Dell Technologies Announces Class V VMware Tracking Stock exchange for stock or cash

Dell Technologies Announces Class V VMware Tracking Stock exchange for stock or cash

Dell Technologies Announces Class V VMware Tracking Stock exchange for stock or cash

Dell Technologies Announces Class V VMware Tracking Stock exchange for stock or cash.

Dell Technologies Announces Class V VMware Tracking Stock exchange for stock or cash
Image via Dell Technologies

Summary of Dell transaction announcement includes:

  • VMware declares an $11 Billion USD cash dividend pro rata to all VMware stock holders.
  • Given ownership percentage of VMware, Dell Technologies will receive approximately $9 Billion USD cash dividend.
  • Dell plans to list its Class C common stock shares on the New York Stock Exchange (NYSE).
  • Dell plans to use the VMware dividend proceeds to fund cash consideration to be paid to Class V (tracking stock) shareholders.
  • For each Class V share (e.g. VMware tracking stock) shareholders can choose to receive:

    1.3665 shares of Dell Technologies Class C common stock, or
    $109 in cash per DVMT (Class V share) a 29% premium per share

Dell Announces Class V VMware Tracking Stock exchange for stock or cash
Image via Dell Technologies

Additional interest points of this transaction include:

  • Transaction expected to close Q4 CY2018, subject to Class V shareholder approval.
  • VMware maintains its independence as a separate publicly traded company.
  • Dell Technologies maintains its 81% ownership of VMware common stock
    Dell Technologies Class V (DVMT) shareholders will own 20.8% to 31.0% of Dell Class C (depending on cash election amounts).
  • Streamline Dell capital and ownership structure.
  • Establishes a public security (stock) in global end to end data infrastructure provider (e.g. Dell Technologies Stock on NYSE).
  • Enables financial flexibility for future strategic initiatives

Dell Announces Class V VMware Tracking Stock exchange for stock or cash
Image via Dell Technologies

Michael Dell and Silver Lake Continued Ownership

As part of this transaction, both Michael Dell and Silver Lake partners announce commitment to Dell Technologies. Michael Dell will continue to serve as Chairman and CEO, along with a committed stockholder beneficially owning between about 47% to 54% of Dell Technologies on a fully diluted basis. Silver Lake equity partners, an investor in Dell will continue its long-term partnership with Michael Dell beneficially owning between about 16%-18% of Dell Technologies on a fully diluted basis.

Where to learn more

Learn more about Dell Technologies, VMware, Data Infrastructures and related topics via the following links:

Additional learning experiences along with common questions (and answers), as well as tips can be found in Software Defined Data Infrastructure Essentials book.

Software Defined Data Infrastructure Essentials Book SDDC

What this all means

This announcement enables Dell to streamline its financial structure, while providing VMware shareholder with a dividend value. In addition, this Dell Technologies announcement puts to rest industry discussions of what will Michael Dell along with Dell Technologies and VMware do in the future. Speaking of the future, this transaction could also page the wave for future investment or acquisitions by Dell and/or VMware. Now the question is if you are a DVMT tracking stock shareholder, do you take the $109 USD cash, or, new Class C Dell Technologies stock? Now lets see how Dell Technologies Announces Class V VMware Tracking Stock exchange for stock or cash plays out during the rest of summer and into the fall.

Ok, nuff said, for now.

Cheers Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2018. Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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.

June 2018 Server StorageIO Data Infrastructure Update Newsletter

June 2018 Server StorageIO Data Infrastructure Update Newsletter

June 2018 Server StorageIO Data Infrastructure Update Newsletter

Volume 18, Issue 6 (June 2018)

Hello and welcome to the June 2018 Server StorageIO Data Infrastructure Update Newsletter.

In cased you missed it, the May 2018 Server StorageIO Data Infrastructure Update Newsletter can be viewed here (HTML and PDF).

In this issue buzzwords topics include AI, All Flash, HPC, Lustre, Multi Cloud, NVMe, NVMeoF, SAS, and SSD among others:

Enjoy this edition of the Server StorageIO Data Infrastructure update newsletter.

Cheers GS

Data Infrastructure and IT Industry Activity Trends

June data infrastructure, server, storage, I/O network, hardware, software, cloud, converged, and container as well as data protection industry activity includes among others:

Check out what’s new at Amazon Web Services (AWS) here, as well as Microsoft Azure here, Google Cloud Compute here, IBM Softlayer here, and OVH here. CTERA announced new cloud storage gateways (HC Series) for enterprise environments that include all flash SSD options, capacity up to 96TB (raw), Petabyte scale tiering to public and private cloud, 10 Gbe Ethernet connectivity, virtual machine deployment, along with high availability configuration.

Cray announced enhancements to its Lustre (parallel file system) based ClusterStor storage system for high performance compute (HPC) along with it previously acquired from Seagate (Who had acquired it as part of the Xyratex acquisition). New enhancements for ClusterStor include all flash SSD solution that will integrate and work with our existing hard disk drive (HDD) based systems.

In related Lustre based activity, DataDirect Network (DDN) has acquired from Intel, their Lustre File system capability. Intel acquired its Lustre capabilities via its purchase of Whamcloud back in 2012, and in 2017 announced that it was getting out of the Lustre business (here and here). DDN also announced new storage solutions for enabling HPC environment workloads along with Artificial Intelligence (AI) centric applications.

HPE which held its Discover event announced a $4 Billion USD investment over four years pertaining to development of edge technologies and services including software defined WAN (SD-WAN) and security among others.

Microsoft held its first virtual Windows Server Summit in June that outlined current and future plans for the operating system along with its hybrid cloud future.

Penguin computing has announced the Accelion solution for accessing geographically dispersed data enabling faster file transfer or other data movement functions.

SwiftStack has added multi cloud features (enhanced search, universal access, policy management, automation, data migration) and making them available via 1space open source project. 1space enables a single object namespace across different object storage locations including integration with OpenStack Swift.

Vexata announced a new version of its Vexata operating system (VX-OS) for its storage solution including NVMe over Fabric (NVMe-oF) support.

Speaking of NVMe and fabrics, the Fibre Channel Industry Association (FCIA) announced that the International Committee on Information Technology Standards (INCITS) has published T11 technical committee developed  Fibre Channel over NVMe (FC-NVMe) standard.

NVMe frontend NVMeoF
Various NVMe front-end including NVMeoF along with NVMe back-end devices (U.2, M.2, AiC)

Keep in mind that there are many different facets to NVMe including direct attached (M.2, U.2/8639, PCIe AiC) along with fabrics. Likewise, there are various fabric options for the NVMe protocol including over Fibre Channel (FC-NVMe), along with other NVMe over Fabrics including RDMA over Converged Ethernet (RoCE) as well as IP based among others. NVMe can be used as a front-end on storage systems supporting server attachment (e.g. competes with Fibre Channel, iSCSI, SAS among others).

Another variation of NVMe is as a back-end for attachment of drives or other NVMe based devices in storage systems, as well as servers. There is also end to end NVMe (e.g. both front-end and back-end) options. Keep context in mind when you hear or talk about NVMe and in particular, NVMe over fabrics, learn more about NVMe at https://storageioblog.com/nvme-place-volatile-memory-express/.

Toshiba announced new RM5 series of high capacity SAS SSDs for replacement of SATA devices in servers. The RM5 series being added to the Toshiba portfolio combine capacity and economics traditional associated with SATA SSDs along with performance as well as connectivity of SAS.

Check out other industry news, comments, trends perspectives here.

Data Infrastructure Server StorageIO Comments Content

Server StorageIO Commentary in the news, tips and articles

Recent Server StorageIO industry trends perspectives commentary in the news.

Via SearchStorage: Comments The storage administrator skills you need to keep up today
Via SearchStorage: Comments Managing storage for IoT data at the enterprise edge
Via SearchCloudComputing: Comments Hybrid cloud deployment demands a change in security mindset

View more Server, Storage and I/O trends and perspectives comments here.

Data Infrastructure Server StorageIOblog posts

Server StorageIOblog Data Infrastructure Posts

Recent and popular Server StorageIOblog posts include:

Announcing Windows Server Summit Virtual Online Event
May 2018 Server StorageIO Data Infrastructure Update Newsletter
Solving Application Server Storage I/O Performance Bottlenecks Webinar
Have you heard about the new CLOUD Act data regulation?
Data Protection Recovery Life Post World Backup Day Pre GDPR
Microsoft Windows Server 2019 Insiders Preview
Which Enterprise HDD for Content Server Platform
Server Storage I/O Benchmark Performance Resource Tools
Introducing Windows Subsystem for Linux WSL Overview
Data Infrastructure Primer Overview (Its Whats Inside The Data Center)
If NVMe is the answer, what are the questions?

View other recent as well as past StorageIOblog posts here

Server StorageIO Recommended Reading (Watching and Listening) List

Software-Defined Data Infrastructure Essentials SDDI SDDC

In addition to my own books including Software Defined Data Infrastructure Essentials (CRC Press 2017) available at Amazon.com (check out special sale price), the following are Server StorageIO data infrastructure recommended reading, watching and listening list items. The Server StorageIO data infrastructure recommended reading list includes various IT, Data Infrastructure and related topics including Intel Recommended Reading List (IRRL) for developers is a good resource to check out. Speaking of my books, Didier Van Hoye (@WorkingHardInIt) has a good review over on his site you can view here, also check out the rest of his great content while there.

Watch for more items to be added to the recommended reading list book shelf soon.

Data Infrastructure Server StorageIO event activities

Events and Activities

Recent and upcoming event activities.

July 25, 2018 – Webinar – Data Protect & Storage

June 27, 2018 – Webinar – App Server Performance

June 26, 2018 – Webinar – Cloud App Optimize

May 29, 2018 – Webinar – Microsoft Windows as a Service

April 24, 2018 – Webinar – AWS and on-site, on-premises hybrid data protection

See more webinars and activities on the Server StorageIO Events page here.

Data Infrastructure Server StorageIO Industry Resources and Links

Various useful links and resources:

Data Infrastructure Recommend Reading and watching list
Microsoft TechNet – Various Microsoft related from Azure to Docker to Windows
storageio.com/links – Various industry links (over 1,000 with more to be added soon)
objectstoragecenter.com – Cloud and object storage topics, tips and news items
OpenStack.org – Various OpenStack related items
storageio.com/downloads – Various presentations and other download material
storageio.com/protect – Various data protection items and topics
thenvmeplace.com – Focus on NVMe trends and technologies
thessdplace.com – NVM and Solid State Disk topics, tips and techniques
storageio.com/converge – Various CI, HCI and related SDS topics
storageio.com/performance – Various server, storage and I/O benchmark and tools
VMware Technical Network – Various VMware related items

What this all means and wrap-up

Data Infrastructures are what exists inside physical data centers as well as spanning cloud, converged, hyper-converged, virtual, serverless and other software defined as well as legacy environments. NVMe continues to gain in industry adoption as well as customer deployment. Cloud adoption also continues along with multi-cloud deployments. Enjoy this edition of the Server StorageIO Data Infrastructure update newsletter and watch for more NVMe,cloud, data protection among other topics in future posts, articles, events, and newsletters.

Ok, nuff said, for now.

Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2018. Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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.

Solving Application Server Storage I/O Performance Bottlenecks Webinar

Solving Application Server Storage I/O Performance Bottlenecks Webinar

Performance Bottlenecks Webinar

Solving Application Server Storage I/O Performance Bottlenecks Webinar

The best I/O is the one you do not have to do, the second best is the one with least server I/O and storage overhead along with application performance bottleneck impact.

Fast applications need fast servers, storage, I/O networking hardware, and software. Merely throwing more hardware as a cache at application performance bottlenecks can help. However, throwing more hardware at performance problems can also cost much cash. On the other hand, a little fast memory and storage in the right place, with robust software performance acceleration can have significant application productivity benefits. Fast hardware also needs fast software to help boost application and user productivity.

As application workloads activity increases, by implementing server software, performance acceleration along with additional fast memory and storage including flash, Storage Class Memories (SCM) among other SSD along with NVMe accessed devices, even more, work can be done boosting productivity while reducing cost.

Join me on June 27 at 1 PM Pacific Time (PT) when I host a free webinar (registration required) sponsored by DataCore and produced by Redmond Magazine/1105 Media as we discuss Solving Application Server Storage I/O Performance Bottlenecks including what you can do today.

I will be joined by guest presenters Augie Gonzalez, Director Technical Product Marketing and Tim Warden, Director Engineering Product Management both from DataCore. During the interactive webinar discussions, we invite you to participate with your questions, as we look at issues, challenges, various approaches, and what you can do today to boost different application performance and productivity.

This webinar is for those whose applications have the need for speed including database, VDI, SharePoint, Exchange, AI, ML and other I/O intensive workloads. Topics that we will be discussing in addition to your questions include:

  • Boosting application performance without breaking the bank
  • Improving application productivity and reducing user wait time
  • Gaining insight and awareness into bottlenecks and what to do
  • Unlocking value in your existing hardware and software licenses
  • What you can do today, literally right after or even during this webinar

Where to learn more

Learn more about Windows Server Summit and related topics via the following links:

Additional learning experiences along with common questions (and answers), as well as tips can be found in Software Defined Data Infrastructure Essentials book.

Software Defined Data Infrastructure Essentials Book SDDC

What this all means

The best I/O is the one you do not have to do, the second best is the one that has the least impact on your applications, while boosting user productivity. There are many differ net approaches to addressing various server storage I/O performance bottlenecks across applications. Join me on June 27, 2018 at 1 PM PT for the free webinar Solving Application Server Storage I/O Performance Bottlenecks Webinar and learn what you can do today to boost your uses productivity.

 

Ok, nuff said, for now.

Cheers Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2018. Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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.

Announcing Windows Server Summit Virtual Online Event

Announcing Windows Server Summit Virtual Online Event

Dell Technology World 2018 Announcement Summary

Announcing Windows Server Summit Virtual Online Event

Microsoft will be hosting a free (no registration required) half day virtual (e.g. online) Windows Server Summit Virtual Online Event June 26, 2018 starting at 9AM PT. As part of its continued focus on supporting hybrid strategy spanning on-premises Windows Server to Azure (among others including AWS) cloud based, Microsoft is preparing for the launch later this year of Windows Server 2019.

There is no registration required, you can just show up without concern of getting email or other spam, however you can also click here to save the date, as well as here to get updates on the event.

Microsoft Windows Server LTSC and SAC release

Windows Server 2019 is now in insider preview (get it here) and is the next Long Term Service Channel (LTSC) release following Windows Server 2016. In the past, Microsoft would have called Windows Server 2019 something such as Windows Server 2016 R2, however that has changed with the new Semiannual Channel (SAC) and LTSC release cycles.

Keynote kick off presentations will be from Erin Chapple, Director of Program Management, Cloud + AI (which includes Windows Kernel, Hypervisors, Containers and Storage), Arpan Shah, General Manager of Azure Infrastructure marketing (Windows Server, Azure IaaS, Azure Stack, Azure Management and Security), and, Jeff Woosley Principal PM, Windows Server. In addition to the kick off presentations with current state and status of Windows Servers available for on-premises bare metal, virtual, container as well as cloud, there will be demos, Q&A, roadmap’s and much more. Topics will include new and recent functionalities such as Windows Server 2019, Windows Admin Center (formerly known as Honolulu), IoT, roadmap’s and much more.

Windows Server Summit HybridWindows Server Summit SecurityWindows Server Summit HCIWindows Server Summit Application Development
Images Via Microsoft Windows Server Summit Page

Windows Server Summit Break Out Tracks

During the Windows Server Summit, there will be four technology focused tracks including:

  • Hybrid – From on-premisess to Azure, how Windows Server supports different workloads in various configurations, along with associated management tools (including Windows Admin Center aka Honolulu)
  • Security – New and recent security enhancements for Windows Server along with Hyper-V and other related topics.
  • Application Platform – Containers and Linux support along with associated management tools for on-premisess and Azure.
  • Hyper-converged infrastructure (HCI) – Leveraging software defined storage (SDS) with Storage Spaces Direct (S2D) in Windows Server 2016, along with Hyper-V and other technologies, learn how Microsoft supports HCI and beyond.

Where to learn more

Learn more about Windows Server Summit and related topics via the following links:

Additional learning experiences along with common questions (and answers), as well as tips can be found in Software Defined Data Infrastructure Essentials book.

Software Defined Data Infrastructure Essentials Book SDDC

What this all means

Windows Server remains relevant today for traditional, on site, on-premises, as well as on-premisess along with cloud, container among other deployments. Remember to click here to save the date, click here to sign up for Windows Server Summit updates and learn more about the Windows Server Summit Virtual Online event here, see there, or at least virtually.

Ok, nuff said, for now.

Cheers Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2018. Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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.

May 2018 Server StorageIO Data Infrastructure Update Newsletter

May 2018 Server StorageIO Data Infrastructure Update Newsletter

May 2018 Server StorageIO Data Infrastructure Update Newsletter

Volume 18, Issue 5 (May 2018)

Hello and welcome to the May 2018 Server StorageIO Data Infrastructure Update Newsletter.

In cased you missed it, the April 2018 Server StorageIO Data Infrastructure Update Newsletter can be viewed here (HTML and PDF).

May has been a busy month with a lot of data infrastructure related activity from software-defined virtual, cloud, container, converged, serverless to legacy, hardware, software, services, server, storage, I/O and networking along with data protection topics among others.

In this issue buzzwords topics include GDPR, NVMe, NVMeoF, Composable, Serverless, Data Protection, SCM, Gen-Z, MaaS:

Enjoy this edition of the Server StorageIO Data Infrastructure update newsletter.

Cheers GS

Data Infrastructure and IT Industry Activity Trends

May has been a busy month, some data infrastructure, server, storage, I/O network, hardware, software, cloud, converged, and container as well as data protection activity includes among others:

Depending on when you read this, the new global data protection regulations (GDPR) are either days away, or already in effect. For those who are not aware of GDPR other than seeing many inbox items in your email pertaining to it, here are some resources as a refresher or primer:

May Buzzword, Buzz Topic and Trends

Besides data protection and GDPR, other recent data infrastructure related news, trends, technologies and topics to keep an eye on (besides AI, ML, DL, AR/VR, IoT, Blockchain, Serverless) include Metal as a Service (MaaS) that might be familiar to some, for others, something new. Canonical has been busy for sometime now with MaaS including in Ubuntu and they are not alone with variations appearing with various managed service providers, hosting and cloud providers as well. NVMe has become a more common topic, technology, trend including for use in servers as well as over fabrics (e.g. NVMe over Fabrics) as a language for server, storage, I/O communication.

A new emerging companion to NVMe is Gen-Z which initially is a companion to PCIe. Longer term, Gen-Z could maybe possibly be a replacement, as well as for use accessing direct random access memory (DRAM) among other uses. Storage Class Memory (SCM) has been an industry conversation topic for several years now with new persistent memories (PMEM) that combine the best of traditional DRAM (Speed and write endurance) as well as persistent, higher capacity, lower cost of traditional NAND flash SSDs.

Another trend topic is that for some, ASIC, FPGA and GPU are new companions to standard commodity compute processors along with servers, yet for others it may be Dejavu as they have been being used for years (ok, decades) in some solutions. For now, two other buzzwords, buzz terms to add or refresh your data infrastructure vocabulary include distributed ledgers (aka blockchains), composable resources and ephemeral instance storage (storage on a cloud instance).

May NVMe Momentum Movement Activity

May saw a lot of NVMe related activity, from chips and components (adapters, devices) to systems spanning direct attached to NVMe over Fabric (NVMeoF). Here is a primer (or refresh) for NVMe along with various deployment options. NVMeoF includes RDMA over Converged Ethernet (RoCE) based, along with NVMe over Fibre Channel (FC-NVMe), as well as emerging NVMe over IP.

NVMe options
NVMe being used for front-end accessed via shared PCIe along with back-end devices

There are many different facets of NVMe including for use as a front-end on storage systems supporting server attachment (e.g. competes with Fibre Channel, iSCSI, SAS among others). Another variation of NVMe is as a back-end for attachment of drives or other NVMe based devices in storage systems, as well as servers.

NVMe backend
Front-end using traditional block SAN access with back-end NVMe, SAS and SATA devices

Read more about the many different options and variations of NVMe including key questions to ask or understand, deployment topology along with other related topics at thenvmeplace.com.

NVMe frontend NVMeoF
Various NVMe front-end including NVMeoF along with NVMe back-end devices (U.2, M.2, AiC)

Software Defined Data Infrastructure Activity

Amazon Web Services (AWS) continues to add new features, functionality as well as extending those as along with existing capabilities into various regions. Some recent updates include new Elastic Cloud Compute (EC2) Microsoft Windows Servers versions 1709 and 1803 Amazon Machine Images (AMIs). Other AWS updates include spot instances support for Red Hat BYOL (Bring Your Own License), VPN enhancements, X1e instances available in Frankfurt, H1 instance price reduction, as well as LightSail now in Canada, Paris, and Seoul regions.

For those who are not familiar with LightSail, they are virtual private servers (VPS) which are different from traditional EC2 instances. LightSail can be a cost-effective way for those who need to move out of general population shared hosting, yet cannot justify a full EC2 instance while requiring more than a container.

The LightSail instance also is available with various software pre-installed such as for WordPress websites among others. For example, I have used LightSail as a backup and standby WordPress site for StorageIOblog using Updraft Plus  Pro for data protection.

In other news, AWS C5d EC2 instances are available in various regions. C5d instances are available with 2, 4, 8, 16, 36 and 72 vCPUs along with up to 1800GB of NVMe based ephemeral storage for on-demand reserved or spot instances.

Note that instance-based storage is temporary meaning that it persists for the life of the instance. What this means is that if you stop and restart the instance, the data is not persistence. Instance-based storage is useful for data that can be protected or persisted to other storage including EBS (Elastic Block Storage). Usage includes batch, log and analytics processing, burst buffers, cache or workspace.

AWS also announced a new Simple Storage Service (S3) storage class a month or so ago called One Zone Availability Infrequent Access. This new storage class primarily provides a lower cost of storage with lower durability (e.g., data spread across one zone vs. multiple). Over the past couple of months, I have been migrating from S3 Infrequent Access (IA) as well as standard into One Zone Availability. Some of my active data remains in S3 Standard storage class, while cold archives are in Glacier.

A tip about migrating to One Zone Availability, as well as between other S3 storage classes is paid attention to your API calls and monthly budget. You might see an increase in S3 costs during the migration time, that then settles into the lower prices once data has been moved due to API calls (gets, puts, lists, dir). In other words, pay attention to how many API calls you are allowed per storage class per month, along with other fees beyond focusing only on cost per TByte. Read about other recent AWS news updates here.

Software-defined storage startup Cloudian announced their technology available for test drive on Google Cloud Platform as part of a continued industry trend. That trend is for storage vendors to make their storage software technology available on different cloud platforms such as AWS, Azure, Google, Softlayer among others.

Dell Technology World 2018

Dell Technologies made several announcements as part of Dell Technologies World that are covered in a series of posts here. Announcements included PowerMax the successor to VMAX, XtremIO X2 updates, new servers, workstations among many other items, read more here.

Besides the data infrastructure, cloud service providers and systems vendors, component suppliers including Cavium announced NVMe over Fibre Channel updates (here and here), along with Marvel NVMe updates here. HPE announced new thin clients and software (t430 Thin Client, HP mt44 Mobile Thin Client, HP ThinPro software), as well as updates to 3PAR and other storage solutions.

IBM announced various storage enhancements (and here) as well as a Happy 30th anniversary to the IBM Power9 based i systems. In other news, Kaseya bought backup data protection vendor Unitrends.

NVMe NAND flash Intel Optane

Micron announced the first quad layer cell (QLC) nand flash solid state device (SSD) named 52100 has begun shipping to select customers (and vendors). QLC packs or stacks 4 bits per cell. The 5200 is optimized for read-intensive workloads with up to 33% higher densities compared to previous generation TLC (triple layer cell) NAND flash. Broader market availability is expected to occur later fall 2018, 5210 form factor is 2.5” as a standard SSD or HDD, with capacities from 1.92TB to 7.68TB.

In other news, Micron also announced a $10 Billion (USD) stock repurchase plan, along with an extension of Intel 3D NAND flash memory partnership involving 3D NAND flash, as well as 96 layer 3D NAND. Meanwhile, various vendors are increasingly talking about how their systems are or will be storage class memory (SCM) ready including for use such as Micron 3D XPoint also known as Intel Optane among others.

Microsoft has placed into public preview Azure Active Directory (AAD) Storage authentication for Azure Blobs and Queues. Azure Storage Explorer is now released as version 1.0. AAD storage authentication enables organizations to implement role-based access control of Azure storage resources. Speaking of Azure, Microsoft has published several architectures, reference and other content at the Azure Virtual Datacenter portal here.

If you have not done so, check out Azure File Sync which is currently in public preview. Having been involved and using it for over a year including during private preview, Azure File Sync is an exciting, useful technology for creating a hybrid distributed file sharing with cloud tiering solutions. Learn more Azure File Sync here and here. In other news, Microsoft has announced a preview as part of the April 2018 Windows 10 build for a Hyper-V Google Android emulator support.

NetApp has had Azure based NAS storage in preview for a while now, and also announced Cloud Volumes on Google Cloud Platform (GCP). In addition to Cloud Volumes on AWS, Azure, and GCP, NetApp also announced enhanced NVMe based storage systems among other updates.

Two companies that have similar names are Opendrives (video workflow acceleration) and Opendrive (cloud storage, backup, and data protection). Meanwhile, data infrastructure startup Pavilion has received new funding as well as begun talking about their NVMe including NVMe over Fabric (NVMeOF) hardware storage system. Long-time data infrastructure converged server storage startup Pivot3 announced additional cloud workload mobility.

Pure storage made a couple of announcements including  FlashArray//X NVMe based shared accelerated storage system as well as NVIDIA (GPU powered) based AIRI Mini for AI/DL/ML.

Have you heard about Snowflake computing, aka, the cloud data warehouse solution? If not, check them out here. Another cloud-related data infrastructure vendor to look into is Upbound.io who have received additional funding for their multi-cloud management solutions.

Building off of recent VMware vSphere updates (here), and Dell Technology World here, the following is an excellent post about Instant Clone in vSphere 6.7, and VMware vSAN HCI assessment tool here.

Check out other industry news, comments, trends perspectives here.

Data Infrastructure Server StorageIO Comments Content

Server StorageIO Commentary in the news, tips and articles

Recent Server StorageIO industry trends perspectives commentary in the news.

Via SearchStorage: Comments Managing storage for IoT data at the enterprise edge
Via SearchCloudComputing: Comments Hybrid cloud deployment demands a change in security mindset
Via SearchStorage: Comments Dell EMC storage IPO, VMware merger plans still unclear
Via SearchStorage: Comments Dell EMC midrange storage keeps its overlapping arrays
Via SearchStorage: Comments Dell EMC all-flash PowerMax replaces VMAX, injects NVMe
Via IronMountain InfoGoto:  The growing Trend of Secondary Data Storage

View more Server, Storage and I/O trends and perspectives comments here.

Data Infrastructure Server StorageIOblog posts

Server StorageIOblog Data Infrastructure Posts

Recent and popular Server StorageIOblog posts include:

Dell Technology World 2018 Announcement Summary
Part II Dell Technology World 2018 Modern Data Center Announcement Details
Part III Dell Technology World 2018 Storage Announcement Details
Part IV Dell Technology World 2018 PowerEdge MX Gen-Z Composable Infrastructure
Part V Dell Technology World 2018 Server Converged Announcement Details
April 2018 Server StorageIO Data Infrastructure Update Newsletter
VMware vSphere vSAN vCenter version 6.7 SDDC Update Summary
PCIe Fundamentals Server Storage I/O Network Essentials
Have you heard about the new CLOUD Act data regulation?
Data Protection Recovery Life Post World Backup Day Pre GDPR
Microsoft Windows Server 2019 Insiders Preview
Application Data Value Characteristics Everything Is Not The Same
Data Infrastructure Resource Links cloud data protection tradecraft trends
IT transformation Serverless Life Beyond DevOps Podcast
Data Protection Diaries Fundamental Topics Tools Techniques Technologies Tips
Introducing Windows Subsystem for Linux WSL Overview
Data Infrastructure Primer Overview (Its Whats Inside The Data Center)
If NVMe is the answer, what are the questions?

View other recent as well as past StorageIOblog posts here

Server StorageIO Recommended Reading (Watching and Listening) List

Software-Defined Data Infrastructure Essentials SDDI SDDC

In addition to my own books including Software Defined Data Infrastructure Essentials (CRC Press 2017) available at Amazon.com (check out special sale price), the following are Server StorageIO data infrastructure recommended reading, watching and listening list items. The Server StorageIO data infrastructure recommended reading list includes various IT, Data Infrastructure and related topics including Intel Recommended Reading List (IRRL) for developers is a good resource to check out. Speaking of my books, Didier Van Hoye (@WorkingHardInIt) has a good review over on his site you can view here, also check out the rest of his great content while there.

Containers, serverless, kubernetes continue to gain in industry adoption, as well as customer deployments. Here is some information about Microsoft Azure Kubernetes Service (AKS). Note that AWS has Elastic Kubernetes Service (EKS), Google, VMware and Pivotal with Pivotal Kubernetes Service (PKS) among others.

Here is an interesting perspective by Ben Kepps about Serverless (e.g. life beyond Kubernetes and containers (e.g. life beyond virtualization which to some is or was life (e.g. life beyond bare metal))) as well as the all to often punditry, evangelism of something new causing something else to be dead.

SNIA has updated their Emerald aka Green energy effectiveness (focus on productivity) measurement specification (V3.01) including NAS NFS file activity (besides block). Learn more at snia.org/forums/green.

Watch for more items to be added to the recommended reading list book shelf soon.

Data Infrastructure Server StorageIO event activities

Events and Activities

Recent and upcoming event activities.

June 27, 2018 – Webinar – TBA

May 29, 2018 – Webinar – Microsoft Windows as a Service

April 24, 2018 – Webinar – AWS and on-site, on-premises hybrid data protection

See more webinars and activities on the Server StorageIO Events page here.

Data Infrastructure Server StorageIO Industry Resources and Links

Various useful links and resources:

Data Infrastructure Recommend Reading and watching list
Microsoft TechNet – Various Microsoft related from Azure to Docker to Windows
storageio.com/links – Various industry links (over 1,000 with more to be added soon)
objectstoragecenter.com – Cloud and object storage topics, tips and news items
OpenStack.org – Various OpenStack related items
storageio.com/downloads – Various presentations and other download material
storageio.com/protect – Various data protection items and topics
thenvmeplace.com – Focus on NVMe trends and technologies
thessdplace.com – NVM and Solid State Disk topics, tips and techniques
storageio.com/converge – Various CI, HCI and related SDS topics
storageio.com/performance – Various server, storage and I/O benchmark and tools
VMware Technical Network – Various VMware related items

Connect and Converse With Us

Storage IO RSS storageio linkedin storageio facebook Server StorageIO on twitter @StorageIO   Google+  Server StorageIO email storageio youtube  storageio instagram

Subscribe to Newsletter – Newsletter Archives StorageIO.comStorageIOblog.com

What this all means and wrap-up

Data Infrastructures are what exists inside physical data centers spanning cloud, converged, hyper-converged, virtual, serverless and other software defined as well as legacy environments. So far this spring there has been a lot of data infrastructure related activity, from new technology announcements, to events, trends among others. Enjoy this edition of the Server StorageIO Data Infrastructure update newsletter and watch for more NVMe, Gen-Z, cloud, data protection among other topics in future posts, articles, events, and newsletters.

Ok, nuff said, for now.

Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2018. Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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.

Use Intel Optane NVMe U.2 SFF 8639 SSD drive in PCIe slot

Use NVMe U.2 SFF 8639 disk drive form factor SSD in PCIe slot

server storage I/O data infrastructure trends

Need to install or use an Intel Optane NVMe 900P or other Nonvolatile Memory (NVM) Express NVMe based U.2 SFF 8639 disk drive form factor Solid State Device (SSD) into PCIe a slot?

For example, I needed to connect an Intel Optane NVMe 900P U.2 SFF 8639 drive form factor SSD into one of my servers using an available PCIe slot.

The solution I used was an carrier adapter card such as those from Ableconn (PEXU2-132 NVMe 2.5-inch U.2 [SFF-8639] via Amazon.com among other global venues.

xxxx
Top Intel 750 NVMe PCIe AiC SSD, bottom Intel Optane NVMe 900P U.2 SSD with Ableconn carrier

The above image shows top an Intel 750 NVMe PCIe Add in Card (AiC) SSD and on the bottom an Intel Optane NVMe 900P 280GB U.2 (SFF 8639) drive form factor SSD mounted on an Ableconn carrier adapter.

NVMe server storage I/O sddc

NVMe Tradecraft Refresher

NVMe is the protocol that is implemented with different topologies including local via PCIe using U.2 aka SFF-8639 (aka disk drive form factor), M.2 aka Next Generation Form Factor (NGFF) also known as "gum stick", along with PCIe Add in Card (AiC). NVMe accessed devices can be installed in laptops, ultra books, workstations, servers and storage systems using the various form factors. U.2 drives are also refereed to by some as PCIe drives in that the NVMe command set protocol is implemented using PCIe x4 physical connection to the devices. Jump ahead if you want to skip over the NVMe primer refresh material to learn more about U.2 8639 devices.

data infrastructure nvme u.2 8639 ssd
Various SSD device form factors and interfaces

In addition to form factor, NVMe devices can be direct attached and dedicated, rack and shared, as well as accessed via networks also known as fabrics such as NVMe over Fabrics.

NVMeoF FC-NVMe NVMe fabric SDDC
The many facets of NVMe as a front-end, back-end, direct attach and fabric

Context is important with NVMe in that fabric can mean NVMe over Fibre Channel (FC-NVMe) where the NVMe command set protocol is used in place of SCSI Fibre Channel Protocol (e.g. SCSI_FCP) aka FCP or what many simply know and refer to as Fibre Channel. NVMe over Fabric can also mean NVMe command set implemented over an RDMA over Converged Ethernet (RoCE) based network.

NVM and NVMe accessed flash SCM SSD storage

Another point of context is not to confuse Nonvolatile Memory (NVM) which are the storage or memory media and NVMe which is the interface for accessing storage (e.g. similar to SAS, SATA and others). As a refresher, NVM or the media are the various persistent memories (PM) including NVRAM, NAND Flash, 3D XPoint along with other storage class memories (SCM) used in SSD (in various packaging).

Learn more about 3D XPoint with the following resources:

Learn more (or refresh) your NVMe server storage I/O knowledge, experience tradecraft skill set with this post here. View this piece here looking at NVM vs. NVMe and how one is the media where data is stored, while the other is an access protocol (e.g. NVMe). Also visit www.thenvmeplace.com to view additional NVMe tips, tools, technologies, and related resources.

NVMe U.2 SFF-8639 aka 8639 SSD

On quick glance, an NVMe U.2 SFF-8639 SSD may look like a SAS small form factor (SFF) 2.5" HDD or SSD. Also, keep in mind that HDD and SSD with SAS interface have a small tab to prevent inserting them into a SATA port. As a reminder, SATA devices can plug into SAS ports, however not the other way around which is what the key tab function does (prevents accidental insertion of SAS into SATA). Looking at the left-hand side of the following image you will see an NVMe SFF 8639 aka U.2 backplane connector which looks similar to a SAS port.

Note that depending on how implemented including its internal controller, flash translation layer (FTL), firmware and other considerations, an NVMe U.2 or 8639 x4 SSD should have similar performance to a comparable NVMe x4 PCIe AiC (e.g. card) device. By comparable device, I mean the same type of NVM media (e.g. flash or 3D XPoint), FTL and controller. Likewise generally an PCIe x8 should be faster than an x4, however more PCIe lanes does not mean more performance, its what’s inside and how those lanes are actually used that matter.

NVMe U.2 8639 2.5" 1.8" SSD driveNVMe U.2 8639 2.5 1.8 SSD drive slot pin
NVMe U.2 SFF 8639 Drive (Software Defined Data Infrastructure Essentials CRC Press)

With U.2 devices the key tab that prevents SAS drives from inserting into a SATA port is where four pins that support PCIe x4 are located. What this all means is that a U.2 8639 port or socket can accept an NVMe, SAS or SATA device depending on how the port is configured. Note that the U.2 8639 port is either connected to a SAS controller for SAS and SATA devices or a PCIe port, riser or adapter.

On the left of the above figure is a view towards the backplane of a storage enclosure in a server that supports SAS, SATA, and NVMe (e.g. 8639). On the right of the above figure is the connector end of an 8639 NVM SSD showing addition pin connectors compared to a SAS or SATA device. Those extra pins give PCIe x4 connectivity to the NVMe devices. The 8639 drive connectors enable a device such as an NVM, or NAND flash SSD to share a common physical storage enclosure with SAS and SATA devices, including optional dual-pathing.

More PCIe lanes may not mean faster performance, verify if those lanes (e.g. x4 x8 x16 etc) are present just for mechanical (e.g. physical) as well as electrical (they are also usable) and actually being used. Also, note that some PCIe storage devices or adapters might be for example an x8 for supporting two channels or devices each at x4. Likewise, some devices might be x16 yet only support four x4 devices.

NVMe U.2 SFF 8639 PCIe Drive SSD FAQ

Some common questions pertaining NVMe U.2 aka SFF 8639 interface and form factor based SSD include:

Why use U.2 type devices?

Compatibility with what’s available for server storage I/O slots in a server, appliance, storage enclosure. Ability to mix and match SAS, SATA and NVMe with some caveats in the same enclosure. Support higher density storage configurations maximizing available PCIe slots and enclosure density.

Is PCIe x4 with NVMe U.2 devices fast enough?

While not as fast as a PCIe AiC that fully supports x8 or x16 or higher, an x4 U.2 NVMe accessed SSD should be plenty fast for many applications. If you need more performance, then go with a faster AiC card.

Why not go with all PCIe AiC?

If you need the speed, simplicity, have available PCIe card slots, then put as many of those in your systems or appliances as possible. Otoh, some servers or appliances are PCIe slot constrained so U.2 devices can be used to increase the number of devices attached to a PCIe backplane while also supporting SAS, SATA based SSD or HDDs.

Why not use M.2 devices?

If your system or appliances supports NVMe M.2 those are good options. Some systems even support a combination of M.2 for local boot, staging, logs, work and other storage space while PCIe AiC are for performance along with U.2 devices.

Why not use NVMeoF?

Good question, why not, that is, if your shared storage system supports NVMeoF or FC-NVMe go ahead and use that, however, you might also need some local NVMe devices. Likewise, if yours is a software-defined storage platform that needs local storage, then NVMe U.2, M.2 and AiC or custom cards are an option. On the other hand, a shared fabric NVMe based solution may support a mixed pool of SAS, SATA along with NVMe U.2, M.2, AiC or custom cards as its back-end storage resources.

When not to use U.2?

If your system, appliance or enclosure does not support U.2 and you do not have a need for it. Or, if you need more performance such as from an x8 or x16 based AiC, or you need shared storage. Granted a shared storage system may have U.2 based SSD drives as back-end storage among other options.

How does the U.2 backplane connector attach to PCIe?

Via enclosures backplane, there is either a direct hardwire connection to the PCIe backplane, or, via a connector cable to a riser card or similar mechanism.

Does NVMe replace SAS, SATA or Fibre Channel as an interface?

The NVMe command set is an alternative to the traditional SCSI command set used in SAS and Fibre Channel. That means it can replace, or co-exist depending on your needs and preferences for access various storage devices.

Who supports U.2 devices?

Dell has supported U.2 aka PCIe drives in some of their servers for many years, as has Intel and many others. Likewise, U.2 8639 SSD drives including 3D Xpoint and NAND flash-based are available from Intel among others.

Can you have AiC, U.2 and M.2 devices in the same system?

If your server or appliance or storage system support them then yes. Likewise, there are M.2 to PCIe AiC, M.2 to SATA along with other adapters available for your servers, workstations or software-defined storage system platform.

NVMe U.2 carrier to PCIe adapter

The following images show examples of mounting an Intel Optane NVMe 900P accessed U.2 8639 SSD on an Ableconn PCIe AiC carrier. Once U.2 SSD is mounted, the Ableconn adapter inserts into an available PCIe slot similar to other AiC devices. From a server or storage appliances software perspective, the Ableconn is a pass-through device so your normal device drivers are used, for example VMware vSphere ESXi 6.5 recognizes the Intel Optane device, similar with Windows and other operating systems.

intel optane 900p u.2 8639 nvme drive bottom view
Intel Optane NVMe 900P U.2 SSD and Ableconn PCIe AiC carrier

The above image shows the Ableconn adapter carrier card along with NVMe U.2 8639 pins on the Intel Optane NVMe 900P.

intel optane 900p u.2 8639 nvme drive end view
Views of Intel Optane NVMe 900P U.2 8639 and Ableconn carrier connectors

The above image shows an edge view of the NVMe U.2 SFF 8639 Intel Optane NVMe 900P SSD along with those on the Ableconn adapter carrier. The following images show an Intel Optane NVMe 900P SSD installed in a PCIe AiC slot using an Ableconn carrier, along with how VMware vSphere ESXi 6.5 sees the device using plug and play NVMe device drivers.

NVMe U.2 8639 installed in PCIe AiC Slot
Intel Optane NVMe 900P U.2 SSD installed in PCIe AiC Slot

NVMe U.2 8639 and VMware vSphere ESXi
How VMware vSphere ESXi 6.5 sees NVMe U.2 device

Intel NVMe Optane NVMe 3D XPoint based and other SSDs

Here are some Amazon.com links to various Intel Optane NVMe 3D XPoint based SSDs in different packaging form factors:

Here are some Amazon.com links to various Intel and other vendor NAND flash based NVMe accessed SSDs including U.2, M.2 and AiC form factors:

Note in addition to carriers to adapt U.2 8639 devices to PCIe AiC form factor and interfaces, there are also M.2 NGFF to PCIe AiC among others. An example is the Ableconn M.2 NGFF PCIe SSD to PCI Express 3.0 x4 Host Adapter Card.

In addition to Amazon.com, Newegg.com, Ebay and many other venues carry NVMe related technologies.
The Intel Optane NVMe 900P are newer, however the Intel 750 Series along with other Intel NAND Flash based SSDs are still good price performers and as well as provide value. I have accumulated several Intel 750 NVMe devices over past few years as they are great price performers. Check out this related post Get in the NVMe SSD game (if you are not already).

Where To Learn More

View additional NVMe, SSD, NVM, SCM, Data Infrastructure and related topics via the following links.

Additional learning experiences along with common questions (and answers), as well as tips can be found in Software Defined Data Infrastructure Essentials book.

Software Defined Data Infrastructure Essentials Book SDDC

What This All Means

NVMe accessed storage is in your future, however there are various questions to address including exploring your options for type of devices, form factors, configurations among other topics. Some NVMe accessed storage is direct attached and dedicated in laptops, ultrabooks, workstations and servers including PCIe AiC, M.2 and U.2 SSDs, while others are shared networked aka fabric based. NVMe over fabric (e.g. NVMeoF) includes RDMA over converged Ethernet (RoCE) as well as NVMe over Fibre Channel (e.g. FC-NVMe). Networked fabric accessed NVMe access of pooled shared storage systems and appliances can also include internal NVMe attached devices (e.g. as part of back-end storage) as well as other SSDs (e.g. SAS, SATA).

General wrap-up (for now) NVMe U.2 8639 and related tips include:

  • Verify the performance of the device vs. how many PCIe lanes exist
  • Update any applicable BIOS/UEFI, device drivers and other software
  • Check the form factor and interface needed (e.g. U.2, M.2 / NGFF, AiC) for a given scenario
  • Look carefully at the NVMe devices being ordered for proper form factor and interface
  • With M.2 verify that it is an NVMe enabled device vs. SATA

Learn more about NVMe at www.thenvmeplace.com including how to use Intel Optane NVMe 900P U.2 SFF 8639 disk drive form factor SSDs in PCIe slots as well as for fabric among other scenarios.

Ok, nuff said, for now.

Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2017 (vSAN and vCloud). Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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.

NVMe Wont Replace Flash By Itself They Complement Each Other

NVMe Wont Replace Flash By Itself They Complement Each Other

server storage I/O data infrastructure trends

Updated 2/2/2018

NVMe Wont Replace Flash By Itself They Complement Each Other

>various NVM flash and SSD devices
Various Solid State Devices (SSD) including NVMe, SAS, SATA, USB, M.2

There has been some recent industry marketing buzz generated by a startup to get some attention by claiming via a study sponsored by including the startup that Non-Volatile Memory (NVM) Express (NVMe) will replace flash storage. Granted, many IT customers as well as vendors are still confused by NVMe thinking it is a storage medium as opposed to an interface used for accessing fast storage devices such as nand flash among other solid state devices (SSDs). Part of that confusion can be tied to common SSD based devices rely on NVM that are persistent memory retaining data when powered off (unlike the memory in your computer).

NVMe is an access interface and protocol

Instead of saying NVMe will mean the demise of flash, what should or could be said however some might be scared to say it is that other interfaces and protocols such as SAS (Serial Attached SCSI), AHCI/SATA, mSATA, Fibre Channel SCSI Protocol aka FCP aka simply Fibre Channel (FC), iSCSI and others are what can be replaced by NVMe. NVMe is simply the path or roadway along with traffic rules for getting from point a (such as a server) to point b (some storage device or medium e.g. flash SSD). The storage medium is where data is stored such as magnetic for Hard Disk Drive (HDD) or tape, nand flash, 3D XPoint, Optane among others.

NVMe and NVM better together

NVMe and NVM including flash are better together

The simple quick get to the point is that NVMe (e.g. Non Volatile Memory aka NVM Express [NVMe]) is an interface protocol (like SAS/SATA/iSCSI among others) used for communicating with various nonvolatile memory (NVM) and solid state device (SSDs). NVMe is how data gets moved between a computer or other system and the NVM persistent memory such as nand flash, 3D XPoint, Spintorque or other storage class memories (SCM).

In other words, the only thing NVMe will, should, might or could kill off would be the use of some other interface such as SAS, SATA/AHCI, Fibre Channel, iSCSI along with propritary driver or protocols. On the other hand, given the extensibility of NVMe and how it can be used in different configurations including as part of fabrics, it is an enabler for various NVMs also known as persistent memories, SCMs, SSDs including those based on NAND flash as well as emerging 3D XPoint (or Intel version) among others.

Where To Learn More

View additional NVMe, SSD, NVM, SCM, Data Infrastructure and related topics via the following links.

Additional learning experiences along with common questions (and answers), as well as tips can be found in Software Defined Data Infrastructure Essentials book.

Software Defined Data Infrastructure Essentials Book SDDC

What This All Means

Context matters for example, NVM as the medium compared to NVMe as the interface and access protocols. With context in mind you can compare like or similar apples to apples such as nand flash, MRAM, NVRAM, 3D XPoint, Optane among other persistent memories also known as storage class memories, NVMs and SSDs. Likewise with context in mind NVMe can be compared to other interfaces and protocols such as SAS, SATA, PCIe, mSATA, Fibre Channel among others. The following puts all of this into context including various packaging options, interfaces and access protocols, functionality and media.

NVMe is the access for NVM flash
Putting IT all together

Will NVMe kill off flash? IMHO no not by itself, however NVMe combined with some other form of NVM, SCM, persistent memory as a storage medium may eventually combine as an alternative to NVMe and flash (or SAS/SATA and flash). However, for now at least for many applications, NVMe is in your future (along with flash among other storage mediums), the questions include when, where, why, how, with what among other questions (and answers). NVMe wont replace flash by itself (at least yet) as they complement each other.

Keep in mind, if NVMe is the answer, what are the questions.

Ok, nuff said, for now.

Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2017 (vSAN and vCloud). Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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.

New family of Intel Xeon Scalable Processors enable software defined data infrastructures (SDDI) and SDDC

Intel Xeon Scalable Processors SDDI and SDDC

server storage I/O data infrastructure trends

Today Intel announced a new family of Xeon Scalable Processors (aka Purely) that for some workloads Intel claims to be on average of 1.65x faster than their predecessors. Note your real improvement will vary based on workload, configuration, benchmark testing, type of processor, memory, and many other server storage I/O performance considerations.

Intel Scalable Xeon Processors
Image via Intel.com

In general the new Intel Xeon Scalable Processors enable legacy and software defined data infrastructures (SDDI), along with software defined data centers (SDDC), cloud and other environments to support expanding workloads more efficiently as well as effectively (e.g. boosting productivity).

Data Infrastructures and workloads

Some target application and environment workloads Intel is positioning these new processors for includes among others:

  • Machine Learning (ML), Artificial Intelligence (AI), advanced analytics, deep learning and big data
  • Networking including software defined network (SDN) and network function virtualization (NFV)
  • Cloud and Virtualization including Azure Stack, Docker and Kubernetes containers, Hyper-V, KVM, OpenStack VMware vSphere, KVM among others
  • High Performance Compute (HPC) and High Productivity Compute (e.g. the other HPC)
  • Storage including legacy and emerging software defined storage software deployed as appliances, systems or server less deployment modes.

Features of the new Intel Xeon Scalable Processors include:

  • New core micro architecture with interconnects and on die memory controllers
  • Sockets (processors) scalable up to 28 cores
  • Improved networking performance using Quick Assist and Data Plane Development Kit (DPDK)
  • Leverages Intel Quick Assist Technology for CPU offload of compute intensive functions including I/O networking, security, AI, ML, big data, analytics and storage functions. Functions that benefit from Quick Assist include cryptography, encryption, authentication, cipher operations, digital signatures, key exchange, loss less data compression and data footprint reduction along with data at rest encryption (DARE).
  • Optane Non-Volatile Dual Inline Memory Module (NVDIMM) for storage class memory (SCM) also referred to by some as Persistent Memory (PM), not to be confused with Physical Machine (PM).
  • Supports Advanced Vector Extensions 512  (AVX-512) for HPC and other workloads
  • Optional Omni-Path Fabrics in addition to 1/10Gb Ethernet among other I/O options
  • Six memory channels supporting up to 6TB of RDIMM with multi socket systems
  • From two to eight  sockets per node (system)
  • Systems support PCIe 3.x (some supporting x4 based M.2 interconnects)

Note that exact speeds, feeds, slots and watts will vary by specific server model and vendor options. Also note that some server system solutions have two or more nodes (e.g. two or more real servers) in a single package not to be confused with two or more sockets per node (system or motherboard). Refer to the where to learn more section below for links to Intel benchmarks and other resources.

Software Defined Data Infrastructures, SDDC, SDX and SDDI

What About Speeds and Feeds

Watch for and check out the various Intel partners who have or will be announcing their new server compute platforms based on Intel Xeon Scalable Processors. Each of the different vendors will have various speeds and feeds options that build on the fundamental Intel Xeon Scalable Processor capabilities.

For example Dell EMC announced their 14G server platforms at the May 2017 Dell EMC World event with details to follow (e.g. after the Intel announcements).

Some things to keep in mind include the amount of DDR4 DRAM (or Optane NVDIMM) will vary by vendors server platform configuration, motherboards, several sockets and DIMM slots. Also keep in mind the differences between registered (e.g. buffered RDIMM) that give good capacity and great performance, and load reduced DIMM (LRDIMM) that have great capacity and ok performance.

Various nvme options

What about NVMe

It’s there as these systems like previous Intel models support NVMe devices via PCIe 3.x slots, and some vendor solutions also supporting M.2 x4 physical interconnects as well.

server storageIO flash and SSD
Image via Software Defined Data Infrastructure Essentials (CRC)

Note that Broadcom formerly known as Avago and LSI recently announced PCIe based RAID and adapter cards that support NVMe attached devices in addition to SAS and SATA.

server storage data infrastructure sddi

What About Intel and Storage

In case you have not connected the dots yet, the Intel Xeon Scalable Processor based server (aka compute) systems are also a fundamental platform for storage systems, services, solutions, appliances along with tin-wrapped software.

What this means is that the Intel Xeon Scalable Processors based systems can be used for deploying legacy as well as new and emerging software-defined storage software solutions. This also means that the Intel platforms can be used to support SDDC, SDDI, SDX, SDI as well as other forms of legacy and software-defined data infrastructures along with cloud, virtual, container, server less among other modes of deployment.

Image Via Intel.com

Moving beyond server and compute platforms, there is another tie to storage as part of this recent as well as other Intel announcements. Just a few weeks ago Intel announced 64 layer triple level cell (TLC) 3D NAND solutions positioned for the client market (laptop, workstations, tablets, thin clients). Intel with that announcement increased the traditional aerial density (e.g. bits per square inch or cm) as well as boosting the number of layers (stacking more bits as well).

The net result is not only more bits per square inch, also more per cubic inch or cm. This is all part of a continued evolution of NAND flash including from 2D to 3D, MCL to TLC, 32 to 64 layer.  In other words, NAND flash-based Solid State Devices (SSDs) are very much still a relevant and continue to be enhanced technology even with the emerging 3D XPoint and Optane (also available via Amazon in M.2) in the wings.

server memory evolution
Via Intel and Micron (3D XPoint launch)

Keep in mind that NAND flash-based technologies were announced almost 20 years ago (1999), and are still evolving. 3D XPoint announced two years ago, along with other emerging storage class memories (SCM), non-volatile memory (NVM) and persistent memory (PM) devices are part of the future as is 3D NAND (among others). Speaking of 3D XPoint and Optane, Intel had announcements about that in the past as well.

Where To Learn More

Learn more about Intel Xeon Scalable Processors along with related technology, trends, tools, techniques and tips with the following links.

What This All Means

Some say the PC is dead and IMHO that depends on what you mean or define a PC as. For example if you refer to a PC generically to also include servers besides workstations or other devices, then they are alive. If however your view is that PCs are only workstations and client devices, then they are on the decline.

However if your view is that a PC is defined by the underlying processor such as Intel general purpose 64 bit x86 derivative (or descendent) then they are very much alive. Just as older generations of PCs leveraging general purpose Intel based x86 (and its predecessors) processors were deployed for many uses, so to are today’s line of Xeon (among others) processors.

Even with the increase of ARM, GPU and other specialized processors, as well as ASIC and FPGAs for offloads, the role of general purpose processors continues to increase, as does the technology evolution around. Even with so called server less architectures, they still need underlying compute server platforms for running software, which also includes software defined storage, software defined networks, SDDC, SDDI, SDX, IoT among others.

Overall this is a good set of announcements by Intel and what we can also expect to be a flood of enhancements from their partners who will use the new family of Intel Xeon Scalable Processors in their products to enable software defined data infrastructures (SDDI) and SDDC.

Ok, nuff said (for now…).

Cheers
Gs

Greg Schulz – Multi-year Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Watch for the spring 2017 release of his new book "Software-Defined Data Infrastructure Essentials" (CRC Press).

Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO. All Rights Reserved.

VMware vSAN 6.6 hyper-converged (HCI) software defined data infrastructure

server storage I/O trends

VMware vSAN 6.6 hyper-converged (HCI) software defined data infrastructure

In case you missed it, VMware announced vSAN v6.6 hyper-converged infrastructure (HCI) software defined data infrastructure solution. This is the first of a five-part series about VMware vSAN V6.6. Part II (just the speeds feeds please) is located here, part III (reducing cost and complexity) located here, part IV (scaling ROBO and data centers today) found here, as well as part V here (VMware vSAN evolution, where to learn more and summary).

VMware vSAN 6.6
Image via VMware

For those who are not aware, vSAN is a VMware virtual Storage Area Network (e.g. vSAN) that is software-defined, part of being a software-defined data infrastructure (SDDI) and software-defined data center (SDDC). Besides being software-defined vSAN is HCI combining compute (server), I/O networking, storage (space and I/O) along with hypervisors, management, and other tools.

Software-defined data infrastructure

Excuse Me, What is vSAN and who is if for

Some might find it odd having to explain what vSAN is, on the other hand, not everybody is dialed into the VMware world ecosystem, so let’s give them some help, for everybody else, and feel free to jump ahead.

For those not familiar, VMware vSAN is an HCI software-defined storage solution that converges compute (hypervisors and server) with storage space capacity and I/O performance along with networking. Being HCI means that with vSAN as you scale compute, storage space capacity and I/O performance also increases in an aggregated fashion. Likewise, increase storage space capacity and server I/O performance you also get more compute capabilities (along with memory).

For VMware-centric environments looking to go CI or HCI, vSAN offers compelling value proposition leveraging known VMware tools and staff skills (knowledge, experience, tradecraft). Another benefit of vSAN is the ability to select your hardware platform from different vendors, a trend that other CI/HCI vendors have started to offer as well.

CI and HCI data infrastructure

Keep in mind that fast applications need a fast server, I/O and storage, as well as server storage I/O needs CPU along with memory to generate I/O operations (IOPs) or move data. What this all means is that HCI solutions such as VMware vSAN combine or converge the server compute, hypervisors, storage file system, storage devices, I/O and networking along with other functionality into an easy to deploy (and management) turnkey solution.

Learn more about CI and HCI along with who some other vendors are as well as considerations at www.storageio.com/converge. Also, visit VMware sites to find out more about vSphere ESXi hypervisors, vSAN, NSX (Software Defined Networking), vCenter, vRealize along with other tools for enabling SDDC and SDDI.

Give Me the Quick Elevator Pitch Summary

VMware has enhanced vSAN with version 6.6 (V6.6) enabling new functionality, supporting new hardware platforms along with partners, while reducing costs, improving scalability and resiliency for SDDC and SDDI environments. This includes from small medium business (SMB) to mid-market to small medium enterprise (SME) as well as workgroup, departmental along with Remote Office Branch Office (ROBO).

Being a HCI solution, management functions of the server, storage, I/O, networking, hypervisor, hardware, and software are converged to improve management productivity. Also, vSAN integrated with VMware vSphere among other tools enable modern, robust data infrastructure that serves, protect, preserve, secure and stores data along with their associated applications.

Where to Learn More

The following are additional resources to learn more about vSAN and related technologies.

What this all means

Overall a good set of enhancements as vSAN continues its evolution looking back just a few years ago, to where it is today and will be in the future. If you have not looked at vSAN recently, take some time beyond reading this piece to learn some more.

Continue reading more about VMware vSAN 6.6 in part II (just the speeds feeds please) is located here, part III (reducing cost and complexity) located here, part IV (scaling ROBO and data centers today) located here, as well as part V here (VMware vSAN evolution, where to learn more and summary).

Ok, nuff said (for now…).

Cheers
Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Watch for the spring 2017 release of his new book “Software-Defined Data Infrastructure Essentials” (CRC Press).

Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO. All Rights Reserved.

VMware vSAN V6.6 Part II (just the speeds feeds features please)

server storage I/O trends

VMware vSAN v6.6 Part II (just the speeds feeds features please)

In case you missed it, VMware announced vSAN v6.6 hyper-converged infrastructure (HCI) software defined data infrastructure solution. This is the second of a five-part series about VMware vSAN V6.6. View Part I here, part III (reducing cost and complexity) located here, part IV (scaling ROBO and data centers today) found here, as well as part V here (VMware vSAN evolution, where to learn more and summary).

VMware vSAN 6.6
Image via VMware

For those who are not aware, vSAN is a VMware virtual Storage Area Network (e.g. vSAN) that is software-defined, part of being a software-defined data infrastructure (SDDI) and software-defined data center (SDDC). Besides being software-defined vSAN is HCI combining compute (server), I/O networking, storage (space and I/O) along with hypervisors, management, and other tools.

Just the Speeds and Feeds Please

For those who just want to see the list of what’s new with vSAN V6.6, here you go:

  • Native encryption for data-at-rest
  • Compliance certifications
  • Resilient management independent of vCenter
  • Degraded Disk Handling v2.0 (DDHv2)
  • Smart repairs and enhanced rebalancing
  • Intelligent rebuilds using partial repairs
  • Certified file service & data protection solutions
  • Stretched clusters with local failure protection
  • Site affinity for stretched clusters
  • 1-click witness change for Stretched Cluster
  • vSAN Management Pack for vRealize
  • Enhanced vSAN SDK and PowerCLI
  • Simple networking with Unicast
  • vSAN Cloud Analytics with real-time support notification and recommendations
  • vSAN ConfigAssist with 1-click hardware lifecycle management
  • Extended vSAN Health Services
  • vSAN Easy Install with 1-click fixes
  • Up to 50% greater IOPS for all-flash with optimized checksum and dedupe
  • Support for new next-gen workloads
  • vSAN for Photon in Photon Platform 1.1
  • Day 0 support for latest flash technologies
  • Expanded caching tier choice
  • Docker Volume Driver 1.1

What’s New and Value Proposition of vSAN 6.6

Let’s take a closer look beyond the bullet list of what’s new with vSAN 6.6, as well as perspectives of those features to address different needs. The VMware vSAN proposition is to evolve and enable modernizing data infrastructures with HCI powered by vSphere along with vSAN.

Three main themes or characteristics (and benefits) of vSAN 6.6 include addressing (or enabling):

  • Reducing risk while scaling
  • Reducing cost and complexity
  • Scaling for today and tomorrow

VMware vSAN 6.6 summary
Image via VMware

Reducing risk while scaling

Reducing (or removing) risk while evolving your data infrastructure with HCI including flexibility of choosing among five support hardware vendors along with native security. This includes native security, availability and resiliency enhancements (including intelligent rebuilds) without sacrificing storage efficiency (capacity) or effectiveness (performance productivity), management and choice.

VMware vSAN DaRE
Image via VMware

Dat level Data at Rest Encryption (DaRE) of all vSAN dat objects that are enabled at a cluster level. The new functionality supports hybrid along with all flash SSD as well as stretched clusters. The VMware vSAN DaRE implementation is an alternative to using self-encrypting drives (SEDs) reducing cost, complexity and management activity. All vSAN features including data footprint reduction (DFR) features such as compression and deduplication are supported. For security, vSAN DaRE integrations with compliance key management technologies including those from SafeNet, Hytrust, Thales and Vormetric among others.

VMware vSAN management
Image via VMware

ESXi HTML 5 based host client, along with CLI via ESXCLI for administering vSAN clusters as an alternative in case your vCenter server(s) are offline. Management capabilities include monitoring of critical health and status details along with configuration changes.

VMware vSAN health management
Image via VMware

Health monitoring enhancements include handling of degraded vSAN devices with intelligence proactively detecting impending device failures. As part of the functionality, if a replica of the failing (or possible soon to fail) device exists, vSAN can take action to maintain data availability.

Where to Learn More

The following are additional resources to find out more about vSAN and related technologies.

What this all means

With each new release, vSAN is increasing its feature, functionality, resiliency and extensiveness associated with traditional storage and non-CI or HCI solutions. Continue reading more about VMware vSAN 6.6 in Part I here, part III (reducing cost and complexity) located here, part IV (scaling ROBO and data centers today) found here, as well as part V here (VMware vSAN evolution, where to learn more and summary).

Ok, nuff said (for now…).

Cheers
Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Watch for the Spring 2017 release of his new book “Software-Defined Data Infrastructure Essentials” (CRC Press).

Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO. All Rights Reserved.

VMware vSAN V6.6 Part III (reducing costs complexity)

server storage I/O trends

VMware vSAN V6.6 Part III (Reducing costs complexity)

In case you missed it, VMware announced vSAN v6.6 hyper-converged infrastructure (HCI) software defined data infrastructure solution. This is the third of a five-part series about VMware vSAN V6.6. View Part I here, Part II (just the speeds feeds please) is located here, part IV (scaling ROBO and data centers today) found here, as well as part V here (VMware vSAN evolution, where to learn more and summary).

VMware vSAN 6.6
Image via VMware

For those who are not aware, vSAN is a VMware virtual Storage Area Network (e.g. vSAN) that is software-defined, part of being a software-defined data infrastructure (SDDI) and software-defined data center (SDDC). Besides being software-defined vSAN is HCI combining compute (server), I/O networking, storage (space and I/O) along with hypervisors, management, and other tools.

Reducing cost and complexity

Reducing your total cost of ownership (TCO) including lower capital expenditures (CapEx) and operating (OPEX). VMware is claiming CapEx and OpEx reduced TCO of 50%. Keep in mind that solutions such as vSAN also can help drive return on investment (ROI) as well as return on innovation (the other ROI) via improved productivity, effectiveness, as well as efficiencies (savings). Another aspect of addressing TCO and ROI includes flexibility leveraging stretched clusters to address HA, BR, BC and DR Availability needs cost effectively. These enhancements include efficiency (and effectiveness e.g. productivity) at scale, proactive cloud analytics, and intelligent operations.

VMware vSAN stretch cluster
Image via VMware

Low cost (or cost-effective) Local, Remote Resiliency and Data Protection with Stretched Clusters across sites. Upon a site failure, vSAN maintains availability is leveraging surviving site redundancy. For performance and productivity effectiveness, I/O traffic is kept local where possible and practical, reducing cross-site network workload. Bear in mind that the best I/O is the one you do not have to do, the second is the one with the least impact.

This means if you can address I/Os as close to the application as possible (e.g. locality of reference), that is a better I/O. On the other hand, when data is not local, then the best I/O is the one involving a local or remote site with least overhead impact to applications, as well as server storage I/O (including networks) resources. Also keep in mind that with vSAN you can fine tune availability, resiliency and data protection to meet various needs by adjusting fault tolerant mode (FTM) to address a different number of failures to tolerate.

server storage I/O locality of reference

Network and cloud friendly Unicast Communication enhancements. To improve performance, availability, and capacity (CPU demand reduction) multicast communications are no longer used making for easier, simplified single site and stretched cluster configurations. When vSAN clusters upgrade to V6.6 unicast is enabled.

VMware vSAN unicast
Image via VMware

Gaining insight, awareness, adding intelligence to avoid flying blind, introducing vSAN Cloud Analytics and Proactive Guidance. Part of a VMware customer, experience improvement program, leverages cloud-based health checks for easy online known issue detection along with relevant knowledge bases pieces as well as other support notices. Whether you choose to refer to this feature as advanced analytics, artificial intelligence (AI), proactive rules enabled management problem isolation, solving resolution I will leave that up to you.

VMware vSAN cloud analytics
Image via VMware

Part of the new tools analytics capabilities and prescriptive problem resolution (hmm, some might call that AI or advanced analytics, just saying), health check issues are identified, notifications along with suggested remediation. Another feature is the ability to leverage continuous proactive updates for advance remediation vs. waiting for subsequent vSAN releases. Net result and benefit are reducing time, the complexity of troubleshooting converged data infrastructure issues spanning servers, storage, I/O networking, hardware, software, cloud, and configuration. In other words, enable you more time to be productive vs. finding and fixing problems leveraging informed awareness for smart decision-making.

Where to Learn More

The following are additional resources to find out more about vSAN and related technologies.

What this all means

Continue reading more about VMware vSAN 6.6 in part I here, part II (just the speeds feeds please) located here, part IV (scaling ROBO and data centers today) found here, as well as part V here (VMware vSAN evolution, where to learn more and summary).

Ok, nuff said (for now…).

Cheers
Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Watch for the spring 2017 release of his new book “Software-Defined Data Infrastructure Essentials” (CRC Press).

Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO. All Rights Reserved.

VMware vSAN V6.6 Part IV (HCI scaling ROBO and data centers today)

server storage I/O trends

VMware vSAN V6.6 Part IV (HCI scaling ROBO and data centers today)

In case you missed it, VMware announced vSAN v6.6 hyper-converged infrastructure (HCI) software defined data infrastructure solution. This is the fourth of a five-part series about VMware vSAN V6.6. View Part I here, Part II (just the speeds feeds please) is located here, part III (reducing cost and complexity) located here, as well as part V here (VMware vSAN evolution, where to learn more and summary).

VMware vSAN 6.6
Image via VMware

For those who are not aware, vSAN is a VMware virtual Storage Area Network (e.g. vSAN) that is software-defined, part of being a software-defined data infrastructure (SDDI) and software-defined data center (SDDC). Besides being software-defined vSAN is HCI combining compute (server), I/O networking, storage (space and I/O) along with hypervisors, management, and other tools.

Scaling HCI for ROBO and data centers today and for tomorrow

Scaling with stability for today and tomorrow. This includes addressing your applications Performance, Availability, Capacity and Economics (PACE) workload requirements today and for the future. By scaling with stability means boosting performance, availability (data protection, security, resiliency, durable, FTT), effective capacity without one of those attributes compromising another.

VMware vSAN data center scaling
Image via VMware

Scaling today for tomorrow also means adapting to today’s needs while also flexible to evolve with new application workloads, hardware as well as a cloud (public, private, hybrid, inter and intra-cloud). As part of continued performance improvements, enhancements to optimize for higher performance flash SSD including NVMe based devices.

VMware vSAN cloud analytics
Image via VMware

Part of scaling with stability means enhancing performance (as well as productivity) or the effectiveness of a solution. Keep in mind that efficiency is often associated with storage (or server or network) space capacity savings or reductions. In that context then effectiveness means performance and productivity or how much work can be done with least overhead impact. With vSAN, V6.6 performance enhancements include reduced checksum overhead, enhanced compression, and deduplication, along with destaging optimizations.

Other enhancements that help collectively contribute to vSAN performance improvements include VMware object handling (not to be confused with cloud or object storage S3 or Swift objects) as well as faster iSCSI for vSAN. Also improved are more accurate refined cache sizing guidelines. Keep in mind that a little bit of NAND flash SSD or SCM in the right place can have a significant benefit, while a lot of flash cache costs much cash.

Part of enabling and leveraging new technology today includes support for larger capacity 1.6TB flash SSD drives for cache, as well as lower read latency with 3D XPoint and NVMe drives such as those from Intel among others. Refer to the VMware vSAN HCL for current supported devices which continue evolve along with the partner ecosystem. Future proofing is also enabled where you can grow from today to tomorrow as new storage class memories (SCM) among other flash SSD as well as NVMe enhanced storage among other technologies are introduced into the market as well as VMware vSAN HCL.

VMware vSAN and data center class applications
Image via VMware

Traditional CI and in particular many HCI solutions have been optimized or focused on smaller application workloads including VDI resulting in the perception that HCI, in general, is only for smaller environments, or larger environment non-mission critical workloads. With vSAN V6.6 VMware is addressing and enabling larger environment mission critical applications including Intersystem Cache medical health management software among others. Other application workload extensions including support for higher performance demanding Hadoop big data analytics, a well as extending virtual desktop infrastructure (VDI) workspace with XenDesktop/XenApp, along with Photon 1.1 container support.

What about VMware vSAN 6.6. Packaging and License Options

As part of vSAN 6.6 VMware several solution bundle packaged options for the data center as well as smaller ROBO environment. Contact your VMware representative or partner to learn more about specific details.

VMware vSAN cloud analytics
Image via VMware

VMware vSAN cloud analytics
Image via VMware

Where to Learn More

The following are additional resources to find out more about vSAN and related technologies.

What this all means

Continue reading more about VMware vSAN 6.6 in part I here, part II (just the speeds feeds please) is located here, part III (reducing cost and complexity) located here as well as part V here (VMware vSAN evolution, where to learn more and summary).

Ok, nuff said (for now…).

Cheers
Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Watch for the Spring 2017 release of his new book “Software-Defined Data Infrastructure Essentials” (CRC Press).

Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO. All Rights Reserved.

VMware vSAN V6.6 Part V (vSAN evolution and summary)

server storage I/O trends

VMware vSAN V6.6 Part V (vSAN evolution and summary)

In case you missed it, VMware announced vSAN v6.6 hyper-converged infrastructure (HCI) software defined data infrastructure solution. This is the fifth of a five-part series about VMware vSAN V6.6. View Part I here, Part II (just the speeds feeds please) is located here, part III (reducing cost and complexity) found here, part IV (scaling ROBO and data centers today) located here.

VMware vSAN 6.6
Image via VMware

For those who are not aware, vSAN is a VMware virtual Storage Area Network (e.g. vSAN) that is software-defined, part of being a software-defined data infrastructure (SDDI) and software-defined data center (SDDC). Besides being software-defined vSAN is HCI combining compute (server), I/O networking, storage (space and I/O) along with hypervisors, management, and other tools.

How has vSAN (formerly referred to as VSAN) Evolved

A quick recap of the VMware vSAN progression which first appeared as part of vSphere 5.5. (e.g. vSAN 5.5 can be thought of 1.0 in some ways) consists of several releases. Since vSAN is tightly integrated with VMware vSphere along with associated management tools, there is a correlation between enhancements to the underlying hypervisor, and added vSAN functionality. Keep in mind sometimes by seeing where something has been, helps to view where going.

Previous vSAN enhancements include:

  • 5.5 Hybrid (mixed HDD and flash)
  • 6.2 (2016) All flash (e.g. AFA) versions included data footprint reduction (DFR) technologies such as compression and dedupe along with performance Quality of Service (QoS) enhancements.
  • 6.5 Cross Cloud functionality including the announcement of container support, cloud-native apps, as well as upcoming vSphere, vSAN, NSX and other VMware software-defined data center (SDDC) and software-defined data infrastructure (SDDI) technology running natively on AWS (not on EC2) cloud infrastructure.
  • 6.6 Modern data infrastructure flexibility, scalability, resiliency, extensibility including performance, availability, capacity and economics (PACE).

V5.5

  • Distributed RAID
  • Per-VM SPBM
  • Set and change FTT via policy
  • In-kernel hyper-convergence engine
  • RVC and Observer

V6.0

  • All-flash architecture
  • Perf improvements (4xIOPS)
  • 64-node support
  • High-density storage blades
  • Fault domain awareness
  • Scalable snapshots and clones
  • Disk enclosure management

V6.1

  • Windows Failover Clustering
  • Oracle RAC support
  • HW checksum and encryption
  • 2-node ROBO mode
  • UltraDIMM and NVMe support
  • Stretch clusters
  • 5 min RPO (vSphere Rep)
  • SMP-FT support
  • Health Check, vROps, Log Insight

V6.2

  • IPv6 support
  • Software checksum
  • Nearline dedupe and compression on all-flash
  • Erasure coding on all-flash
  • QoS IOPS limits
  • Performance monitoring service

V6.5

  • iSCSI
  • 2-Node direct connect
  • PowerCLI
  • Public APIs and SDK
  • 512e support
  • All-Flash to all editions

Where to Learn More

The following are additional resources to find out more about vSAN and related technologies.

What this all means, wrap up and summary

VMware continues to extend the software-defined data center (SDDC) and Software-Defined Data Infrastructure (SDDI) ecosystem with vSAN to address the needs from smaller SMB and ROBO environments to larger SME and enterprise workloads. To me a theme with V6.6 is expanding resiliency, scalability with stability to expand vSAN upmarket as well as into new workloads similar to how vSphere has evolved.

With each new release, vSAN is increasing its feature, functionality, resiliency and extensiveness associated with traditional storage and non-CI or HCI solutions. Overall a good set of enhancements as vSAN continues its evolution looking back just a few years ago, to where it is today and will be in the future. If you have not looked at vSAN recently, take some time beyond reading this piece to learn some more.

Ok, nuff said (for now…).

Cheers
Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Watch for the Spring 2017 release of his new book “Software-Defined Data Infrastructure Essentials” (CRC Press).

Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2023 Server StorageIO(R) and UnlimitedIO. All Rights Reserved.

Data Infrastructure IT Industry Related Resource Links A to E

Data Infrastructure IT Industry Related Resource Links A to E

IT Data Center and Data Infrastructure Industry Resources

Updated 2/20/2018

Following are some useful Data Infrastructure IT Industry Resource Links A to E to cloud, virtual and traditional IT data infrastructure related web sites. The data infrastructure environment (servers, storage, IO and networking, hardware, software, services, virtual, container and cloud) is rapidly changing. You may encounter a missing URL, or a URL that has changed. This list is updated on a regular basis to reflect changes (additions, changes, and retirement).

Disclaimer and note: URL’s submitted for inclusion on this site will be reviewed for consideration and to be in generally accepted good taste in regards to the theme of this site.

Best effort has been made to validate and verify the data infrastructure URLs that appear on this page and web site however they are subject to change. The author and/or maintainer(s) of this page and web site make no endorsement to and assume no responsibility for the URLs and their content that are listed on this page.

Software Defined Data Infrastructure Essentials Book SDDC

Send an email note to info at storageio dot com that includes company name, URL, contact name, title and phone number along with a brief 40 character description to be considered for addition to the above data infrastructure list, or, to be removed. Note that Server StorageIO and UnlimitedIO LLC (e.g. StorageIO) does not sell, trade, barter, borrow or share your contact information per our Privacy and Disclosure policy. View related data infrastructure Server StorageIO content here, and signup for our free newsletter here.

Links A-E
Links F-J
Links K-O
Links P-T
Links U-Z
Other Links

  • A3Cube    Computer I/O solution startup
  • AAPT   AAPT    AWS connect partner, Hosting/cloud/access services
  • abiquo.com    Cloud development and management tools
  • Above.net/Zayo Group    AWS connect parter, Hosting/cloud/access services
  • abrevity.com    eDiscovery, search, indexing, classification
  • accellion.com    File transfer tools
  • accessopt.com    Holographic storage
  • acinion.com    Video solutions
  • acopia.com    NAS aggregation and global name space (bought by F5)
  • acronis.com    Backup and data protection tools
  • acsacs.com    Value added reseller (VAR)
  • acs-inc.com    Hosting, outsourcing and managed services (Bought by Xerox)
  • actifio.com    Data protection solutions
  • active-circle.com    Data archiving and storage solutions
  • activestate.com    Stackato PaaS for cloud tools
  • adaptec.com    Adapters, iSCSI storage, data backup solutions (See PMC)
  • adesto.com    CBRAM startup
  • addonics.com    SSD storage solutions
  • adic.com    Backup, Dedupe and data protection solutions (Bought by Quantum)
  • adinfa.com        Energy and resource management tools
  • AdRem Netcrunch        Monitoring of Networks, Systems and Applications, DCIM
  • Adtran    Datacom and networking solutions
  • advancedvault.com    Business continuity solutions
  • advaoptical.com    Optical networking
  • afcom.com    Data center industry user group
  • aforesolutions.com    Cloud storage and infrasture management tools
  • agami.com    High performance NAS storage (Shutdown)
  • agilent.com    Host adapters and test equipment
  • agility.com    Optical solutions and components
  • agilysys.com    VAR
  • aiim.com    Archiving and records management trade group
  • ait.com    Cloud and web hosting
  • Ajubeo    Cloud and management solutions
  • akamai.com    Content distribution network (CDN)
  • akitio.com    Storage systems
  • akorri.com    Storage resource and capacity management
  • alacritech.com    Storage networking adapters for iSCSI
  • alacritus.com    Data Protection Software
  • alcatel.com    Networking and storage networking equipment
  • alliance-it.com    Value added reseller (VAR)
  • allstorage.nl    Storage services solution provider
  • amazon.com    Cloud compute and storage services
  • AmberPoint.com    SOA management tools
  • amcc.com    Storage networking components (aka JNI & 3ware Bought by LSI)
  • amd.com    Server and processor chips
  • americanfibersystems.com    Metropolitan storage networks and fiber bandwidth
  • amphenol.com    Storage Networking connectors and cables
  • Amplidata.com    Object and wide area based storage
  • ancot.com    Storage networking testing equipment
  • anixter.com    Networking components
  • Anobit.com    Memory components
  • ansi.org    American National Standards Institute
  • Anstor64.com    iSCSI storage software
  • anuesystems.com    SONET’/SDH and network test equipment
  • apc.com    Environmental and power systems and DCIM solutoins
  • apcon.com    Physical cabling and management
  • aperture.com    Data center tools including CMDB (Bought by Emerson)
  • appassue.com    SQL server and data protection tools (Bought by Dell)
  • Appcore    Cloud management tools
  • Appfirst    IT Ops, Development and DCIM monitoring and PKI metrics
  • appiq.com    Storage Management Software (Bought by HP)
  • appirio.com    Cloud and content tools and services
  • apple.com    Server and storage
  • apprenda.com    Grid and data management tools
  • Apprenda   Platform as a service tools
  • aprius.com    PCIe Server I/O virtualization (IOV) technology
  • aptare.com    Data protection management and backup reporting
  • arasan.com    IP Networking components
  • Archivas.com    Archiving and data management software (Bought by HDS)
  • arcmail.com    Email archiving
  • Arcplace    Data management archiving
  • arcsight.com    Compliance solutions
  • argent.com    Data center management and CMDB tools
  • ariodata.com    Scalable data storage and blade storage systems
  • aristanetworks.com    Networking technologies
  • aristoslogic.com    Storage controller technology (Bought by Adaptec)
  • Arkeia.com    Backup and data protection software (Bought by WD)
  • arkivio.com    Storage management and ILM software
  • arm.com    Microprocessor producer
  • armor247.com    SMB focused data protection solutions
  • arrow.com    Distributor
  • arsenaldigital.com    Managed backup service (Bought by IBM)
  • arxscan.com    SRM and file reporting software
  • asankya.com    Application delivery and cloud access
  • asciitable.com    Site containing the ASCII character set table
  • ashare.org    HVAC Engineers Association
  • asigra.com    Backup and data protection solutions
  • asnp.org    Association Storage Networking Professionals
  • asperasoft.com    High speed file and data transfer tools
  • astaro.com    Security tools
  • astutenetworks.com    iSCSI storage optimized for VMware
  • atempo.com    Backup Software
  • Atlantic Metro Communications    AWS connect parter, Hosting/cloud/access services
  • Atlantiscomputing    ILIO VDI and I/O optimization, cache tools
  • atmforum.com    ATM trade association
  • atrato.com    Storage systems
  • attachmate.com    IT management tools (bought Novell)
  • attotech.com    Storage networking adapters and gateways
  • Attunesystems.com    NAS and file virtualization (Assets bought by F5)
  • attunity.com    File and data movement tools
  • autonomy.com    Data management and cloud services (Bought by HP) –
  • autovirt.com    Storage automation tiering tools
  • avagotech.com    Semiconductor technologies
  • availl.com    Data movement and replication solutions
  • avamar.com    Dedupe, Backup and Restoration Solutions (Bought by EMC)
  • avanade.com    Var
  • avaya.com    Networking and communications
  • averesystems.com    NAS caching and automated tiering
  • avg.com    Security and anti-virus software
  • avnet.com    Distributor
  • www.avocent.com    Infrastructure resource management tools
  • axcient.com    Cloud data protection solutions
  • axiossystems.com    IRM and service management tools
  • axsone.com    Records and document management
  • axxana.com    Data protection and replication tools
  • Backblaze    Online and cloud backup storage
  • BackupAssist    Backup and Recovery software
  • backupify.com    Backup for google apps
  • BUMI    Backup and data protection tools
  • backupright.com    Online and cloud backup
  • Backula    Opensource Backup and data protection
  • bakbone.com    Backup Software (Bought by Quest bought by Dell)
  • balesio.com    File compression solutions
  • barracudanetworks.com    Networking devices, backup software
  • basho.com    NOSQL Database and object storage technology –
  • batblue.com    Cloud, application delivery networking services
  • Bestel   Bestel    AWS connect parter, Hosting/cloud/access services
  • Beyondtust    Vulnerability assessment and detection
  • bigswitch.com    Openflow based network switches
  • BitArmor.com    Data security software
  • bitcasa.com    Cloud storage and backup
  • Bitcentral    Video management solutions
  • Bitmicro    Solid state devices and other solutions
  • Blackbox    Data center infrastructure, DCIM, KVM and other solutions
  • BlackMESH    FedRAMP and DevOPs hosting
  • blade.org    Trade group for blade servers
  • bladelogic.com    Server management and discovery software
  • BladeNetwork.net    Server and storage blades (Bought by IBM)
  • Bladeroom    Data center and hosting
  • bladesystems.org    Industry trade group for blade servers and storage
  • bladetechnologies.net    Networking technologies
  • blockbridge.com    Elastic Storage Software and Tools
  • bluearc.com    High performance NAS enterprise class storage (Bought by HDS)
  • bluecoat.com    WAN optimization
  • bluecorenetworks.com    Networking infrastructure solutions
  • Bluehost    Web hosting, dedicated and virtual private servers
  • bluelock.com    Hosting, managed service and cloud provider
  • BlueOSS    Cloud and business inteligence solutions
  • www.bluestripe.com     Software for managing virtual data centers
  • bmc.com    Storage management software
  • bocada.com    Backup and management software
  • bowindustries.com    Tape media cleaning tools
  • box.net    Internet/web/cloud storage services
  • bphx.com    Legacy application transformation
  • bridgestor.com    Data reduction and storage optimization
  • Bridghead.com    Storage management software
  • broadband.com    Portal site for finding network bandwidth services
  • broadbandreports.com    Portal site for finding high speed internet access
  • broadcom.com    Storage networking component supplier
  • brocade.com    Switches, WAN gateways, software
  • brouwerconsultancy.com    Storage consultancy service
  • bswd.com    Brian Berg’s Storage Cornucopia web site
  • btiphotonics.com    WDM and Optical networking technologies
  • buffalotech.com    SMB and SOHO NAS storage
  • bustech.com    IBM Mainframe to open systems gateways (Bought by EMC)
  • bycast.com    Grid based fixed content, archive and object storage (Bought by NetApp)
  • c2c.com    Email archiving solutions
  • c2esoft.com    Data center operations and insight management tools
  • ca.com    Data management software
  • Computer Associates    Various data center, DCIM, data protection and other solution tools
  • call-recall.com    Optical storage
  • Canonical   Ubuntu Linux
  • carbonite.com    Cloud storage and backup
  • caringo.com    CAS archiving and object storage tools
  • casecentral.com    Cloud ediscovery
  • cassandra.apache.org    Data management and database alternative software
  • Apache Cassandra    NOSql Data Management tools
  • cassat.com    IRM management tools (Bought by CA)
  • Catalogic Software    Data protection and management tools
  • cataphora.com    Data management tools
  • catbird.com    VM security tools
  • caviumnetworks.com    Networking processors and chip technologies
  • cdproject.net    Carbon Disclosure Project
  • cdrive.com    VAR
  • cdw.com    VAR
  • celion.com    Network services for storage over distance
  • celona.com    Data migration tools
  • cemaphore.com    Messaging solutions
  • centos.org    Cluster Storage
  • centrepath.com    Storage management solutions (formerly Giant Loop)
  • centrify.com    Digital rights management for cloud, virtual, server, desktop and storage
  • Tier3/CenturyLink   Cloud, hosting and managed services
  • Centurylinkg/Savvis    Cloud and hosting solutions
  • Ceph   Cloud and object storage solutions
  • cert.org    Internet Security information
  • certesnetworks.com    Cloud security tools
  • certon.com    VAR
  • CFN Services    AWS connect parter, Hosting/cloud/access services
  • chelsio.com    High speed Ethernet adapters
  • chicorporation.com    Data protection, cloud and storage VAR
  • ciena.com    Optical networking
  • Cinenet    AWS connect parter, Hosting/cloud/access services
  • ciphermax.com    Data Storage Encryption Tools
  • cipheroptics.com    Storage networking security
  • ciprico.com    Storage systems (Bought by DotHill)
  • cirrustore.com    Backup data protection tools
  • cirtas.com    Cloud Storage Appliance – Added 6/9/10
  • cisco.com    Switches, WAN and Optical networking
  • Citrix.com    Virtualization solutions
  • ClearDB.com/.com    Local and distributed (GEO) MySQL database software and service
  • clearpace.com/.com    Large scale archive and data management tools
  • CleverSafe.com    Distributed object/esrasure storage
  • climatesaverscomputing.com    Green computing industry trade group
  • Clonix   Data cloning, duplication and protection tools
  • CloudByte   Scale-out and cloud storage
  • cloudera.com    Hadoop data storage and analytics tools
  • CloudFlare   CDN and Web Cache solutions
  • cloudfuzion.com    High performance servers
  • Cloudian   Cloud and object storage tools
  • Cloudphysics   Big data and virtualization tools
  • cloudreplica.com    Cloud data protection tools
  • cloudscaling.com    Open cloud platforms
  • Apache CloudStack   Open Source Cloud tools
  • cloudtp.com    Open cloud deployment solutions
  • CloudVelocity   Hybrid Cloud and data protection management solutins
  • cloverleafcomm.com    Storage Virtualization tools (Bought by DotHill)
  • clustrix.com    Storage software startup
  • cmg.org    Computer Measurement Group
  • cnt.com    Switches, WAN gateways, software (Bought by McData bought by Brocade)
  • Cobalt Iron   Data protection tools
  • code42.com    Cloud storage and backup aka Crashplan
  • Codenomicon.com    Data and security tools
  • cofio.com    Backup and data protection tools
  • CohesiveFT   Cloud solution and management tools
  • colliercomputing.com    VAR
  • colo-america.com    Co-location and hosting services

  • communities.vmware.com    VMware community
  • commvault.com    Data management software
  • comodo.com    Encryption tools
  • Comparitech    Consumer tech reviews
  • compellent.com    SMB Storage sub-systems and software – (Bought by Dell)
  • comptia.org    Computer and Technology Industry Association
  • compucom.com    VAR
  • computergamedesign.org    Computer game design
  • compuverde.com    Big data management tools and object storage
  • compuware.com    IT management and performance tools
  • condre.com    VAR/distributor
  • Condusiv   Data and storage management tools including Diskeeper
  • XO Communications    AWS connect parter, Hosting/cloud/access services
  • Connected Cloud    Cloud management tools
  • connectwise.com    IT automation tools
  • conres.com    Value added reseller (VAR)
  • consiliant.com    VAR
  • ConstantData.com    Real time data replication and mirroring
  • continuitysoftware.com    Replication and Snapshot data protection management
  • convirture.com    Cloud and virtualization tools
  • copansys.com    Secondary storage for backup and archiving (Assets Bought by SGI)
  • coraid.com    SATA over Ethernet storage
  • CoreSite    AWS connect parter, Hosting/cloud/access services
  • corevault.com    Cloud services
  • Cormant    DCIM and data center and infrastructure management tools
  • corning.com    Fiber optic cabling
  • corsair.com    SSD
  • corvis.com    Networking solutions
  • cPanel    Web, cloud and hosting management tools
  • crashplan.com    Cloud storage and backup aka Code42
  • creekpath.com    Storage management software
  • www.critical-links.com    Office in a box
  • crossroads.com    Storage routers and data protection management tools
  • Crosswalkinc.com    Clustered NAS storage (Ceased Operations)
  • crucial.com    Memory and SSD solutions
  • cru-dataport.com    Data Archive solutions
  • Crypto.com    Crypto resource site
  • www.ctera.com    Cloud storage appliance
  • Cumulus Networks    Open networking
  • curtisssd.com    SSD solution provider
  • cya.com    Document management and data protection
  • cyber-ark.com    Security data protection tools
  • cypress.com    Storage and networking components
  • dantz.com    Data protection and backup solutions (Aka Retrospect Bought by EMC, EMC sold off)
  • datacentertechnologies.com    Data management solutions (Bought by Symantec)
  • datacore.com    Storage management software
  • datadepositbox.com    Online backup and data protection
  • datadirectnetworks.com    Aka DDN Storage systems, SAN, NAS, Object and cloud
  • datadomain.com    Data Deduplication System (Bought by EMC)
  • Data Dynamics Inc    StorageX Data Movement, Migration and management
  • datafort.com    Online cloud backup
  • dataglobal.com    Data and storage management
  • Data Gravity    Big Data solutions
  • datagres.com    Cloud and application caching acceleration
  • dataguise.com/    Data security solutions
  • datalink.com    VAR
  • datallegro.com    Data warehouse storage solution (Bought by Microsoft)
  • datamirror.com    Data replication solutions
  • DataON Storage    Storage solutions
  • Datapipe    AWS connect parter, Hosting/cloud/access services
  • dataprotection.com    Vaultlogix data protection tools for cloud
  • DataRAM.com    SSD solutions
  • Data sales    Storage systems sales and leasing
  • dataslide.com    Hard rectangular disk (HRD)
  • datastor.com    Windows based backup data protection
  • datcollaborative.org    Data collaboration group and DAPL material
  • datoptic.com    Storage VAR
  • daymarksi.com    Value added reseller (VAR)
  • DBR360    AWS connect parter, Hosting/cloud/access services
  • ddifrontline.com    Security and access control
  • debian.org    Open source operating system
  • Debriefing software    Storage SRM tools
  • decru.com    Storage networking security solutions (Bought by NetApp)
  • Asempra.com    Data protection bought by Dell via Quest
  • dell.com    Storage networking equipment
  • Delphix    Storage, data management and data protection tools
  • demandtechnology.com    Demand technology software (performance software)
  • Denodo    Data virtualization tools
  • dexrexgear .com    Social media cloud storage
  • www.dey-sys.com    Open source software based sotrage
  • www.dh2i.com    Database virtualization software tools
  • digidata.com    Storage solutions
  • digistoresolutions.com    Archiving and data protection solutions
  • Digitalocular.com     Video data management tools
  • digitalreefinc.com    eDiscovery and compliance tools
  • digitiliti.com    Cloud and managed service backup
  • diligent.com    Virtual Tape Library (VTL) and Dedupe (Bought by IBM)
  • dimensiondata.com    VAR
  • Dimension Data    Hosting and managed services
  • dincloud.com    Cloud virtual desktop
  • directtextbook.com    Online book venue
  • discoverybox.net    Data protection for legal hold and compliance
  • diskkeeper.com    File and disk storage defragmentation (Condusiv)
  • Disklace.com    Disk storage optimization tools
  • dlink.com    Storage, network and cloud technologies
  • dmtf.org    Distributed Management Task Force
  • dnfstorage.com    iSCSI and hybrid storage (formerly Stonefly)
  • dothill.com    Distributed storage solutions
  • Doubletake.com    Data replication software
  • driveoncloud.com    Cloud drive online storage
  • drivesaversdatarecovery.com    Data protection and recovery
  • drobo.com    SMB and SOHO NAS storage
  • dropbox.com    Cloud storage and file sharing
  • druva.com    Backup, Storage, network and cloud technologies
  • dsireusa.org    Database of State Incentives and Renewable Energy
  • Dundas    Data Visualization and mobile dashboards
  • dvs.de    Digital video systems and storage
  • dynamicsolutions.com    Storage and data protection VAR
  • EaseUS    Backup, data protection and cloning tools
  • ecctek.com    Rugged data storage components
  • econnectix.com    Data and storage management solutions
  • eds.com    Data outsourcing and cloud provider (Bought by HP)
  • eere.energy.gov     U.S. Department of Energy (DoE) web site
  • egenera.com    Blade server and server virtualization management software
  • eginnovations.com    Application and infrastructure monitoring
  • egnyte.com    Cloud backup and data protection
  • eia.doe.gov/fuelelectric.html    Portal for electrical power generation, use and costs
  • emc.com    Storage sub-systems software
  • Emerson.com    DCIM IT Data center power, cooling and environmental management tools
  • Empired FlexScale    IT and business cloud solutions
  • emprisanetworks.com    Network management solutions (Bought by BMC)
  • emulex.com    Host bus adapters and embedded switches
  • enclarity.com    Healthcare CRM and analysis tools
  • encryptstick.com    USB based encryption device
  • enduradata.com    Data distribution and protection
  • energycenter.org    California Center for Sustainable Energy
  • energyshop.com    Portal for energy pricing and options
  • energystar.gov    United States EPA Energy Star web site
  • Enhance-tech.com    Storage VAR
  • enmotus.com    SSD storage tiering technology
  • Ensim   IT and cloud provisioning/management tools
  • enstratus.com    Amazon cloud computing management tools (Bought by Dell)
  • enterprisedb.com    Enterprise Database tools
  • epeat.net    Site for comparing desktop and related products
  • epic.com    Medical Information Technology software
  • equallogic.com    iSCSI storage systems (Bought by Dell)
  • Equinix, Inc.    AWS connect parter, Hosting/cloud/access services
  • equivio.com    Email data protection and retention
  • ericom.com    Desktop and VDI tools
  • esilicon.com    ASIC and custom silicon development
  • essextec.com    VAR
  • Eucalyptus    Open source cloud solutions
  • Evault.com    aka i365 – Remote (Cloud) backup service provider (Bought by Seagate)
  • Everspin Technologies    MRAM memories
  • evolvingsol.com    VAR
  • evostor.com    Storage startup
  • exablade.com    High performance application acceleration
  • Exablox    SMB storage solutions
  • Exabyte.com    Removable tape and robotics
  • exagrid.com    Backup Storage
  • exanet.com    Clustered NAS Storage (Bought by Dell aka FluidFileSystem)
  • exar.com    Server, Storage and Networking components
  • exavio.com    HD and SD data capture
  • exludus.com    Multi core optimize
  • Expand.com    Network and WAN optimization
  • Expertanalyticalsystems.com    Storage analysis tools
  • Exponential-e Ltd.    AWS connect parter, Hosting/cloud/access services
  • expresscomputersystems.com    Storage solutions VAR
  • extremenetworks.com    Networking switches

Where To Learn More

View additional NAS, NVMe, SSD, NVM, SCM, Data Infrastructure and HDD related topics via the following links.

Additional learning experiences along with common questions (and answers), as well as tips can be found in Software Defined Data Infrastructure Essentials book.

Software Defined Data Infrastructure Essentials Book SDDC

What This All Means

Visit the following additional data infrastructure and IT data center related links.

Links A-E
Links F-J
Links K-O
Links P-T
Links U-Z
Other Links

Ok, nuff said, for now.

Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2017 (vSAN and vCloud). Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio. Courteous comments are welcome for consideration. First published on https://storageioblog.com any reproduction in whole, in part, with changes to content, without source attribution under title or without permission is forbidden.

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