or similar activity. Also something to keep in mind as food for thought, or speculation, is that GE is an investor in Pivotal and GE has made noise about becoming more prominent player in software, just saying. In the meantime, let’s wait and see what happens with Pivotal.
What about Lenovo relationship?
After the last Dell breakup, EMC established a partnership and initiative with Lenovo to jointly produce servers that had been being sourced from Dell or others, as well as EMC moving its Iomega SMB storage business into the Lenovo initiative. Note that about a year ago Lenovo bought the former IBM x86 server business. What will become of that partnership for servers, as well as for Iomega moving forward?
How will product rationalization occur?
There is some product overlap in the storage business, as well as backup/data protection among some other areas. However looking at the bigger picture, there is not much if any overlap. Where there is overlap, one near-term approach that might (this is speculation) occur is to segment potential competing products into Enterprise and Systems business vs. SMB or entry-level. This could occur for storage products such as Dell Compellent, Exanet based Fluid NAS, EqualLogic and MD (OEM from NetApp) vs. those from EMC such as VMAX, VNX, Isilon, XtremIO, Datadomain among others. Likewise, there will need to be some rationalization for backup and data protection products such as EMC Networker, Avamar vs. Dell AppAssure, vRanger, NetVault as well as their OEM partners Commvault and Symantec among others.
VCE gets leveraged as part of go to market?
EMC took over ownership of VCE in 2014 with Cisco still involved, in fact if a product has Vblock in its name, it will be a Cisco server and network. However look for other VCE solutions to appear as well as the VxRACK announced earlier this year. I would expect new converge infrastructure (CI), hyper-converged infrastructure (HCI) and Cluster-in-Box (CiB) solutions from VCE that would include Dell servers in the future leveraging different software (VMware among others).
How will Dell OEM business drive things?
Dell has had a server OEM business that has supplied technology to others, including in the past EMC. This business moves in under the new System Business Unit as part of what is or was EMC. Beyond servers, it will be interesting to see how that business unit can also move other technologies into the OEM or high volume market including to cloud and managed service providers who buy in bulk.
Will this cause Cisco an EMC partner to buy another storage vendor?
Maybe, that depends on what Cisco wants to do moving forward in addition to remaining a partner with EMC. Of course, if Cisco were to go storage shopping, who would that be? Perhaps DDN, Nimble or NetApp?
With Michael Dell now having done one of, if not the largest tech deals in history, how will Larry Ellison of Oracle react?
It has been said that the difference between God and Larry Ellison is that God was not interested in becoming Larry Ellison, however, is Larry Ellison still interested in industry bragging rights meaning will he want to do a big block buster deal involving Oracle to get some headlines, or enjoy his semi-retirement, perhaps buying a bankrupt country or something?
Certainly there are many more questions about server, storage, I/O networking, cloud, virtual, software, hardware, security and management tools along with service and support that will get addressed in follow-up discussions.
Near term, the combined entity needs to get out front and sell to customers, partners and prospects that EMC is not going away, or that Dell is going to get in the way of existing business. The two need to run as is pursuing and closing each others respective business making sure that competitors do not create barriers to deals closing and disrupting revenue. In other words, neither Dell nor EMC can afford to foster a revenue prevention department now, nor can either afford to allow any other competitor to become a revenue prevention department as a service (e.g. costing either EMC or Dell revenue).
Overall this deal has some interesting upside synergies and potential, granted, we will need to see how things unfold.
Disclosure: Dell and EMC have been Server StorageIO clients, and StorageIO uses Dell as well as Lenovo servers among others technologies including VMware.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO All Rights Reserved
Hello and welcome to this September 2015 Server StorageIO update newsletter. Summer has wrapped up here in the northern hemisphere which means the fall conference season has started. In addition to large conferences, there are also many smaller events including the sessions I will be doing in Nijkerk Holland week of October 13-16, along with others (in-person and on-line) throughout the fall.
Enjoy this edition of the Server StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.
Recent Server StorageIO articles appearing in different venues include:
NetworkComputing: Selecting Storage: It’s All About The Applications Choosing the right storage for your applications depends on using the PACE model, evaluating Performance, Availability, Capacity and Economics (e.g. PACE). Often when I discuss mainstream applications with people, the perception is that bandwidth only applies to big data and analytics, video, and high-performance compute (HPC) or supercomputing applications such as those used in the seismic, geo, energy, video security surveillance, or entertainment industries. The reality is that those applications can be bandwidth or throughput intensive, but they can also need a large number of small I/Os that need many IOPs to handle metadata related processing. Even bulk storage repositories for archiving, solutions using scale-out NAS, and object storage have a mix of IOPs and bandwidth. Read more here.
EnterpriseStorageForum: NAND, DRAM, SAS/SCSI and SATA/AHCI: Not Dead, Yet
Manufacturers are coming out with new non-volatile memory (NVM) media like3D XPoint. Does that mean that DRAM and other NVM media such as NAND flash are now dead?
Do new NVM storage access protocols such as NVM Express (NVMe) mean SCSI/SAS and AHCI/SATA are now dead?
My simple answer is no, they all have bright futures. Read more here.
Check out these resources and links technology, techniques, trends as well as tools. View more tips and articles here
October 13 – Symposium: Software Defined Storage Management October 14 – Server Storage I/O Fundamental Trends October 15 – Symposium – Data Center Infrastructure Management (DCIM) October 16 – “Converged Day” Server and Storage Decision making
September 23 – Webinar Redmond Magazine & Dell Data Protection The New World Order of Data Protection – Focus on Recovery Learn more about the 9Rs of data protection and recovery
The following are various recommended reading including books, blogs and videos. If you have not done so recently, also check out the Intel Recommended Reading List (here) where you will also find a couple of my books.
Seven Databases in Seven Weeks (A Guide to Modern Databases and the NoSQL Movement) is a book written Eric Redmond (@coderoshi) and Jim Wilson (@hexlib), that takes a look at several non SQL based database systems. Coverage includes PostgreSQL, Riak, Apache HBase, MongoDB, Apache CouchDB, Neo4J and Redis with plenty of code and architecture examples. Also covered include relational vs. key value, columnar and document based systems among others. Read more here.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Fall 2015 Server Storage I/O Cloud Virtual Seminars Going Dutch
It’s that time of the year again where the fall 2015 events and activities are underway which also includes a week of sessions in Holland October 13-16. I will be participating in four days of workshop seminars being organized by Brouwer Storage Consultancy in Nijkerk covering server storage decision-making, converged and bulk storage options, software defined storage management, data center infrastructure management and data protection along with industry trends and update sessions.
October 13th: Symposium – Software Defined Storage Management
09:00 -17:00
DOWNLOAD FLYER (Dutch)
REGISTER HERE
FREE Session! Access for end-users only, through invitation or contacting BSC.
Event Location: Hotel & Gasterij De Roode Schuur, Oude Barneveldseweg 98, 3862PS Nijkerk – www.deroodeschuur.nl
October 14th: Server Storage I/O Fundamental Trends V2.015 – What’s New, What’s the buzz, what you need to know about.
09:00 -17:00
DOWNLOAD Abstract/Agenda
REGISTER HERE
Event Location: Golden Tulip Ampt van Nijkerk Hotel, Berencamperweg 4, 3861MC, Nijkerk – www.goldentulipamptvannijkerk.com/en
October 15th: Symposium – Data Center Infrastructure Management
09:00 -17:00
DOWNLOAD Abstract / Agenda
REGISTER Here
FREE Session! Access, through invitation or contacting BSC.
Event Location: Hotel & Gasterij De Roode Schuur, Oude Barneveldseweg 98, 3862PS Nijkerk – www.deroodeschuur.nl
October 16th: "Converged Day" Server and Storage Decision making – How do you want or need your storage packaged?
09:00 -17:00
DOWNLOAD Abstract / Agenda
REGISTER HERE
Event Location: Golden Tulip Ampt van Nijkerk Hotel, Berencamperweg 4, 3861MC, Nijkerk – www.goldentulipamptvannijkerk.com/en
Learn more at the Brouwer Storage Consultancy site here, or getting in touch with them to reserve your seat at these events.
Office: Olevoortseweg 43 3861 MH Nijkerk The Netherlands
T +31-33-246-6825 C +31-652-601-309 F +31-33-245-8956 E info@brouwerconsultancy.com
Watch for more events, seminars, live video, webinars and virtual trade shows by visiting the StorageIO events page.
What this all means and wrap up
Smart server and storage for cloud, virtual and physical or legacy environments starts with being informed, knowing your requirements, options and having insight into industry trends that are applicable to your environment. These sessions are vendor and technology neutral held off-site at hotel venues in Nijkerk Netherlands so no need to worry about the sales teams coming in to sell you something during the breaks or lunch which are provided. There are also opportunities throughout the workshops for engagement, discussion and interaction with other attendees that includes your peers from various commercial, government and service providers among others. Hope to see in Nijkerk to discuss server stowage I/O cloud virtual and other industry trends, technologies, techniques in October.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO All Rights Reserved
Hello and welcome to this August 2015 Server StorageIO update newsletter. Summer is wrapping up here in the northern hemisphere which means the fall conference season has started, holidays in progress as well as getting ready for back to school time. I have been spending my summer working on various things involving servers, storage, I/O networking hardware, software, services from cloud to containers, virtual and physical. This includes OpenStack, VMware vCloud Air, AWS, Microsoft Azure, GCS among others, as well as new versions of Microsoft Windows and Servers, Non Volatile Memory (NVM) including flash SSD, NVM Express (NVMe), databases, data protection, software defined, cache, micro-tiering and benchmarking using various tools among other things (some are still under wraps).
Enjoy this edition of the Server StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.
Feature Topic – Non Volatile Memory including NAND flash SSD
Via Intel: Click above image to view history of memory
This months feature topic theme is Non Volatile Memory (NVM) which includes technologies such as NAND flash commonly used in Solid State Devices (SSDs) storage today, as well as in USB thumb drive, mobile and hand-held devices among many other uses. NVM spans servers, storage, I/O devices along with mobile and handheld among many other technologies. In addition to NAND flash, other forms of NVM include Non Volatile Random Access Memory (NVRAM), Read Only Memory (ROM) along with some emerging new technologies including the recently announced Intel and Micron 3D XPoint among others.
NVMe: The Golden Ticket for Faster Flash Storage? (Via EnterpriseStorageForum)
Spot The Newest & Best Server Trends (Via Processor)
Market ripe for embedded flash storage as prices drop (Via Powermore (Dell))
Continue reading more about NVM, NVMe, NAND flash, SSD Server and storage I/O related topics at www.thessdplace.com as well as about I/O performance, monitoring and benchmarking tools at www.storageperformance.us.
Recent Server StorageIO articles appearing in different venues include:
IronMountain: Information Lifecycle Management: Which Data Types Have Value? It’s important to keep in mind that on a fundamental level, there are three types of data: information that has value, information that does not have value and information that has unknown value. Data value can be measured along performance, availability, capacity and economic attributes, which define how the data gets managed across different tiers of storage. In general data can have value, unknown value or no value. Read more here.
EnterpriseStorageForum: Is Future Storage Converging Around Hyper-Converged? Depending on who you talk or listen to, hyper-converged storage is either the future of storage, or it is a hype niche market that is not for everybody, particular not larger environments. How converged is the hyper-converged market? There are many environments that can leverage CI along with HCI, CiB or other bundles solutions. Granted, not all of those environments will converge around the same CI, CiB and HCI or pod solution bundles as everything is not the same in most IT environments and data centers. Not all markets, environments or solutions are the same. Read more here.
Check out these resources and links technology, techniques, trends as well as tools. View more tips and articles here
Enmotus FuzeDrive provides micro-tiering boosting performance (reads and writes) of storage attached to physical bare metal servers, virtual and cloud instances including Windows and Linux operating systems across various applications. In the simple example above five separate SQL Server databases (260GB each) were placed on a single 6TB HDD. A TPCC workload was run concurrently against all databases with various numbers of users. One workload used a single 6TB HDD (blue) while the other used a FuzeDrive (green) comprised of a 6TB HDD and a 400GB SSD showing basic micro-tiering improvements.
The following are various recommended reading including books, blogs and videos. If you have not done so recently, also check out the Intel Recommended Reading List (here) where you will also find a couple of my books.
While not a technology book, you do not have to be at or near retirement age to be planning for retirement. Some of you may already be at or near retirement age, for others, its time to start planning or refining your plans. A friend recommended this book and I’m recommending it to others. Its pretty straight forward and you might be surprised how much money people may be leaving on the table! Check it out here at Amazon.com.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Non Volatile Memory (NVM), NVMe, Flash Memory Summit and SSD updates
I attended the Flash Memory Summit in Santa Clara CA last week and not surprisingly there were many announcements about Non-Volatile Memory (NVM) along with related enabling technologies. Some of these announcements were component based intended for original equipment manufactures (OEMs) ranging from startup to established, systems integrators (SI), value added resellers (VAR’s) while others were more customer solution focused. From a customer solution focus, some of the technologies were consumer oriented while others for business and some for cloud scale service providers.
Recent NVM, NVMe and Flash SSD news
A sampling of some recent NVM, NVMe and Flash related news includes among others:
New SATA SSD powers elastic cloud agility for CSPs (Via Cbronline)
Toshiba Solid-State Drive Family Features PCIe Technology (Via Eweek)
SanDisk aims CloudSpeed Ultra SSD at cloud providers (Via ITwire)
Everspin & Aupera show all-MRAM Storage Module in M.2 Form Factor (Via BusinessWire)
Intel and Micron unveil new 3D XPoint Non Volatile Memory (NVM) for servers and storage (part I, part II and part III)
PMC-Sierra Scales Storage with PCIe, NVMe (Via EEtimes)
Seagate Grows Its Nytro Enterprise Flash Storage Line (Via InfoStor)
New SAS Solid State Drive First Product From Seagate Micron Alliance (Via Seagate)
Wow, Samsung’s New 16 Terabyte SSD Is the World’s Largest Hard Drive (Via Gizmodo)
Samsung ups the SSD ante with faster, higher capacity drives (Via ITworld)
NVMe primer
Via Intel: Click above image to view history of memory via Intel site
NVM includes technologies such as NAND flash commonly used in Solid State Devices (SSD’s) storage today, as well as in USB thumb drive, mobile and hand-held devices among many other uses. NVM spans servers, storage, I/O devices along with mobile and handheld among many other technologies. In addition to NAND flash, other forms of NVM include Non Volatile Random Access Memory (NVRAM), Read Only Memory (ROM) along with some emerging new technologies including the recently announced Intel and Micron 3D XPoint among others.
Server Storage I/O memory (and storage) hierarchy
Keep in mind that memory is storage and storage is persistent memory as well as that there are different classes, categories and tiers of memory and storage as shown above to meet various performance, availability, capacity and economic requirements. Besides NVM ranging from flash to NVRAM to emerging 3D XPoint among others, another popular topic that is gaining momentum is NVM Express (NVMe). NVMe (more material here at www.thenvmeplace.com) is a new server storage I/O access method and protocol for fast access to NVM based products. NVMe is an alternative to existing block based server storage I/O access protocols such as AHCI/SATA and SCSI/SAS devices commonly used for access Hard Disk Drives (HDD) along with SSD among other things.
Comparing AHCI/SATA, SCSI/SAS and NVMe all of which can coexist to address different needs.
Leveraging the common PCIe hardware interface, NVMe based devices (that have an NVMe controller) can be accessed via various operating systems (and hypervisors such as VMware ESXi) with both in the box drivers or optional third-party device drivers. Devices that support NVMe can be 2.5" drive format packaged that use a converged 8637/8639 connector (e.g. PCIe x4) coexisting with SAS and SATA devices as well as being add in card (AIC) PCIe cards supporting x4, x8 and other implementations. Initially NVMe is being positioned as a back-end to servers (or storage systems) interface for accessing fast flash and other NVM based devices.
NVMe as a "back-end" I/O interface in a server or storage system accessing NVM storage/media devices
NVMe as a “front-end” interface for servers (or storage systems/appliances) to use NVMe based storage systems
NVMe has also been shown to work over low latency, high-speed RDMA based network interfaces including RoCE (RDMA over Converged Ethernet) and InfiniBand (read more here, here and here involving Mangstor, Mellanox and PMC among others). What this means is that like SCSI based SAS which can be both a back-end drive (HDD, SSD, etc) access protocol and interface, NVMe can in addition to being used for back-end can also be used as a front-end of server to storage interface like how Fibre Channel SCSI_Protocol (aka FCP), SCSI based iSCSI, SCSI RDMA Protocol via InfiniBand (among others) are used.
NVMe and shared PCIe
NVMe features
Main features of NVMe include among others:
Lower latency due to improve drivers and increased queues (and queue sizes)
Lower CPU used to handler larger number of I/Os (more CPU available for useful work)
Higher I/O activity rates (IOPs) to boost productivity unlock value of fast flash and NVM
Bandwidth improvements leveraging various fast PCIe interface and available lanes
Dual-pathing of devices like what is available with dual-path SAS devices
Unlock the value of more cores per processor socket and software threads (productivity)
Various packaging options, deployment scenarios and configuration options
Appears as a standard storage device on most operating systems
Plug-play with in-box drivers on many popular operating systems and hypervisors
MSP CMG, September 2014 Presentation (Flash back to reality – Myths and Realities Flash and SSD Industry trends perspectives plus benchmarking tips) – PDF
Spot The Newest & Best Server Trends (Via Processor)
Intel and Micron unveil new 3D XPoint Non Volatile Memory (NVM) for servers and storage (part I, part II and part III)
Market ripe for embedded flash storage as prices drop (Via Powermore (Dell))
Continue reading more about NVM, NVMe, NAND flash, SSD Server and storage I/O related topics at www.thessdplace.com as well as about I/O performance, monitoring and benchmarking tools at www.storageperformance.us.
What this all means and wrap up
The question is not if NVM is in your future, it is! Instead the questions are what type of NVM including NAND flash among other mediums will be deployed where, using what type of packaging or solutions (drives, cards, systems, appliances, cloud) for what role (as storage, primary memory, persistent cache) along with how much among others. For some environments the solution is already, or will be All NVM Arrays (ANA) or All Flash Arrays (AFA) or All SSD Arrays (ASA) while for others the home run will be hybrid based solutions that work for you, fitting in and adapting to your environment as it changes.
Also keep in mind that a little bit of fast memory including NVM based flash among others in the right place can have a big benefit. My experiences using NVMe to use flash enabled NVMe devices on Windows and Linux systems is that you can see lower response times at higher-IOP’s however also with lower CPU consumption particular when compared to 6Gbps SATA. Likewise bandwidth can easily be pushed to the limits of the NVMe device as well as PCIe interface being used such as x4 or x8 depending on implementation. That is also a warning and something to watch out for comparing apples to oranges in that while NVMe uses PCIe, understand when looking at different results if those are for x4 or x8 or faster PCIe as their mere presence of using PCIe does not mean you are running at full potential.
Keep an eye on NVMe as a new high-speed, low-latency server storage I/O access protocol for unlocking the full performance capabilities of fast NVM based storage as well as leveraging the multiple cores in today’s fast processors. Does this mean AHCI/SATA or SCSI/SAS are now dead? Some will claim that, however at least near-term for next few years (if not longer), those interfaces will continue to be used where they make sense, as well as where they can save dollars specifically for cost sensitive, high-capacity environments that do not need the full performance of NVMe just yet.
As for the Flash Memory Summit event in Santa Clara, that was a good day with time well spent in briefings, meetings, demo’s and add hoc discussions on the expo floor.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Some August 2015 Amazon Web Services (AWS) and Microsoft Azure Cloud Updates
Cloud Services Providers continue to extend their feature, function and capabilities and the following are two examples. Being a customer of both Amazon Web Services (AWS) as well as Microsoft Azure (among others), I receive monthly news updates about service improvements along with new features. Here are a couple of examples involving recent updates from AWS and Azure.
Azure enhancements
Azure Premium Storage generally available in Japan East
Solid State Device (SSD) based Azure Premium Storage is now available in Japan East region. Add up to 32 TB and more than 64,000 IOPs (read operations) per virtual machine with Azure Premium Storage. Learn more about Azure storage and pricing here.
Azure Data Factory generally available
Data Factory is a cloud based data integration service for automated management as well as movement and transformation of data, learn more and view pricing options here.
AWS Partner Updates
Recent Amazon Web Services (AWS) customer update included the following pertaining to partner storage solutions.
Learn more about AWS Partner Network (APN) here or click on the above image.
Primary Cloud File and NAS storage complementing on-premises (e.g. your local) storage
Avere
Ctera
NetApp (Cloud OnTap)
Panzura
SoftNAS
Zadara
Secure File Transfer
Aspera
Signiant
Note that the above are those listed on the AWS Storage Partner Page as of this being published and subject to change. Likewise other solutions that are not part of the AWS partner program may not be listed.
How do primary storage clouds and cloud for backup differ?
What’s most important to know about my cloud privacy policy?
What this all means and wrap up
Cloud Service Providers (CSP) continue to enhance their capabilities, as well as their footprints as part of growth. In addition to technology, tools and number of regions, sites and data centers, the CSPs are also expanding their partner networks both about how many partners, also in the scope of those partnerships. Some of these partnerships are in the scope of the cloud as a destination, others are for enabling hybrid where public clouds become an extension complementing traditional IT. Everything is not the same in most environments and one type of cloud approach does not have to suit or fit all needs, hence the value of hybrid cloud deployment and usage.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Supermicro CSE-M14TQC Use your media bay to add 12 Gbps SAS SSD drives to your server
Do you have a computer server, workstation or mini-tower PC that needs to have more 2.5" form factor hard disk drive (HDD), solid state device (SSD) or hybrid flash drives added yet no expansion space?
Do you also want or need the HDD or SSD drive expansion slots to be hot swappable, 6 Gbps SATA3 along with up to 12 Gbps SAS devices?
Do you have an available 5.25" media bay slot (e.g. where you can add an optional CD or DVD drive) or can you remove your existing CD or DVD drive using USB for software loading?
Do you need to carry out the above without swapping out your existing server or workstation on a reasonable budget, say around $100 USD plus tax, handling, shipping (your prices may vary)?
If you need implement the above, then here is a possible solution, or in my case, an real solution.
Supermicro CSE-M14TQC with hot swap canister before installing in one of my servers
In the past I have used a solution from Startech that supports up to 4 x 2.5" 6 Gbps SAS and SATA drives in a 5.25" media bay form factor installing these in my various HP, Dell and Lenovo servers to increase internal storage bays (slots).
Via Amazon.com StarTech 4 x 2.5" SAS and SATA internal enclosure
I still use the StarTech device shown (read earlier reviews and experiences here, here and here) above in some of my servers which continue to be great for 6Gbps SAS and SATA 2.5" HDDs and SSDs. However for 12 Gbps SAS devices, I have used other approaches including external 12 Gbps SAS enclosures.
Recently while talking with the folks over at Servers Direct, I mentioned how I was using StarTech 4 x 2.5" 6Gbps SAS/SATA media bay enclosure as a means of boosting the number of internal drives that could be put into some smaller servers. The Servers Direct folks told me about the Supermicro CSE-M14TQC which after doing some research, I decided to buy one to complement the StarTech 6Gbps enclosures, as well as external 12 Gbps SAS enclosures or other internal options.
What is the Supermicro CSE-M14TQC?
The CSE-M14TQC is a 5.25" form factor enclosure that enables four (4) 2.5" hot swappable (if your adapter and OS supports hot swap) 12 Gbps SAS or 6 Gbps SATA devices (HDD and SSD) to fit into the media bay slot normally used by CD/DVD devices in servers or workstations. There is a single Molex male power connector on the rear of the enclosure that can be used to attach to your servers available power using applicable connector adapters. In addition there are four seperate drive connectors (e.g. SATA type connectors) that support up to 12 Gbps SAS per drive which you can attach to your servers motherboard (note SAS devices need a SAS controller), HBA or RAID adapters internal ports.
Cooling is provided via a rear mounted 12,500 RPM 16 cubic feet per minute fan, each of the four drives are hot swappable (requires operating system or hypervisor support) contained in a small canister (provided with the enclosure). Drives easily mount to the canister via screws that are also supplied as part of the enclosure kit. There is also a drive activity and failure notification LED for the devices. If you do not have any available SAS or SATA ports on your servers motherboard, you can use an available PCIe slot and add a HBA or RAID card for attaching the CSE-M14TQC to the drives. For example, a 12 Gbps SAS (6 Gbps SATA) Avago/LSI RAID card, or a 6 Gbps SAS/SATA RAID card.
Via Supermicro CSE-M14TQC rear details (4 x SATA and 1 Molex power connector)
CSE-M14TQCrear view before installation
CSE-M14TQC ready for installation with 4 x SATA (12 Gbps SAS) drive connectors and Molex power connector
Tip: In the case of the Lenovo TS140 that I initially installed the CSE-M14TQC into, there is not a lot of space for installing the drive connectors or Molex power connector to the enclosure. Instead, attach the cables to the CSE-M14TQC as shown above before installing the enclosure into the media bay slot. Simply attach the connectors as shown and feed them through the media bay opening as you install the CSE-M14TQC enclosure. Then attach the drive connectors to your HBA, RAID card or server motherboard and the power connector to your power source inside the server.
Note and disclaimer, pay attention to your server manufactures power loading and specification along with how much power will be used by the HDD or SSD’s to be installed to avoid electrical power or fire issues due to overloading!
CSE-M14TQC installed into Lenovo TS140 empty media bay
CSE-M14TQC installed with front face plated installed on Lenovo TS140
If you have a server that simply needs some extra storage capacity by adding some 2.5" HDDs, or boosting performance with fast SSDs yet do not have any more internal drive slots or expansion bays, leverage your media bay. This applies to smaller environments where you might have one or two servers, as well as for environments where you want or need to create a scale out software defined storage or hyper-converged platform using your own hardware. Another option is that if you have a lab or test environment for VMware vSphere ESXi Windows, Linux, Openstack or other things, this can be a cost-effective approach to adding both storage space capacity as well as performance and leveraging newer 12Gbps SAS technologies.
For example, create a VMware VSAN cluster using smaller servers such as Lenovo TS140 or equivalent where you can install a couple of 6TB or 8TB higher capacity 3.5" drive in the internal drive bays, then adding a couple of 12 Gbps SAS SSDs along with a couple of 2.5" 2TB (or larger) HDDs along with a RAID card, and high-speed networking card. If VMware VSAN is not your thing, how about setting up a Windows Server 2012 R2 failover cluster including Scale Out File Server (SOFS) with Hyper-V, or perhaps OpenStack or one of many other virtual storage appliances (VSA) or software defined storage, networking or other solutions. Perhaps you need to deploy more storage for a big data Hadoop based analytics system, or cloud or object storage solution? On the other hand, if you simply need to add some storage to your storage or media or gaming server or general purpose server, the CSE-M14TQC can be an option along with other external solutions.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved
Intel Micron 3D XPoint server storage NVM SCM PM SSD.
This is the second of a three-part series on the recent Intel and Micron 3D XPoint server storage memory announcement. Read Part I here and Part III here.
Is this 3D XPoint marketing, manufacturing or material technology?
You can’t have a successful manufactured material technology without some marketing, likewise marketing without some manufactured material would be manufactured marketing. In the case of 3D XPoint and its announcement launch, their real technology shown, granted it was only wafer and dies as opposed to an actual DDR4 DIMM or PCIe Add In Card (AIC) or drive form factor Solid State Device (SSD) product. On the other hand, on a relative comparison basis, even though there is marketing collateral available to learn more from, this was far from a over the big-top made for TV or web circus event, which can be a good thing.
Wafer unveiled containing 3D XPoint 128 Gb dies
Who will get access to 3D XPoint?
Initially 3D XPoint production capacity supply will be for the two companies to offer early samples to their customers later this year with general production slated for 2016 meaning early real customer deployed products starting sometime in 2016.
Is it NAND or NOT?
3D XPoint is not NAND flash, it is also not NVRAM or DRAM, it’s a new class of NVM that can be used for server class main memory with persistency, or as persistent data storage among other uses (cell phones, automobiles, appliances and other electronics). In addition, 3D XPoint is more durable with a longer useful life for writing and storing data vs. NAND flash.
Why is 3D XPoint important?
As mentioned during the Intel and Micron announcement, there have only been seven major memory technologies introduced since the transistor back in 1947, granted there have been many variations along with generational enhancements of those. Thus 3D XPoint is being positioned by Intel and Micron as the eighth memory class joining its predecessors many of which continue to be used today in various roles.
Major memory classes or categories timeline
In addition to the above memory classes or categories timeline, the following shows in more detail various memory categories (click on the image below to get access to the Intel interactive infographic).
Initially the 3D XPoint technology is available in a 2 layer 128 bit (cell) per die capacity. Keep in mind that there are usually 8 bits to a byte resulting in 16 GByte capacity per chip initially. With density improvements, as well as increased stacking of layers, the number of cells or bits per die (e.g. what makes up a chip) should improve, as well as most implementations will have multiple chips in some type of configuration.
What will 3D XPoint cost?
During the 3D XPoint launch webinar Intel and Micron hinted that first pricing will be between current DRAM and NAND flash on a per cell or bit basis, however real pricing and costs will vary depending on how packaged for use. For example if placed on a DDR4 or different type of DIMM or on a PCIe Add In Card (AIC) or as a drive form factor SSD among other options will vary the real price. Likewise as with other memories and storage mediums, as production yields and volumes increase, along with denser designs, the cost per usable cell or bit can be expected to further improve.
Where to read, watch and learn more
Intel and Micron unveil new 3D XPoint Non Volatile Memory (NVM) ( Part I)
Part II – Intel and Micron new 3D XPoint server and storage NVM
Part III – 3D XPoint new server storage memory from Intel and Micron
Intel and Micron ( Media Room, links, videos, images and more including B roll videos)
DRAM which has been around for sometime has plenty of life left for many applications as does NAND flash including new 3D NAND, vNAND and other variations. For the next several years, there will be a co-existences between new and old NVM and DRAM among other memory technologies including 3D XPoint. Read more in this series including Part I here and Part III here.
Disclosure: Micron and Intel have been direct and/or indirect clients in the past via third-parties and partners, also I have bought and use some of their technologies direct and/or in-direct via their partners.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO. All Rights Reserved. StorageIO is a registered Trade Mark (TM) of Server StorageIO.
Part III – 3D XPoint server storage class memory SCM
Updated 1/31/2018
3D XPoint nvm pm scm storage class memory.
This is the third of a three-part series on the recent Intel and Micron 3D XPoint server storage memory announcement. Read Part I here and Part II here.
What is 3D XPoint and how does it work?
3D XPoint is a new class or class of memory (view other categories of memory here) that provides performance for reads and writes closer to that of DRAM with about 10x the capacity density. In addition to the speed closer to DRAM vs. the lower NAND flash, 3D XPoint is also non-volatile memory (NVM) like NAND flash, NVRAM and others. What this means is that 3D XPoint can be used as persistent higher density fast server memory (or main memory for other computers and electronics). Besides being fast persistent main memory, 3D XPoint will also be a faster medium for solid state devices (SSD’s) including PCIe Add In Cards (AIC), m2 cards and drive form factor 8637/8639 NVM Express (NVMe) accessed devices that also has better endurance or life span compared to NAND flash.
3D XPoint architecture and attributes
The initial die or basic chip building block 3D XPoint implementation is a layer 128 Gbit device which if using 8 bits would yield 16GB raw. Over time increased densities should become available as the bit density improves with more cells and further scaling of the technology, combined with packaging. For example while a current die could hold up to 16 GBytes of data, multiple dies could be packaged together to create a 32GB, 64GB, 128GB etc. or larger actual product. Think about not only where packaged flash based SSD capacities are today, also think in terms of where DDR3 and DDR4 DIMM are at such as 4GB, 8GB, 16GB, 32GB densities.
The 3D aspect comes from the memory being in a matrix initially being two layers high, with multiple rows and columns that intersect, where those intersections occur is a microscopic material based switch for accessing a particular memory cell. Unlike NAND flash where an individual cell or bit is accessed as part of a larger block or page comprising several thousand bytes at once, 3D XPoint cells or bits can be individually accessed to speed up reads and writes in a more granular fashion. It is this more granular access along with performance that will enable 3D XPoint to be used in lower latency scenarios where DRAM would normally be used.
Instead of trapping electrons in a cell to create a bit of capacity (e.g. on or off) like NAND flash, 3D XPoint leverages the underlying physical material propertied to store a bit as a phase change enabling use of all cells. In other words, instead of being electron based, it is material based. While Intel and Micron did not specify what the actual chemistry and physical materials that are used in 3D XPoint, they did discuss some of the characteristics. If you want to go deep, check out how the Dailytech makes an interesting educated speculation or thesis on the underlying technology.
Watch the following video to get a better idea and visually see how 3D XPoint works.
Left many dies on a wafer, right, a closer look at the dies cut from the wafer
Dies (here and here) are the basic building block of what goes into the chips that in turn are the components used for creating DDR DIMM for main computer memory, as well as for create SD and MicroSD cards, USB thumb drives, PCIe AIC and drive form factor SSD, as well as custom modules on motherboards, or consumption via bare die and wafer level consumption (e.g. where you are doing really custom things at volume, beyond using a soldering iron scale).
Has Intel and Micron cornered the NVM and memory market?
We have heard proclamations, speculation and statements of the demise of DRAM, NAND flash and other volatile and NVM memories for years, if not decades now. Each year there is the usual this will be the year of “x” where “x” can include among others. Resistive RAM aka ReRAM or RRAM aka the memristor that HP earlier announced they were going to bring to market and then earlier this year canceling those plans while Crossbar continues to pursue RRAM. MRAM or Magnetorestive RAM, Phase Change Memory aka CRAM or PCM and PRAM, FRAM aka FeRAM or Ferroelectric RAM among others.
Expanding persistent memory and SSD storage markets
Keep in mind that there are many steps taking time measured in years or decades to go from research and development lab idea to prototype that can then be produced at production volumes in economic yields. As a reference for, there is still plenty of life in both DRAM as well as NAND flash, the later having appeared around 1989.
Technology industry adoption precedes customer adoption and deployment
There is a difference between industry adoption and deployment vs. customer adoption and deployment, they are related, yet separated by time as shown in the above figure. What this means is that there can be several years from the time a new technology is initially introduced and when it becomes generally available. Keep in mind that NAND flash has yet to reach its full market potential despite having made significant inroads the past few years since it was introduced in 1989.
This begs the question of if 3D XPoint is a variation of phase change, RRAM, MRAM or something else. Over at the Dailytech they lay out a line of thinking (or educated speculation) that 3D XPoint is some derivative or variation of phase change, time will tell about what it really is.
What’s the difference between 3D NAND flash and 3D XPoint?
3D NAND is a form of NAND flash NVM, while 3D XPoint is a completely new and different type of NVM (e.g. its not NAND).
3D NAND is a variation of traditional flash with the difference between vertical stacking vs. horizontal to improve density, also known as vertical NAND or V-NAND. Vertical stacking is like building up to house more tenants or occupants in a dense environment or scaling up, vs scaling-out by using up more space where density is not an issue. Note that magnetic HDD’s shifted to perpendicular (e.g. vertical) recording about ten years ago to break through the super parametric barrier and more recently, magnetic tape has also adopted perpendicular recording. Also keep in mind that 3D XPoint and the earlier announced Intel and Micron 3D NAND flash are two separate classes of memory that both just happen to have 3D in their marketing names.
Where to read, watch and learn more
Intel and Micron unveil new 3D XPoint Non Volatile Memory (NVM) for servers and storage ( Part I)
Part II – Intel and Micron new 3D XPoint server and storage NVM
Part III – 3D XPoint new server storage memory from Intel and Micron
Intel and Micron ( Media Room, links, videos, images and more including B roll videos)
First, keep in mind that this is very early in the 3D XPoint technology evolution life-cycle and both DRAM and NAND flash will not be dead at least near term. Keep in mind that NAND flash appeared back in 1989 and only over the past several years has finally hit its mainstream adoption stride with plenty of market upside left. Same with DRAM which has been around for sometime, it too still has plenty of life left for many applications. However other applications that have the need for improved speed over NAND flash, or persistency and density vs. DRAM will be some of the first to leverage new NVM technologies such as 3D XPoint. Thus at least for the next several years, there will be a co-existences between new and old NVM and DRAM among other memory technologies. Bottom line, 3D XPoint is a new class of NVM memory, can be used for persistent main server memory or for persistent fast storage memory. If you have not done so, check out Part I here and Part II here of this three-part series on Intel and Micron 3D XPoint.
Disclosure: Micron and Intel have been direct and/or indirect clients in the past via third-parties and partners, also I have bought and use some of their technologies direct and/or in-direct via their partners.
All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO. All Rights Reserved. StorageIO is a registered Trade Mark (TM) of Server StorageIO.
3D XPoint NVM persistent memory PM storage class memory SCM
Updated 1/31/2018
This is the first of a three-part series on Intel Micron unveil new 3D XPoint Non Volatie Memory NVM for servers storage announcement. Read Part II here and Part III here.
In a webcast the other day, Intel and Micron announced new 3D XPoint non-volatile memory (NVM) that can be used for both primary main memory (e.g. what’s in computers, serves, laptops, tablets and many other things) in place of Dynamic Random Access Memory (DRAM), for persistent storage faster than today’s NAND flash-based solid state devices (SSD), not to mention future hybrid usage scenarios. Note that this announcement while having the common term 3D in it is different from the earlier Intel and Micron announcement about 3D NAND flash (read more about that here).
Data needs to be close to processing, processing needs to be close to the data (locality of reference)
Server Storage I/O memory hardware and software hierarchy along with technology tiers
What did Intel and Micron announce?
Intel SVP and General Manager Non-Volatile Memory solutions group Robert Crooke (Left) and Micron CEO D. Mark Durcan did the joint announcement presentation of 3D XPoint (webinar here). What was announced is the 3D XPoint technology jointly developed and manufactured by Intel and Micron which is a new form or category of NVM that can be used for both primary memory in servers, laptops, other computers among other uses, as well as for persistent data storage.
Robert Crooke (Left) and Mark Durcan (Right)
Summary of 3D XPoint announcement
New category of NVM memory for servers and storage
Joint development and manufacturing by Intel and Micron in Utah
Non volatile so can be used for storage or persistent server main memory
Allows NVM to scale with data, storage and processors performance
Leverages capabilities of both Intel and Micron who have collaborated in the past
Performance Intel and Micron claim up to 1000x faster vs. NAND flash
Availability persistent NVM compared to DRAM with better durability (life span) vs. NAND flash
Capacity densities about 10x better vs. traditional DRAM
Economics cost per bit between dram and nand (depending on packaging of resulting products)
What applications and products is 3D XPoint suited for?
In general, 3D XPoint should be able to be used for many of the same applications and associated products that current DRAM and NAND flash-based storage memories are used for. These range from IT and cloud or managed service provider data centers based applications and services, as well as consumer focused among many others.
3D XPoint enabling various applications
In general, applications or usage scenarios along with supporting products that can benefit from 3D XPoint include among others’. Applications that need larger amounts of main memory in a denser footprint such as in-memory databases, little and big data analytics, gaming, wave form analysis for security, copyright or other detection analysis, life sciences, high performance compute and high-productivity compute, energy, video and content severing among many others.
In addition, applications that need persistent main memory for resiliency, or to cut delays and impacts for planned or un-planned maintenance or having to wait for memories and caches to be warmed or re-populated after a server boot (or re-boot). 3D XPoint will also be useful for those applications that need faster read and write performance compared to current generations NAND flash for data storage. This means both existing and emerging applications as well as some that do not yet exist will benefit from 3D XPoint over time, like how today’s applications and others have benefited from DRAM used in Dual Inline Memory Module (DIMM) and NAND flash advances over the past several decades.
Where to read, watch and learn more
Intel and Micron unveil new 3D XPoint Non Volatile Memory (NVM) ( Part I)
Part II – Intel and Micron new 3D XPoint server and storage NVM
Part III – 3D XPoint new server storage memory from Intel and Micron
Intel and Micron (Media Room, links, videos, images and more including B roll videos)
First, keep in mind that this is very early in the 3D XPoint technology evolution life-cycle and both DRAM and NAND flash will not be dead at least near term. Keep in mind that NAND flash appeared back in 1989 and only over the past several years has finally hit its mainstream adoption stride with plenty of market upside left. Continue reading Part II here and Part III here of this three-part series on Intel and Micron 3D XPoint along with more analysis and commentary.
Disclosure: Micron and Intel have been direct and/or indirect clients in the past via third-parties and partners, also I have bought and use some of their technologies direct and/or in-direct via their partners.
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