June 2017 Server StorageIO Data Infrastructures Update Newsletter

Volume 17, Issue VI

Hello and welcome to the June 2017 issue of the Server StorageIO update newsletter.

For those of you in the northern hemisphere it is time for summer holidays, while in the southern hemisphere its winter time. That means there is a lot going on outside of work, however June has also seen a lot of activity in and around IT data infrastructure along with data centers. Check out some of the industry trends news and updates below.

Software-Defined Data Infrastructure Essentials SDDI SDDC

A quick update following up from the May newsletter is that my new book is now available via Amazon.com, CRC Press and other venues in hardcopy hardcover as well as electronic versions. Think of this as the soft launch with a formal launch and more information being rolled out soon. For now, you can visit the landing page for Software Defined Data Infrastructure Essentials – Cloud, Converged, and Virtual Fundamental Server Storage I/O Tradecraft (CRC PRess/Taylor Francis/Auerbach) at storageio.com/book4 to learn more including view table of contents, preface, how organized among other items.

In This Issue

Enjoy this edition of the Server StorageIO update newsletter.

Cheers GS

Data Infrastructure and IT Industry Activity Trends

Some recent Industry Activities, Trends, News and Announcements include:

Cavium announced 10, 25, 50 and 50Gbps Ethernet server storage I/O NIC solutions (e.g. FastLine 41000 series).

The NVMe Express trade group (e.g. nvmexpress.org) announced the completion of NVMe 1.3 specification. New optional features include support for mobile platforms and book, along with scaling for enterprise as well as cloud environments. Learn more about specifications at the NVMexpress.org site as well as more NVMe material at thenvmeplace.com.

Keep in mind that if the answer is NVMe, what are the questions along with various options from front end to back-end, NVMe and PCIe, NVMeoF, U.2/8639, M2/NGFF among others.

The Fibre Channel Industry Association announced FC-NVMe interoperability plugfest and Gen 6 32GFC activity to support next generation data infrastructures and data centers.

Storage vendor Tegile announced they are joining the growing ranks of vendors adding NVMe support with their InteliFlash OS 3.7 along with other enhancements.

For those of you who are involved with Windows Servers environments along with server, storage and I/O networks, check out Darryl VanderPeijl multi-part series on RDMA, DCB, PFC, ETS and related topics.

HPE and Hedvig announced solutions combing forces to address hybrid cloud storage needs.

IBM and Cisco announced enhancements around their converged (Cisco powered servers) solution for VDI and Hybrid cloud workloads.

Big Data and Analytics vendor Mapr announced enhancements to their converged data management platform for cloud scale data fabrics.

Panzura has enhanced its Freedom software defined storage management solution with version 7 to support expanded unstructured data growth while easing management functions, along with performance updates.

Red Hat announced Ceph Storage 2.3 including Ceph 10.2 (Jewel) combing an NFS gateway.

Scality announced enhancements to its Ring software defined storage cloud and object solution including enhanced security along with data protection capabilities.

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

 

Server StorageIOblog Posts

Recent and popular Server StorageIOblog posts include:

View other recent as well as past StorageIOblog posts here

Server StorageIO Commentary in the news

Recent Server StorageIO industry trends perspectives commentary in the news.

Via EnterpriseStorageForum: 5 Hot Storage Technologies to Watch
Storage can be held back by slow I/O performance, which caused expensive compute resources and memory to be consumed. NVMe reduces wait time while increasing the amount of effective work, enabling higher-profitability compute. The storage I/O capabilities of flash can be fed across PCIe faster to enable multi-core processors to complete more useful work in less time.

Via EnterpriseStorageForum: 10-Year Review of Data Storage
The adoption of hybrid cloud and hybrid converged server storage has appeared more rapidly than many expected. And despite firm pronouncements of their demise, FC, tape and HDD are still very much with us.

Via CDW: Your IT Department Can Help Your Companys Bottom Line Heres How
Not only are the servers more robust performance wise, but they’ve got more compute capability, can handle more workloads, have more memory and also have better resiliency.

Via EnterpriseStorageForum: Top 10 Tips for Software-Defined Storage Deployment
Dell 14g PowerEdge Servers give you greater compute and IO capability, as well as the density you need, NVMe and 25 Gig Ethernet on board,

Via CDW: Meeting IoTs Demands for Networking

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

Events and Activities

Recent and upcoming event activities.

Sep. 13-15, 2017 – Fujifilm IT Executive Summit – Seattle WA

August 28-30, 2017 – VMworld – Las Vegas

June 22, 2017 – Webinar – GDPR and Microsoft Environments

May 11, 2017 – Webinar – Email Archiving, Compliance and Ransomware

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

Server StorageIO Industry Resources and Links

Useful links and pages:
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/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

Cheers
Gs

Greg Schulz – Multi-year Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). 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 2006-2023 Server StorageIO(R) and UnlimitedIO. All Rights Reserved.

May 2017 Server StorageIO Data Infrastructures Update Newsletter

Volume 17, Issue V

Hello and welcome to the May 2017 issue of the Server StorageIO update newsletter.

Summer officially here in the northern hemisphere is still a few weeks away, however for all practical purposes it has arrived. What this means is that in addition to normal workplace activities and projects, there are plenty of outdoor things (as well as distractions) to attend to.

Over the past several months I have mentioned a new book that is due out this summer and which means it’s getting close to announcement time. The new book title is Software Defined Data Infrastructure Essentials – Cloud, Converged, and Virtual Fundamental Server Storage I/O Tradecraft (CRC PRess/Taylor Francis/Auerbach) that you can learn more about here (with more details being added soon). A common question is will there be electronic versions of the book and the answer is yes (more on this in future newsletter).

Data Infrastructures

Another common question is what is it about, what is a data infrastructure (see this post) and what is tradecraft (see this post). Software-Defined Data Infrastructures Essentials provides fundamental coverage of physical, cloud, converged, and virtual server storage I/O networking technologies, trends, tools, techniques, and tradecraft skills.

Software-Defined Data Infrastructures Essentials provides fundamental coverage of physical, cloud, converged, and virtual server storage I/O networking technologies, trends, tools, techniques, and tradecraft skills. From webscale, software-defined, containers, database, key-value store, cloud, and enterprise to small or medium-size business, the book is filled with techniques, and tips to help develop or refine your server storage I/O hardware, software, and services skills. Whether you are new to data infrastructures or a seasoned pro, you will find this comprehensive reference indispensable for gaining as well as expanding experience with technologies, tools, techniques, and trends.

Software-Defined Data Infrastructure Essentials SDDI SDDC
ISBN-13: 978-1498738156
ISBN-10: 149873815X
Hardcover: 672 pages
Publisher: Auerbach Publications; 1 edition (June 2017)
Language: English

Watch for more news and insight about my new book Software-Defined Data Infrastructure Essentials soon. In the meantime, check out the various items below in this edition of the Server StorageIO Update.

In This Issue

Enjoy this edition of the Server StorageIO update newsletter.

Cheers GS

Data Infrastructure and IT Industry Activity Trends

Some recent Industry Activities, Trends, News and Announcements include:

Flackbox.com has some new independent (non NetApp produced) learning resources including NetApp simulator eBook and MetroCluster tutorial. Over in the Microsoft world, Thomas Maurer has a good piece about Windows Server build 2017 and all about containers. Microsoft also announced SQL Server 2017 CTP 2.1 is now available. Meanwhile here are some my experiences and thoughts from test driving Microsoft Azure Stack.

Speaking of NetApp among other announcements they released a new version of their StorageGrid object storage software. NVMe activity in the industry (and at customer sites) continues to increase with Cavium Qlogic NVMe over Fabric news, along with Broadcom recent NVMe RAID announcements. Keep in mind that if the answer is NVMe, than what are the questions.

Here is a good summary of the recent OpenStack Boston Summit. Storpool did a momentum announcement which for those of you into software defined storage, add Storpool to your watch list. On the VMware front, check out this vSAN 6.6 demo (video) of stretched cluster via Yellow Bricks.

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

Server StorageIOblog Posts

Recent and popular Server StorageIOblog posts include:

View other recent as well as past StorageIOblog posts here

Server StorageIO Commentary in the news

Recent Server StorageIO industry trends perspectives commentary in the news.

Via EnterpriseStorageForum: What to Do with Legacy Assets in a Flash Storage World
There is still a place for hybrid arrays. A hybrid array is the home run when it comes to leveraging your existing non-flash, non-SSD based assets today.

Via EnterpriseStorageForum: Where All-Flash Storage Makes No Sense
A bit of flash in the right place can go a long way, and everybody can benefit from at least a some of flash somewhere. Some might say the more, the better. But where you have budget constraints that simply prevent you from having more flash for things such as cold, inactive, or seldom access data, you should explore other options.

Via Bitpipe: Changing With the Times – Protecting VMs(PDF)

Via FedTech: Storage Strategies: Agencies Optimize Data Centers by Focusing on Storage

Via SearchCloudStorage: Dell EMC cloud storage strategy needs to cut through fog

Via SearchStorage: Microsemi upgrades controllers based on HPE technology

Via EnterpriseStorageForum: 8 Data Machine Learning and AI Storage Tips

Via SiliconAngle: Dell EMC announces hybrid cloud platform for Azure Stack

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

Events and Activities

Recent and upcoming event activities.

Sep. 13-15, 2017 – Fujifilm IT Executive Summit – Seattle WA

August 28-30, 2017 – VMworld – Las Vegas

Jully 22, 2017 – TBA

June 22, 2017 – Webinar – GDPR and Microsoft Environments

May 11, 2017 – Webinar – Email Archiving, Compliance and Ransomware

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

Server StorageIO Industry Resources and Links

Useful links and pages:
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/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

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.

Cisco Next Gen 32Gb Fibre Channel NVMe SAN Updates

server storage I/O trends

Cisco Next Gen 32Gb Fibre Channel and NVMe SAN Updates

Cisco announced today next generation MDS storage area networking (SAN) Fibre Channel (FC) switches with 32Gb, along with NVMe over FC support.

Cisco Fibre Channel (FC) Directors (Left) and Switches (Right)

Highlights of the Cisco announcement include:

  • MDS 9700 48 port 32Gbps FC switching module
  • High density 768 port 32Gbps FC directors
  • NVMe over FC for attaching fast flash SSD devices (current MDS 9700, 9396S, 9250i and 9148S)
  • Integrated analytics engine for management insight awareness
  • Multiple concurrent protocols including NVMe, SCSI (e.g. SCSI_FCP aka FCP) and FCoE

Where to Learn More

The following are additional resources to learn more.

What this all means, wrap up and summary

Fibre Channel remains relevant for many environments and it makes sense that Cisco known for Ethernet along with IP networking enhance their offerings. By having 32Gb Fibre Channel, along with adding NVMe over Fabric provides existing (and new) Cisco customers to support their legacy (e.g. FC) and emerging (NVMe) workloads as well as devices. For those environments that still need some mix of Fibre Channel, as well as NVMe over fabric this is a good announcement. Keep an eye and ear open for which storage vendors jump on the NVMe over Fabric bandwagon now that Cisco as well as Brocade have made switch support announcements.

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 P to T

Data Infrastructure IT Industry Related Resource Links P to T

IT Data Center and Data Infrastructure Industry Resources

Updated 6/13/2018

Following are some useful Data Infrastructure IT Industry Resource Links P to T 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

  • Packeteer.com    WAFS and networking solutions (Bought Tacit)
  • packetlight.com    CWDM and DWDM networking solutions
  • Panasas.com    Clustered storage solution
  • pancetera.com    Virtual machine backup software (Bought by Quantum)
  • Panduit.com    Networking and cable management
  • panzura.com    Cloud storage access software
  • paraccel.com     Business and data analytics
  • paragon-software.com    Storage management and backup tools
  • parallels.com    VDI and desktop virtualization and cloud tools
  • parascale.com     Clustered and cloud storage software
  • pcisig.com    PCI trade group (PCI, PCI-X, PCI-Express/PCIe)
  • penguincomputing.com    HPC servers, storage and hosting
  • pergamumsystems.com    Archive solutions (Stealth)
  • Permabit.com    Data archiving solutions
  • Pernixdata    Server and storage I/O cache optimization for virtual servers
  • perotsystems.com    Hosting and managed service provider (Bought by Dell)
  • pgp.com    Security tools (Bought by Symantec)
  • PHDvirtual    Data protection tools
  • Pillardata.com    Data storage solutions – (Bought by Oracle)
  • pineapp.com    Email, archive solutions, web and data protection
  • Piviot3.com    IP Storage
  • Pivotal Labs    Big Data, PaaS development tools, EMC/VMware spinout
  • plasmon.com    (Now called Alliance Storage Technologies) Optical Storage Solutions
  • plextoramericas.com    SSD and other storage solutions
  • plianttechnology.com    Solid state storage devices (SSD) – (Bought by SANdisk)
  • Pluribus Networks    Converged and software defined network management
  • pmc-serria.com    Storage networking component supplier
  • pny.com    Memory componets and technology
  • Pogoplug    Cloud storage
  • PolyServe.com    Clustered storage solutions (Sold to HP)
  • Polargy    Data Center facilaties, HVAC and DCIM solutions
  • power.org    Power Processor trade group
  • Mushkin   SSD Solutions
  • Peak Cloud    Cloud and storage services
  • PowerFile.com    Data archiving solutions
  • powerware.com    UPS and power conditioning systems
  • procedo.com    Archiving and migration solutions
  • proceedtechnologies.com    SAP consulting
  • profusionbackups.com    Cloud and managed backup service solution
  • progeny.net    VAR and specialized IT systems
  • prolexic.com    Distributed denial of service tools
  • promise.com    RAID storage systems
  • Prostorsystems.com    Removable disk storage (See RDX Alliance)
  • Proxim.com    Wireless networking
  • proximaldata.com    SSD caching and tiering software
  • pt.com    Communications hardware and software
  • puresi.com aka Puresilicon    SSD storage solutions
  • purestorage.com    SSD based storage
  • Puppet Labs    IT Automation and DCIM tools for physical, Cloud and Virtual

  • qlogic.com    Host bus adapters and switches
  • qsantechnology.com    iSCSI IP storage
  • Qstart Technologies    Data protection storage including LTFS based systems
  • Quadric Software    Data protection software
  • qualstar.com    Tape backup and archive solutions (Aka Qstar)
  • quantum.com    Tape drives and libraries
  • quest.com    IT and data management solution tools (Bought by Dell)
  • Qumulo    Stealth storage startup
  • qwest.com    (Century Link) Telephone and data networking, managed services provider
  • racemi.com    Repurposing management tools
  • Rackable.com    Now SGI
  • Rackspace.com    Managed services and hosting
  • www.rackwise.com    Data center management tools
  • raidinc.com    Storage systems
  • raidundant.com    Storage systems
  • Rainfinity.com    File virtualization (Bought by EMC)
  • rainstor.com    Big data management tools
  • rapidio.org    RapidIO Trade Group
  • Raritan    Data center and DCIM tools
  • rasilient.com    Storage subsystem vendor
  • Ravello    VMware optimization and management tools
  • Raxco    Data, storage and systems management tools
  • rebit.com    Backup and data protection solutions
  • RecordNation    Digital Data Storage and Records Management
  • redbend.com    Mobile device and application management
  • redbooks.ibm.com    IBM Red books and Red pieces technical articles
  • Redhat.com    Linux provider (Bought Gluster)
  • Reduxio    Hybrid storage with data services
  • reflexphotonics.com    Optical connectivity solutions
  • Reldata.com    Storage systems (Renamed Starboard)
  • remote-backup.com    Remote backup software
  • renewdata.com    Data management and compliance tools
  • repliweb.com    Web and content distribution
  • Retrospect    Data Protection Software Tools
  • revivio.com    Data Protection Software (Assets Bought by Symantec)
  • rightscale.com    Amazon cloud computing management tools
  • rimage.com    CD/DVD production technologies
  • risingtidesystems.com    VAR
  • Ritek.com    Storage solutions
  • rittal.com    Enclosures and cabinets
  • riverbed.com    Wide area file access acceleration solution
  • rjssoftware.com    Document capture and management
  • rmsource.com    Cloud backup solutions
  • rnanetworks.com    Virtual memory management solutions (Bought by Dell)
  • rocketdivision.com    iSCSI technologies
  • rorke.com    VAR
  • rpath.com    Data center automation
  • rsa.com    Security division of EMC
  • safemediacorp.com    Internet security and intrusion detection tools
  • safenet-inc.com    Data protection focused VAR
  • Sagecloud   Cloud storage, deep cold archive
  • samsung.com    Various technologies including SSD memory
  • sanblaze.com    Embedded storage and emulation solutions
  • SANbolic.com    Storage, server and cloud management tools
  • sand-chip.com    Chip design
  • SANDforce.com    SSD storage solutions – (Bought by LSI)
  • sandial.com    Defunct SAN startup
  • SANdisk.com    SSD memory components
  • sandpiperdata.com    Data migration services
  • sanmina-sci.com    Contract manufacturer (Virtual Factory) for various OEM/VARs
  • sanovi.com    Disaster recovery management tools
  • sanpulse.com    SRA and automation tools
  • sanrad.com    Storage networking routers (Bought by OCZ)
  • sans.org    Security related web site
  • sansdigital.com    VAR
  • sap.com    Information management tools and applications
  • sas.com    Statistical analysis software
  • sata-io.org    Serial ATA trade organization
  • SavageIO   High performance storage solutions
  • savvis.com    Cloud, managed service provider and hosting (Bought by Centurylink)
  • sbbwg.org    Storage Bridge Bay Working Group
  • scalable-systems.com    Data warehouse consulting and tools
  • scalecomputing.com    Clustered storage management software
  • scalemp.com    Virtualization technology for scale out computing
  • scalent.com    Virtual IT data center management tools
  • scality.com    Email and sharepoint cloud storage
  • schoonerinfotech.com    SSD based database management solutions
  • scsita.org    SCSI and SAS trade group
  • seagate.com    Disk drives
  • Sealpath   Data and information protection tools
  • seanodes.com    Distributed storage
  • sec.gov    Site about compliance items including CFR 17a-4
  • securedatainnovations.com    Data protection and security tools
  • sentilla.com    Data center performance management tools
  • sepaton.com    Disk based backup solutions
  • serialata.org    Serial ATA trade association
  • servicemesh.com    Cloud, datacenter transformation and devops tools
  • servicenow.com    ITIL data center management tools
  • 1servosity.com    Cloud data protection
  • servoy.com    Cloud development tools
  • ServPath.com    Hosting services
  • seven10storage.com    Disaster recovery and archiving software
  • sgi.com    Storage, server and data management hardware, software, tools
  • sherpasoftware.com    Email archiving
  • shop.bellmicro.com    Distributor (Bought by Avnet)
  • siber.com    Data protection and security tools
  • sidusdata.com    Managed service and cloud provider
  • siemon.com    Storage networking infrastructure items
  • sigmasol.com    Value added reseller (VAR)
  • Signiant.com    Data management tools
  • silexamerica.com    Mobile device and server connectivity
  • SiliconImage.com    Digital Video components
  • SiliconStor.com    Storage networking silicon
  • siliconvalleypr.com    IT technologies press/media and analyst relations firm
  • silveradotech.com    VAR
  • silver-peak.com    Wide area data and file services (WAFS, WADM, WADS)
  • SilverSky    Cloud security
  • simpletech.com    Storage solutions including USB portable devices
  • simplivity.com    Convergence and virtualization solutions
  • simplycontinuous.net    Data protection and cloud backup
  • siriuscom.com    VAR
  • site-vault.com    On-line backup server provider (BSP) managed service provider (MSP)
  • skyera.com    SSD storage solutions
  • skytap.com    Public and private cloud application development tools
  • Smart421   Smart421    AWS connect parter, Hosting/cloud/access services
  • smartm.com    PC card and other memory module components
  • smc.com    Storage and networking components
  • smithmicro.com    Mobile data management tools
  • smmdirect.com    Memory devices
  • snapappliances.com    NAS Storage solutions (Now Adaptec)
  • snia.org    Storage Networking Industry Association
  • snseurope.com    U.K. & European Storage Networking News
  • snwusa.com    SNIA and Computerworld conference
  • softek.com    Storage management solutions (formerly Fujitsu Softek, Sold to IBM)
  • softlayer.com    Cloud infrastructure services (IaaS) (Bought by IBM)
  • softnas.com    ZFS based opensource NAS solutions
  • softricity.com    Virtualization management tools (Bought by Microsoft)
  • Sogeti.com    Data management tools
  • solarflare.com    10Gb Ethernet networking
  • solarwinds.com    IT management tools (Bought TekTools, Hyper9 and others)
  • solidaccess.com    Solid state storage (SSD) solutions
  • soliddata.com    Solid State Disk solutions
  • solidfire.com    iSCSI SSD optimized for hosting and cloud providers
  • Solix.com    Database archiving software
  • solutiontechnology.co.uk    Storage networking training
  • sonasoft.com    Email archiving, backup and data protection
  • sonnettech.com    External storage solutions
  • sony.com    Storage devices
  • sophos.com    Data protection and security tools
  • sorrento.com    Optical networking
  • sparebackup.com    Backup data protection solutions
  • sparkweave.com    Private cloud archive and file sharing
  • spec.org    SPEC benchmarks
  • spectralogic.com    Tape library and disk based backup solutions
  • spiceworks.com    Online community and management software tools
  • spirent.com    Storage networking test equipment
  • Spiron.com  Data discovery, classification, lifecycle management (formerly Identity Finder)
  • Splice Communications   Splice Communications    AWS connect parter, Hosting/cloud/access services
  • splunk.com    DCIM and log management tools
  • spotcloud.com    Cloud services clearing house
  • spraycool.com    IT Data center and component cooling
  • springsoft.com    Bought by Synopsys
  • spsoftglobal.com    Software development
  • spyrus.com    Security tools
  • ssswg.org    IEEE Storage Systems Standards Work Group
  • starboardstorage.com    Unified storage solutions (Formerly Reldata, now ceased operations)
  • startech.com    IT/AV technolgie equipment from enclosures to KVM and more
  • starwindsoftware.com    iSCSI storage management solutions
  • stcroixsolutions.com    VAR
  • stec-inc.com    SSD storage (Bought by WD)
  • Steeleye.com    HA software
  • Stellar    Data Protection tools
  • storagetek.com    Disk, tape, data management software (Bought by Sun)
  • stonebranch.com    File transfer tools
  • stonefly.com    Storage networking routers (Aka DNF)
  • storability.com    Storage management software (Bought by STK)
  • storactive.com    Data protection solutions
  • storagecraft.com    Data protection tools
  • storagefusion.com    Storage resource analysis (SRA) tools
  • storageio.net    Alternate URL for the StorageIO Group
  • storageiogroup.com    Alternate URL for the StorageIO Group
  • storagemadeeasy.com    Hybrid and personal cloud management tools and dashboards
  • Storagemonkeys.com    Storage community site
  • storagenetworking.org    Storage Networking Users Groups also known as SNUGs
  • storageperformance.org    Storage Performance Council information
  • www.storagesearch.com    Venue for information about various storage and related topics
  • storcase.com    Data Archive solutions (Bought by Crudata)
  • store-age.com    Storage management software (Bought by LSI)
  • storediq.com    eDiscovery, search, indexing, classification (Bought by IBM)
  • Storewize.com    Real time data compression (Bought by IBM)
  • Storix.com    Data backup solutions
  • storlife.com    CAS object archive storage
  • stormagic.com    Storage virtualization and data movement software
  • storserver.com    Backup and data protection solutions
  • storsimple.com    Cloud storage access solutions (Bought by Microsoft)
  • storspeed.com    NAS/NFS optimization solutions (Missing in action)
  • stratascale.com    Cloud, hosting and management solutions
  • stratus.com    High availability storage and servers
  • sugarsync.com    Backup and data protection solutions
  • sun.com    Storage networking hardware and software (Bought by Oracle)
  • sunbeltsoftware.com    End point data protection security tools
  • sungard.com    Data protection and cloud services
  • superlumin.com    Application caching tools
  • supermicro.com    Server and storage solutions
  • surdoc.com    Cloud storage and backup
  • surgient.com    Cloud computing solutions
  • svlg.net    Silicon Valley Leadership Group
  • Swiftstack    Private cloud solutions
  • swifttest.com    NFS and CIFS storage testing solutions
  • sybase.com    Database solutions
  • sycamorenetworks.com    Networking solutions
  • Symantec.com    Data and storage management software
  • symbolicio.com    stealth startup
  • symform.com    Cloud storage and backup
  • syncsort.com    Information Management tools
  • synnex.com    Distributor
  • Synnex   IT Solutions
  • synology.com    SMB storage solutions
  • synopsys.com    Computer technology development and manufacturing
  • SysAid    Data center, DCIM and ITSM tools
  • t10.orgscsi-3.htm    ANSI T10 (SCSI information) site
  • t11.org    ANSI T11 page for Fibre Channel information
  • t3media.com    Cloud storage and video platform tools
  • tableausoftware.com    Data analytics software tools
  • tacit.com    WAN file system accelerator (Bought by Packeteer)
  • tacitnetworks.com    Wide area file access acceleration solution (Bought by Packeteer)
  • tandberg.com    Data management solutions (Bought by Cisco)
  • tapeandmedia.com    Information about magnetic tape media
  • tapepower.com    Site for tape topics
  • tarmin.com        Archiving solutions
  • teamdrive.com    Cloud storage
  • teamquest.com    IRM management and capacity management tools
  • TeamViewer.com    Remote support and Online meeting software
  • techdata.com    Distributor
  • tegile.com    Storage system solutions
  • tehutinetworks.net    High speed iSCSI adapters
  • tek-tools.com    SRM storage management software (Bought by Solarwinds)
  • TelecityGroup    AWS connect parter, Hosting/cloud/access services
  • tellabs.com    Networking components
  • Telx    AWS connect parter, Hosting/cloud/access services
  • teneros.com    Email archiving and management solutions
  • teracloud.com    Capacity planning and resource management software
  • teradata.com    Large scale database and data warehouse systems
  • teradici.com    PC over IP technologies
  • teranetics.com    Ethernet chips
  • Terascala    Data analytics and management solutions
  • ter.de    Optical storage libraries
  • terracloudinc.com    Cloud services
  • TerraScale.com    Scalable storage and server solutions
  • Verizon/Terremark   Cloud, hosting and managed services
  • Tevron   Application Response Time Monitoring
  • texmemsys.com    Solid State Disk storage
  • thebci.org    Business Continuity Institute
  • thecus.com    Multi-protocol storage
  • thegreengrid.org    Industry Trade Group
  • The Padcaster    Apple iPad tools
  • thepluggllc.com    Data center energy efficient floor tiles
  • theq3.com    Data storage security solutions
  • thinkaheadit.com aka Ahead    Value added reseller
  • thinkaheadit.com    Value added reseller (VAR)
  • thirdbrigade.com    Intrusion detection security tools (Bought by Trend Micro)
  • thirdio.com    SSD solutions
  • tiaonline.org    Telecommunications Industry Association
  • tidalsoftware.com    IT Management software tools (Bought by Cisco)
  • timespring.com    Continuous data protection solutions
  • tintri.com    NFS and NAS storage optimized for VMware
  • tivoli.com    Data management software
  • Softbank Telecom Corp.    AWS connect parter, Hosting/cloud/access services
  • Primary Data and Tonian    Stealth data virtualization startup
  • topgun-tech.com    Data Infrastructure Resource (Server, Storage, SANs)
  • top500.org    Top 500 super compute sites
  • topio.com    Data protection software (Bought by NetApp)
  • topspin.com    InfiniBand Technology (Bought by Cisco)(
  • Toshiba.com    Server and storage solutions
  • tpc.org    Transaction processing performance council
  • translattice.com    Distributed and elastic database and automation tools
  • Tredent.com    WAN optimization solutions
  • TrendMicro.com    Security and anti virus tools
  • trianz.com    VAR
  • tributary.com   Datra protection soultion tools including virtual, disk and tape-
  • trilogytechnologies.ie    Managed services provider
  • tritondata.com    IT services and VAR
  • trunkbow.com    Cloud, mobile and networking services
  • trustedcomputinggroup.org    Trusted computing industry trade group
  • trusteddatasolutions.com    VAR
  • trustedid.com    ID theft protection
  • trustware.com    Internet and data protection security tools
  • turnkeylinux.org   Turnkey Linux appliance –
  • tusc.com    VAR
  • twinstrata.com    BC/DR analysis and cloud access software
  • tw telecom   tw telecom    AWS connect parter, Hosting/cloud/access services
  • TSO logic    DCIM and data center power energy management tools
  • tzolkin.com    DNS and High Availability solutions

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.

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.

If NVMe is the answer, what are the questions?

If NVMe is the answer, what are the questions?

If NVMe is the answer, then what are the various questions that should be asked?

Some common questions that NVMe is the answer to include what is the difference between NVM and NVMe?

Is NVMe only for servers, does NVMe require fabrics and what benefit is NVMe beyond more IOPs.

Lets take a look at some of these common NVMe conversations and other questions.

Main Features and Benefits of NVMe

Some of the main feature and benefits of NVMe among others include:

    • Lower latency due to improve drivers and increased queues (and queue sizes)
    • Lower CPU used to handle larger number of I/Os (more CPU available for useful work)
    • Higher I/O activity rates (IOPS) to boost productivity unlock value of fast flash and NVM
    • Bandwidth improvements leveraging various fast PCIe interface and available lanes
    • Dual-pathing of devices like what is available with dual-path SAS devices
    • Unlock the value of more cores per processor socket and software threads (productivity)
    • Various packaging options, deployment scenarios and configuration options
    • Appears as a standard storage device on most operating systems
    • Plug-play with in-box drivers on many popular operating systems and hypervisors

NVM and Media memory matters

Whats the differences between NVM and NVMe? Non-Volatile Memory (NVM) which as its name implies is persistent electronic memory medium where data is stored. Today you commonly know about NVMs as NAND flash Solid State Devices (SSD), along with NVRAM among others emerging storage class memories (SCM).

Emerging SCM such as 3D XPoint among other mediums (or media if you prefer) have the premises of boosting both read and write performance beyond traditional NAND flash, closer to DRAM, while having durability also closer to DRAM. For now let’s set the media and mediums aside and get back to how they or will be accessed as well as used.

server storage I/O NVMe fundamentals

Server and Storage I/O Media access matters

NVM Express (e.g. NVMe) is a standard industry protocol for accessing NVM media (SSD and flash devices, storage system, appliances). If NVMe is the answer, then depending on your point of view, NVMe can be (or is) a replacement (today or in the future) for AHCI/SATA, Serial Attached SCSI (SAS). What this means is that NVMe can coexist or replace other block SCSI protocol implementations (e.g. Fibre Channel FCP aka FCP, iSCSI, SRP) as well as NBD (among others).

Similar to the SCSI command set that is implemented on different networks (e.g. iSCSI (IP), FCP (Fibre Channel), SRP (InfiniBand), SAS) NVMe as a protocol is now implemented using PCIe with form factors of add-in cards (AiC), M.2 (e.g. gum sticks aka next-gen form factor or NGFF) as well as U.2 aka 8639 drive form factors. There are also the emerging NVMe over Fabrics variants including FC-NVMe (e.g. NVMe protocol over Fibre Channel) which is an alternative to SCSI_FCP (e.g. SCSI on Fibre Channel). An example of a PCIe AiC that I have include the Intel 750 400GB NVMe (among others). You should be able to find the Intel among other NVMe devices from your prefered vendor as well as different venues including Amazon.com.

NVM, flash and NVMe SSD
Left PCIe AiC x4 NVMe SSD, lower center M.2 NGFF, right SAS and SATA SSD

The following image shows an NVMe U.2 (e.g. 8639) drive form factor device that from a distance looks like a SAS device and connector. However looking closer some extra pins or connectors that present a PCIe Gen 3 x4 (4 PCIe lanes) connection from the server or enclosure backplane to the devices. These U.2 devices plug into 8639 slots (right) that look like a SAS slot that can also accommodate SATA. Remember, SATA can plug into SAS, however not the other way around.

NVMe U.2 8639 driveNVMe 8639 slot
Left NVMe U.2 drive showing PCIe x4 connectors, right, NVMe U.2 8639 connector

What NVMe U.2 means is that the 8639 slots can be used for 12Gbps SAS, 6Gbps SATA or x4 PCIe-based NVMe. Those devices in turn attach to their respective controllers (or adapters) and device driver software protocol stack. Several servers have U.2 or 8639 drive slots either in 2.5” or 1.8” form factors, sometimes these are also called or known as “blue” drives (or slots). The color coding simply helps to keep track of what slots can be used for different things.

Navigating your various NVMe options

If NVMe is the answer, then some device and component options are as follows.

NVMe device components and options include:

    • Enclosures and connector port slots
    • Adapters and controllers
    • U.2, PCIe AIC and M.2 devices
    • Shared storage system or appliances
    • PCIe and NVMe switches

If NVMe is the answer, what to use when, where and why?

Why use an U.2 or 8639 slot when you could use PCIe AiC? Simple, your server or storage system may be PCIe slot constrained, yet have more available U.2 slots. There are U.2 drives from various vendors including Intel and Micro, as well as servers from Dell, Intel and Lenovo among many others.

Why and when would you use an NVMe M.2 device? As a local read/write cache, or perhaps a boot and system device on servers or appliances that have M.2 slots. Many servers and smaller workstations including Intel NUC support M.2. Likewise, there are M.2 devices from many different vendors including Micron, Samsung among others.

Where and why would you use NVMe PCIe AiC? Whenever you can and if you have enough PCIe slots of the proper form factor, mechanical and electrical (e.g. x1, x4, x8, x16) to support a particular card.

Can you mix and match different types of NVMe devices on the same server or appliance? As long as the physical server and its software (BIOS/UEFI, operating system, hypervisors, drivers) support it yes. Most server and appliance vendors support PCIe NVMe AiCs, however, pay attention to if they are x4, x8 both mechanical as well as electrical. Also, verify operating system and hypervisor device driver support. PCIe NVMe AiCs are available from Dell, Intel, Micron and many other vendors.

Networking with your Server and NVMe Storage

Keep in mind that context is important when discussing NVMe as there are devices for attaching as the back-end to servers, storage systems or appliances, as well as for front-end attachment (e.g. for attaching storage systems to servers). NVMe devices can also be internal to a server or storage system and appliance, or, accessible over a network. Think of NVMe as an upper-level command set protocol like SCSI that gets implemented on different networks (e.g. iSCSI, FCP, SRP).

How can NVMe use PCIe as a transport to use devices that are outside of a server? Different vendors have PCIe adapter cards that support longer distances (few meters) to attach to devices. For example, Dell EMC DSSD has a special dual port (two x4 ports) that are PCIe x8 cards for attachment to the DSSD shared SSD devices.

Note that there are also PCIe switches similar to SAS and InfiniBand among other switches. However just because these are switches, does not mean they are your regular off the shelf network type switch that your networking folks will know what to do with (or want to manage).

The following example shows a shared storage system or appliance being accessed by servers using traditional block, NAS file or object protocols. In this example, the storage system or appliance has implemented NVMe devices (PCIe AiC, M.2, U.2) as part of their back-end storage. The back-end storage might be all NVMe, or a mix of NVMe, SAS or SATA SSD and perhaps some high-capacity HDD.

NVMe and server storage access
Servers accessing shared storage with NVMe back-end devices

NVMe and server storage access via PCIe
NVMe PCIe attached (via front-end) storage with various back-end devices

In addition to shared PCIe-attached storage such as Dell EMC DSSD similar to what is shown above, there are also other NVMe options. For example, there are industry initiatives to support the NVMe protocol to use shared storage over fabric networks. There are different fabric networks, they range from RDMA over Converged Ethernet (RoCE) based as well as Fibre Channel NVME (e.g. FC-NVME) among others.

An option that on the surface may not seem like a natural fit or leverage NVMe to its fullest is simply adding NVMe devices as back-end media to existing arrays and appliances. For example, adding NVMe devices as the back-end to iSCSI, SAS, FC, FCoE or other block-based, NAS file or object systems.

NVMe and server storage access via shared PCIe
NVMe over a fabric network (via front-end) with various back-end devices

A common argument against using legacy storage access of shared NVMe is along the lines of why would you want to put a slow network or controller in front of a fast NVM device? You might not want to do that, or your vendor may tell you many reasons why you don’t want to do it particularly if they do not support it. On the other hand, just like other fast NVM SSD storage on shared systems, it may not be all about 100% full performance. Rather, for some environments, it might be about maximizing connectivity over many interfaces to faster NVM devices for several servers.

NVMe and server storage I/O performance

Is NVMe all about boosting the number of IOPS? NVMe can increase the number of IOPS, as well as support more bandwidth. However, it also reduces response time latency as would be expected with an SSD or NVM type of solution. The following image shows an example of not surprisingly an NVMe PCIe AiC x4 SSD outperforming (more IOPs, lower response time) compared to a 6Gb SATA SSD (apples to oranges). Also keep in mind that best benchmark or workload tool is your own application as well as your performance mileage will vary.

NVMe using less CPU per IOP
SATA SSD vs. NVMe PCIe AiC SSD IOPS, Latency and CPU per IOP

The above image shows the lower amount of CPU per IOP given the newer, more streamlined driver and I/O software protocol of NVMe. With NVMe there is less overhead due to the new design, more queues and ability to unlock value not only in SSD also in servers with more sockets, cores and threads.

What this means is that NVMe and SSD can boost performance for activity (TPS, IOPs, gets, puts, reads, writes). NVMe can also lower response time latency while also enabling higher throughput bandwidth. In other words, you get more work out of your servers CPU (and memory). Granted SSDs have been used for decades to boost server performance and in many cases, delay an upgrade to a newer faster system by getting more work out of them (e.g. SSD marketing 202).

NVMe maximizing your software license investments

What may not be so obvious (e.g. SSD marketing 404) is that by getting more work activity done in a given amount of time, you can also stretch your software licenses further. What this means is that you can get more out of your IBM, Microsoft, Oracle, SAP, VMware and other software licenses by increasing their effective productivity. You might already be using virtualization to increase server hardware efficiency and utilization to cut costs. Why not go further and boost productivity to increase your software license (as well as servers) effectiveness by using NVMe and SSDs?

Note that fast applications need fast software, servers, drivers, I/O protocols and devices.

Also just because you have NVMe present or PCIe does not mean full performance, similar to how some vendors put SSDs behind their slow controllers and saw, well slow performance. On the other hand vendors who had or have fast controllers (software, firmware, hardware) that were HDD or are even SSD performance constrained can see a performance boost.

Additional NVMe and related tips

If you have a Windows server and have not overridden, check your power plan to make sure it is not improperly set to balanced instead of high performance. For example using PowerShell issue the following command:

PowerCfg -SetActive “381b4222-f694-41f0-9685-ff5bb260df2e”

Another Windows related tip if you have not done so is enable task manager disk stats by issuing from a command line “diskperf –y”. Then display task manager and performance and see drive performance.

Need to benchmark, validate, compare or test an NVMe, SSD (or even HDD) device or system, there are various tools and workloads for different scenarios. Likewise those various tools can be configured for different activity to reflect your needs (and application workloads). For example, Microsoft Diskspd, fio.exe, iometer and vdbench sample scripts are shown here (along with results) as a starting point for comparison or validation testing.

Does M.2. mean you have NVMe? That depends as some systems implement M.2 with SATA, while others support NVMe, read the fine print or ask for clarification.

Do all NVMe using PCIe run at the same speed? Not necessarily as some might be PCIe x1 or x4 or x8. Likewise some NVMe PCIe cards might be x8 (mechanical and electrical) yet split out into a pair of x4 ports. Also keep in mind that similar to a dual port HDD, NVMe U.2 drives can have two paths to a server, storage system controller or adapter, however both might not be active at the same time. You might also have a fast NVMe device attached to a slow server or storage system or adapter.

Who to watch and keep an eye on in the NVMe ecosystem? Besides those mentioned above, others to keep an eye on include Broadcom, E8, Enmotus Fuzedrive (micro-tiering software), Excelero, Magnotics, Mellanox, Microsemi (e.g. PMC Sierra), Microsoft (Windows Server 2016 S2D + ReFS + Storage Tiering), NVM Express trade group, Seagate, VMware (Virtual NVMe driver part of vSphere ESXi in addition to previous driver support) and WD/Sandisk among many others.

Where To Learn More

Additional related content can be found at:

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 is in your future, that was the answer, however there are the when, where, how, with what among other questions to be addressed. One of the great things IMHO about NVMe is that you can have it your way, where and when you need it, as a replacement or companion to what you have. Granted that will vary based on your preferred vendors as well as what they support today or in the future.

If NVMe is the answer, Ask your vendor when they will support NVMe as a back-end for their storage systems, as well as a front-end. Also decide when will your servers (hardware, operating systems hypervisors) support NVMe and in what variation. Learn more why NVMe is the answer and related topics at www.thenvmeplace.com

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.

Server storage I/O performance benchmark workload scripts Part I

Server storage I/O performance benchmark workload scripts Part I

Server storage I/O performance benchmark workload scripts

Update 1/28/2018

This is part one of a two-part series of posts about Server storage I/O performance benchmark workload tools and scripts. View part II here which includes the workload scripts and where to view sample results.

There are various tools and workloads for server I/O benchmark testing, validation and exercising different storage devices (or systems and appliances) such as Non-Volatile Memory (NVM) flash Solid State Devices (SSDs) or Hard Disk Drives (HDD) among others.

NVMe ssd storage
Various NVM flash SSD including NVMe devices

For example, lets say you have an SSD such as an Intel 750 (here, here, and here) or some other vendors NVMe PCIe Add in Card (AiC) installed into a Microsoft Windows server and would like to see how it compares with expected results. The following scripts allow you to validate your system with those of others running the same workload, granted of course your mileage (performance) may vary.

server storage I/O SCM NVM SSD performance

Why Your Performance May Vary

Reasons you performance may vary include among others:

  • GHz Speed of your server, number of sockets, cores
  • Amount of main DRAM memory
  • Number, type and speed of PCIe slots
  • Speed of storage device and any adapters
  • Device drivers and firmware of storage devices and adapters
  • Server power mode setting (e.g. low or balanced power vs. high-performance)
  • Other workload running on system and device under test
  • Solar flares (kp-index) among other urban (or real) myths and issues
  • Typos or misconfiguration of workload test scripts
  • Test server, storage, I/O device, software and workload configuration
  • Versions of test software tools among others

Windows Power (and performance) Settings

Some things are assumed or taken for granted that everybody knows and does, however sometimes the obvious needs to be stated or re-stated. An example is remembering to check your server power management settings to see if they are in energy efficiency power savings mode, or, in high-performance mode. Note that if your focus is on getting the best possible performance for effective productivity, then you want to be in high performance mode. On the other hand if performance is not your main concern, instead a focus on energy avoidance, then low power mode, or perhaps balanced.

For Microsoft Windows Servers, Desktop Workstations, Laptops and Tablets you can adjust power settings via control panel and GUI as well as command line or Powershell. From command line (privileged or administrator) the following are used for setting balanced or high-performance power settings.

Balanced

powercfg.exe /setactive 381b4222-f694-41f0-9685-ff5bb260df2e

High Performance

powercfg.exe /setactive 8c5e7fda-e8bf-4a96-9a85-a6e23a8c635c

From Powershell the following set balanced or high-performance.

Balanced
PowerCfg -SetActive "381b4222-f694-41f0-9685-ff5bb260df2e"

High Performance
PowerCfg -SetActive "8c5e7fda-e8bf-4a96-9a85-a6e23a8c635c"

Note that you can list Windows power management settings using powercfg -LIST and powercfg -QUERY

server storage I/O power management

Btw, if you have not already done so, enable Windows disk (HDD and SSD) performance counters so that they appear via Task Manager by entering from a command prompt:

diskperf -y

Workload (Benchmark) Simulation Test Tools Used

There are many tools (see storageio.com/performance) that can be used for creating and running workloads just as there are various application server I/O characteristics. Different server I/O and application performance attributes include among others read vs. write, random vs. sequential, large vs. small, long vs. short stride, burst vs. sustain, cache and non-cache friendly, activity vs. data movement vs. latency vs. CPU usage among others. Likewise the number of workers, jobs, threads, outstanding and overlapped I/O among other configuration settings can have an impact on workload and results.

The four free tools that I’m using with this set of scripts are:

  • Microsoft Diskspd (free), get the tool and bits here or here (open source), learn more about Diskspd here.
  • FIO.exe (free), get the tool and bits here or here among other venues.
  • Vdbench (free with registration), get the tool and bits here or here among other venues.
  • Iometer (free), get the tool and bits here among other venues.

Notice: While best effort has been made to verify the above links, they may change over time and you are responsible for verifying the safety of links and your downloads.

Where To Learn More

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

Remember, everything is not the same in the data center or with data infrastructures that support different applications.

While some tools are more robust or better than others for different things, ultimately it’s usually not the tool that results in a bad benchmark or comparison, it’s the configuration or lack of including workload settings that are not relevant or applicable. The best benchmark, workload or simulation is your own application. Second best is one that closely resembles your application workload characteristics. A bad benchmark is one that has no relevance to your environment, application use scenario. Take and treat all benchmark or workload simulation results with a grain of salt as something to compare, contrast or make reference to in the proper context. Read part two of this post series to view test tool workload scripts along with sample results.

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.

Part V – NVMe overview primer (Where to learn more, what this all means)

This is the fifth in a five-part mini-series providing a NVMe primer overview.

View Part I, Part II, Part III, Part IV, Part V as well as companion posts and more NVMe primer material at www.thenvmeplace.com.

There are many different facets of NVMe including protocol that can be deployed on PCIe (AiC, U.2/8639 drives, M.2) for local direct attached, dedicated or shared for front-end or back-end of storage systems. NVMe direct attach is also found in servers and laptops using M.2 NGFF mini cards (e.g. “gum sticks”). In addition to direct attached, dedicated and shared, NVMe is also deployed on fabrics including over Fibre Channel (FC-NVMe) as well as NVMe over Fabrics (NVMeoF) leveraging RDMA based networks (e.g. iWARP, RoCE among others).

The storage I/O capabilities of flash can now be fed across PCIe faster to enable modern multi-core processors to complete more useful work in less time, resulting in greater application productivity. NVMe has been designed from the ground up with more and deeper queues, supporting a larger number of commands in those queues. This in turn enables the SSD to better optimize command execution for much higher concurrent IOPS. NVMe will coexist along with SAS, SATA and other server storage I/O technologies for some time to come. But NVMe will be at the top-tier of storage as it takes full advantage of the inherent speed and low latency of flash while complementing the potential of multi-core processors that can support the latest applications.

With NVMe, the capabilities of underlying NVM and storage memories are further realized Devices used include a PCIe x4 NVMe AiC SSD, 12 GbpsSAS SSD and 6 GbpsSATA SSD. These and other improvements with NVMe enable concurrency while reducing latency to remove server storage I/O traffic congestion. The result is that application demanding more concurrent I/O activity along with lower latency will gravitate towards NVMe for access fast storage.

Like the robust PCIe physical server storage I/O interface it leverages, NVMe provides both flexibility and compatibility. It removes complexity, overhead and latency while allowing far more concurrent I/O work to be accomplished. Those on the cutting edge will embrace NVMe rapidly. Others may prefer a phased approach.

Some environments will initially focus on NVMe for local server storage I/O performance and capacity available today. Other environments will phase in emerging external NVMe flash-based shared storage systems over time.

Planning is an essential ingredient for any enterprise. Because NVMe spans servers, storage, I/O hardware and software, those intending to adopt NVMe need to take into account all ramifications. Decisions made today will have a big impact on future data and information infrastructures.

Key questions should be, how much speed do your applications need now, and how do growth plans affect those requirements? How and where can you maximize your financial return on investment (ROI) when deploying NVMe and how will that success be measured?

Several vendors are working on, or have already introduced NVMe related technologies or initiatives. Keep an eye on among others including AWS, Broadcom (Avago, Brocade), Cisco (Servers), Dell EMC, Excelero, HPE, Intel (Servers, Drives and Cards), Lenovo, Micron, Microsoft (Azure, Drivers, Operating Systems, Storage Spaces), Mellanox, NetApp, OCZ, Oracle, PMC, Samsung, Seagate, Supermicro, VMware, Western Digital (acquisition of SANdisk and HGST) 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

NVMe is in your future if not already, so 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.

Where, How to use NVMe overview primer

server storage I/O trends
Updated 1/12/2018

This is the fourth in a five-part miniseries providing a primer and overview of NVMe. View companion posts and more material at www.thenvmeplace.com.

Where and how to use NVMe

As mentioned and shown in the second post of this series, initially, NVMe is being deployed inside servers as “ back-end,” fast, low latency storage using PCIe Add-In-Cards (AIC) and flash drives. Similar to SAS NVM SSDs and HDDs that support dual-paths, NVMe has a primary path and an alternate path. If one path fails, traffic keeps flowing without causing slowdowns. This feature is an advantage to those already familiar with the dual-path capabilities of SAS, enabling them to design and configure resilient solutions.

NVMe devices including NVM flash AIC flash will also find their way into storage systems and appliances as back-end storage, co-existing with SAS or SATA devices. Another emerging deployment configuration scenario is shared NVMe direct attached storage (DAS) with multiple server access via PCIe external storage with dual paths for resiliency.

Even though NVMe is a new protocol, it leverages existing skill sets. Anyone familiar with SAS/SCSI and AHCI/SATA storage devices will need little or no training to carry out and manage NVMe. Since NVMe-enabled storage appears to a host server or storage appliance as an LUN or volume, existing Windows, Linux and other OS or hypervisors tools can be used. On Windows, such as,  other than going to the device manager to see what the device is and what controller it is attached to, it is no different from installing and using any other storage device. The experience on Linux is similar, particularly when using in-the-box drivers that ship with the OS. One minor Linux difference of note is that instead of seeing a /dev/sda device as an example, you might see a device name like /dev/nvme0n1 or /dev/nvme0n1p1 (with a partition).

Keep in mind that NVMe like SAS can be used as a “back-end” access from servers (or storage systems) to a storage device or system. For example JBOD SSD drives (e.g. 8639), PCIe AiC or M.2 devices. NVMe can also like SAS be used as a “front-end” on storage systems or appliances in place of, or in addition to other access such as GbE based iSCSI, Fibre Channel, FCoE, InfiniBand, NAS or Object.

What this means is that NVMe can be implemented in a storage system or appliance on both the “front-end” e.g. server or host side as well as on the “back-end” e.g. device or drive side that is like SAS. Another similarity to SAS is that NVMe dual-pathing of devices, permitting system architects to design resiliency into their solutions. When the primary path fails, access to the storage device can be maintained with failover so that fast I/O operations can continue when using SAS and NVMe.

NVM connectivity options including NVMe
Various NVM NAND flash SSD devices and their connectivity including NVMe, M2, SATA and 12 Gbps SAS are shown in figure 6.

Various NVM SSD interfaces including NVMe and M2
Figure 6 Various NVM flash SSDs (Via StorageIO Labs)

Left in figure 6 is an NAND flash NVMe PCIe AiC, top center is a USB thumb drive that has been opened up showing an NAND die (chip), middle center is a mSATA card, bottom center is an M.2 card, next on the right is a 2.5” 6 Gbps SATA device, and far fright is a 12 Gbps SAS device. Note that an M.2 card can be either an SATA or NVMe device depending on its internal controller that determines which host or server protocol device driver to use.

The role of PCIe has evolved over the years as has its performance and packaging form factors. Also, to add in card (AiC) slots, PCIe form factors also include M.2 small form factor that replaces legacy mini-PCIe cards. Another form factor is M.2 (aka Next Generation Form Factor or NGFF) that like other devices, can be an NVMe, or SATA device.

NGFF also known as 8639 or possibly 8637 (figure 7) can be used to support SATA as well as NVMe depending on the card device installed and host server driver support. There are various M.2 NGFF form factors including 2230, 2242, 2260 and 2280. There are also M.2 to regular physical SATA converter or adapter cards that are available enabling M.2 devices to attach to legacy SAS/SATA RAID adapters or HBAs.

NVMe 8637 and 8639 interface backplane slotsNVMe 8637 and 8639 interface
Figure 7 PCIe NVMe 8639 Drive (Via StorageIO Labs)

On the left of figure 7 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 figure 7 is the connector end of an 8639 NVM SSD showing addition pin connectors compared to an 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.

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

Be careful judging a device or component by its physical packaging or interface connection about what it is or is not. In figure 6.6 the device has SAS/SATA along with PCIe physical connections, yet it’s what’s inside (e.g. its controller) that determines if it is an SAS, SATA or NVMe enabled device. This also applies to HDDs and PCIe AiC devices, as well as I/O networking cards and adapters that may use common physical connectors, yet implement different protocols. For example, the SFF-8643 HD-Mini SAS internal connector is used for 12 Gbps SAS attachment as well as PCIe to devices such as 8630.

Depending on the type of device inserted, access can be via NVMe over PCIe x4, SAS (12 Gbps or 6Gb) or SATA. 8639 connector based enclosures have a physical connection with their backplanes to the individual drive connectors, as well as to PCIe, SAS, and SATA cards or connectors on the server motherboard or via PCIe riser slots.

While PCIe devices including AiC slot based, M.2 or 8639 can have common physical interfaces and lower level signaling, it’s the protocols, controllers, and drivers that determine how they get a software defined and used. Keep in mind that it’s not just the physical connector or interface that determines what a device is or how it is used, it’s also the protocol, command set, and controller and device drivers.

Continue reading about NVMe with Part V (Where to learn more, what this all means) in this five-part series, or jump to Part I, Part II or Part III.

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 Need for Performance Speed Performance

server storage I/O trends
Updated 1/12/2018

This is the third in a five-part mini-series providing a primer and overview of NVMe. View companion posts and more material at www.thenvmeplace.com.

How fast is NVMe?

It depends! Generally speaking NVMe is fast!

However fast interfaces and protocols also need fast storage devices, adapters, drivers, servers, operating systems and hypervisors as well as applications that drive or benefit from the increased speed.

A server storage I/O example is in figure 5 where a 6 Gbps SATA NVM flash SSD (left) is shown with an NVMe 8639 (x4) drive that were directly attached to a server. The workload is 8 Kbyte sized random writes with 128 threads (workers) showing results for IOPs (solid bar) along with response time (dotted line). Not surprisingly the NVMe device has a lower response time and a higher number of IOPs. However also note how the amount of CPU time used per IOP is lower on the right with the NVMe drive.

NVMe storage I/O performance
Figure 5 6 Gbps SATA NVM flash SSD vs. NVMe flash SSD

While many people are aware or learning about the IOP and bandwidth improvements as well as the decrease in latency with NVMe, something that gets overlooked is how much less CPU is used. If a server is spending time in wait modes that can result in lost productivity, by finding and removing the barriers more work can be done on a given server, perhaps even delaying a server upgrade.

In figure 5 notice the lower amount of CPU used per work activity being done (e.g. I/O or IOP) which translates to more effective resource use of your server. What that means is either doing more work with what you have, or potentially delaying a CPU server upgrade, or, using those extra CPU cycles to power software defined storage management stacks including erasure coding or advanced parity RAID, replication and other functions.

Table 1 shows relative server I/O performance of some NVM flash SSD devices across various workloads. As with any performance, the comparison takes them, and the following with a grain of salt as your speed will vary.

8KB I/O Size

1MB I/O size

NAND flash SSD

100% Seq. Read

100% Seq. Write

100% Ran. Read

100% Ran. Write

100% Seq. Read

100% Seq. Write

100% Ran. Read

100% Ran. Write

NVMe

IOPs

41829.19

33349.36

112353.6

28520.82

1437.26

889.36

1336.94

496.74

PCIe

Bandwidth

326.79

260.54

877.76

222.82

1437.26

889.36

1336.94

496.74

AiC

Resp.

3.23

3.90

1.30

4.56

178.11

287.83

191.27

515.17

CPU / IOP

0.001571

0.002003

0.000689

0.002342

0.007793

0.011244

0.009798

0.015098

12Gb

IOPs

34792.91

34863.42

29373.5

27069.56

427.19

439.42

416.68

385.9

SAS

Bandwidth

271.82

272.37

229.48

211.48

427.19

429.42

416.68

385.9

Resp.

3.76

3.77

4.56

5.71

599.26

582.66

614.22

663.21

CPU / IOP

0.001857

0.00189

0.002267

0.00229

0.011236

0.011834

0.01416

0.015548

6Gb

IOPs

33861.29

9228.49

28677.12

6974.32

363.25

65.58

356.06

55.86

SATA

Bandwidth

264.54

72.1

224.04

54.49

363.25

65.58

356.06

55.86

Resp.

4.05

26.34

4.67

35.65

704.70

3838.59

718.81

4535.63

CPU / IOP

0.001899

0.002546

0.002298

0.003269

0.012113

0.032022

0.015166

0.046545

Table 1 Relative performance of various protocols and interfaces

The workload results in table 1 were generated using a vdbench script running on a Windows 2012 R2 based server and are intended to be a relative indicator of different protocol and interfaces; your performance mileage will vary. The results shown below compare the number of IOPs (activity rate) for reads, writes, random and sequential across small 8KB and large 1MB sized I/Os.

Also shown in table 1 are bandwidth or throughput (e.g. amount of data moved), response time and the amount of CPU used per IOP. Note in table 1 how NVMe can do higher IOPs with a lower CPU per IOP, or, using a similar amount of CPU, do more work at a lower latency. SSD has been used for decades to help reduce CPU bottlenecks or defer server upgrades by removing I/O wait times and reduce CPU consumption (e.g. wait or lost time).

Can NVMe solutions run faster than those shown above? Absolutely!

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

Continue reading about NVMe with Part IV (Where and How to use NVMe) in this five-part series, or jump to Part I, Part II or Part V.

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.

Different NVMe Configurations

server storage I/O trends
Updated 1/12/2018

This is the second in a five-part mini-series providing a primer and overview of NVMe. View companion posts and more material at www.thenvmeplace.com.

The many different faces or facets of NVMe configurations

NVMe can be deployed and used in many ways, the following are some examples to show you its flexibility today as well as where it may be headed in the future. An initial deployment scenario is NVMe devices (e.g. PCIe cards, M2 or 8639 drives) installed as storage in servers or as back-end storage in storage systems. Figure 2 below shows a networked storage system or appliance that uses traditional server storage I/O interfaces and protocols for front-end access, however with back-end storage being all NVMe, or a hybrid of NVMe, SAS and SATA devices.
NVMe as back-end server storage I/O interface to NVM
Figure 2 NVMe as back-end server storage I/O interface to NVM storage

A variation of the above is using NVMe for shared direct attached storage (DAS) such as the EMC DSSD D5. In the following scenario (figure 3), multiple servers in a rack or cabinet configuration have an extended PCIe connection that attached to a shared storage all flash array using NVMe on the front-end. Read more about this approach and EMC DSSD D5 here or click on the image below.

EMC DSSD D5 NVMe
Figure 3 Shared DAS All Flash NVM Storage using NVMe (e.g. EMC DSSD D5)

Next up in figure 4 is a variation of the previous example, except NVMe is implemented over an RDMA (Remote Direct Memory Access) based fabric network using Converged 10GbE/40GbE or InfiniBand in what is known as RoCE (RDMA over Converged Ethernet pronounced Rocky).

NVMe over Fabric RoCE
Figure 4 NVMe as a “front-end” interface for servers or storage systems/appliances

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

Watch for more topology and configuration options as NVMe along with associated hardware, software and I/O networking tools and technologies emerge over time.

Continue reading about NVMe with Part III (Need for Performance Speed) in this five-part series, or jump to Part I, Part IV or Part V.

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 overview primer

server storage I/O trends
Updated 2/2/2018

This is the first in a five-part mini-series providing a primer and overview of NVMe. View companion posts and more material at www.thenvmeplace.com.

What is NVM Express (NVMe)

Non-Volatile Memory (NVM) includes persistent memory such as NAND flash and other forms Solid State Devices (SSD). NVM express (NVMe) is a new server storage I/P protocol alternative to AHCI/SATA and the SCSI protocol used by Serial Attached SCSI (SAS). Note that the name NVMe is owned and managed by the industry trade group for NVM Express is (www.nvmexpress.org).

The key question with NVMe is not if, rather when, where, why, how and with what will it appear in your data center or server storage I/O data infrastructure. This is a companion to material that I have on my micro site www.thenvmeplace.com that provides an overview of NVMe, as well as helps to discuss some of the questions about NVMe.

Main features of NVMe include among others:

  • Lower latency due to improve drivers and increased queues (and queue sizes)
  • Lower CPU used to handler larger number of I/Os (more CPU available for useful work)
  • Higher I/O activity rates (IOPs) to boost productivity unlock value of fast flash and NVM
  • Bandwidth improvements leveraging various fast PCIe interface and available lanes
  • Dual-pathing of devices like what is available with dual-path SAS devices
  • Unlock the value of more cores per processor socket and software threads (productivity)
  • Various packaging options, deployment scenarios and configuration options
  • Appears as a standard storage device on most operating systems
  • Plug-play with in-box drivers on many popular operating systems and hypervisors

Why NVMe for Server Storage I/O?
NVMe has been designed from the ground up for accessing fast storage including flash SSD leveraging PCI Express (PCIe). The benefits include lower latency, improved concurrency, increased performance and the ability to unleash a lot more of the potential of modern multi-core modern processors.

NVMe Server Storage I/O
Figure 1 shows common server I/O connectivity including PCIe, SAS, SATA and NVMe.

NVMe, leveraging PCIe, enables modern applications to reach their full potential. NVMe is one of those rare, generational protocol upgrades that comes around every couple of decades to help unlock the full performance value of servers and storage. NVMe does need new drivers, but once in place, it plugs and plays seamlessly with existing tools, software and user experiences. Likewise many of those drivers are now in the box (e.g. ship with) for popular operating systems and hypervisors.

While SATA and SAS provided enough bandwidth for HDDs and some SSD uses, more performance is needed. NVMe near-term does not replace SAS or SATA they can and will coexist for years to come enabling different tiers of server storage I/O performance.

NVMe unlocks the potential of flash-based storage by allowing up to 65,536 (64K) queues each with 64K commands per queue. SATA allowed for only one command queue capable of holding 32 commands per queue and SAS supports a queue with 64K command entries. As a result, the storage IO capabilities of flash can now be fed across PCIe much faster to enable modern multi-core processors to complete more useful work in less time.

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

Continue reading about NVMe with Part II (Different NVMe configurations) in this five-part series, or jump to Part III, Part IV or Part V.

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 Place NVM Non Volatile Memory Express Resources

Updated 8/31/19
NVMe place server Storage I/O data infrastructure trends

Welcome to NVMe place NVM Non Volatile Memory Express Resources. NVMe place is about Non Volatile Memory (NVM) Express (NVMe) with Industry Trends Perspectives, Tips, Tools, Techniques, Technologies, News and other information.

Disclaimer

Please note that this NVMe place resources site is independent of the industry trade and promoters group NVM Express, Inc. (e.g. www.nvmexpress.org). NVM Express, Inc. is the sole owner of the NVM Express specifications and trademarks.

NVM Express Organization
Image used with permission of NVM Express, Inc.

Visit the NVM Express industry promoters site here to learn more about their members, news, events, product information, software driver downloads, and other useful NVMe resources content.

 

The NVMe Place resources and NVM including SCM, PMEM, Flash

NVMe place includes Non Volatile Memory (NVM) including nand flash, storage class memories (SCM), persistent memories (PM) are storage memory mediums while NVM Express (NVMe) is an interface for accessing NVM. This NVMe resources page is a companion to The SSD Place which has a broader Non Volatile Memory (NVM) focus including flash among other SSD topics. NVMe is a new server storage I/O access method and protocol for fast access to NVM based storage and memory technologies. NVMe is an alternative to existing block based server storage I/O access protocols such as AHCI/SATA and SCSI/SAS devices commonly used for access Hard Disk Drives (HDD) along with SSD among other things.

Server Storage I/O NVMe PCIe SAS SATA AHCI
Comparing AHCI/SATA, SCSI/SAS and NVMe all of which can coexist to address different needs.

Leveraging the standard PCIe hardware interface, NVMe based devices (that have an NVMe controller) can be accessed via various operating systems (and hypervisors such as VMware ESXi) with both in the box drivers or optional third-party device drivers. Devices that support NVMe can be 2.5″ drive format packaged that use a converged 8637/8639 connector (e.g. PCIe x4) coexisting with SAS and SATA devices as well as being add-in card (AIC) PCIe cards supporting x4, x8 and other implementations. Initially, NVMe is being positioned as a back-end to servers (or storage systems) interface for accessing fast flash and other NVM based devices.

NVMe as back-end storage
NVMe as a “back-end” I/O interface for NVM storage media

NVMe as front-end server storage I/O interface
NVMe as a “front-end” interface for servers or storage systems/appliances

NVMe has also been shown to work over low latency, high-speed RDMA based network interfaces including RoCE (RDMA over Converged Ethernet) and InfiniBand (read more here, here and here involving Mangstor, Mellanox and PMC among others). What this means is that like SCSI based SAS which can be both a back-end drive (HDD, SSD, etc) access protocol and interface, NVMe can also being used for back-end can also be used as a front-end of server to storage interface like how Fibre Channel SCSI_Protocol (aka FCP), SCSI based iSCSI, SCSI RDMA Protocol via InfiniBand (among others) are used.

NVMe features

Main features of NVMe include among others:

  • Lower latency due to improve drivers and increased queues (and queue sizes)
  • Lower CPU used to handle larger number of I/Os (more CPU available for useful work)
  • Higher I/O activity rates (IOPs) to boost productivity unlock value of fast flash and NVM
  • Bandwidth improvements leveraging various fast PCIe interface and available lanes
  • Dual-pathing of devices like what is available with dual-path SAS devices
  • Unlock the value of more cores per processor socket and software threads (productivity)
  • Various packaging options, deployment scenarios and configuration options
  • Appears as a standard storage device on most operating systems
  • Plug-play with in-box drivers on many popular operating systems and hypervisors

Shared external PCIe using NVMe
NVMe and shared PCIe (e.g. shared PCIe flash DAS)

NVMe related content and links

The following are some of my tips, articles, blog posts, presentations and other content, along with material from others pertaining to NVMe. Keep in mind that the question should not be if NVMe is in your future, rather when, where, with what, from whom and how much of it will be used as well as how it will be used.

  • How to Prepare for the NVMe Server Storage I/O Wave (Via Micron.com)
  • Why NVMe Should Be in Your Data Center (Via Micron.com)
  • NVMe U2 (8639) vs. M2 interfaces (Via Gamersnexus)
  • Enmotus FuzeDrive MicroTiering (StorageIO Lab Report)
  • EMC DSSD D5 Rack Scale Direct Attached Shared SSD All Flash Array Part I (Via StorageIOBlog)
  • Part II – EMC DSSD D5 Direct Attached Shared AFA (Via StorageIOBlog)
  • NAND, DRAM, SAS/SCSI & SATA/AHCI: Not Dead, Yet! (Via EnterpriseStorageForum)
  • Non Volatile Memory (NVM), NVMe, Flash Memory Summit and SSD updates (Via StorageIOblog)
  • Microsoft and Intel showcase Storage Spaces Direct with NVM Express at IDF ’15 (Via TechNet)
  • MNVM Express solutions (Via SuperMicro)
  • Gaining Server Storage I/O Insight into Microsoft Windows Server 2016 (Via StorageIOblog)
  • PMC-Sierra Scales Storage with PCIe, NVMe (Via EEtimes)
  • RoCE updates among other items (Via InfiniBand Trade Association (IBTA) December Newsletter)
  • NVMe: The Golden Ticket for Faster Flash Storage? (Via EnterpriseStorageForum)
  • What should I consider when using SSD cloud? (Via SearchCloudStorage)
  • MSP CMG, Sept. 2014 Presentation (Flash back to reality – Myths and Realities – Flash and SSD Industry trends perspectives plus benchmarking tips)– PDF
  • Selecting Storage: Start With Requirements (Via NetworkComputing)
  • PMC Announces Flashtec NVMe SSD NVMe2106, NVMe2032 Controllers With LDPC (Via TomsITpro)
  • Exclusive: If Intel and Micron’s “Xpoint” is 3D Phase Change Memory, Boy Did They Patent It (Via Dailytech)
  • Intel & Micron 3D XPoint memory — is it just CBRAM hyped up? Curation of various posts (Via Computerworld)
  • How many IOPS can a HDD, HHDD or SSD do (Part I)?
  • How many IOPS can a HDD, HHDD or SSD do with VMware? (Part II)
  • I/O Performance Issues and Impacts on Time-Sensitive Applications (Via CMG)
  • Via EnterpriseStorageForum: 5 Hot Storage Technologies to Watch
  • Via EnterpriseStorageForum: 10-Year Review of Data Storage

Non-Volatile Memory (NVM) Express (NVMe) continues to evolve as a technology for enabling and improving server storage I/O for NVM including nand flash SSD storage. NVMe streamline performance enabling more work to be done (e.g. IOPs), data to be moved (bandwidth) at a lower response time using less CPU.

NVMe and SATA flash SSD performance

The above figure is a quick look comparing nand flash SSD being accessed via SATA III (6Gbps) on the left and NVMe (x4) on the right. As with any server storage I/O performance comparisons there are many variables and take them with a grain of salt. While IOPs and bandwidth are often discussed, keep in mind that with the new protocol, drivers and device controllers with NVMe that streamline I/O less CPU is needed.

Additional NVMe Resources

Also check out the Server StorageIO companion micro sites landing pages including thessdplace.com (SSD focus), data protection diaries (backup, BC/DR/HA and related topics), cloud and object storage, and server storage I/O performance and benchmarking here.

If you are in to the real bits and bytes details such as at device driver level content check out the Linux NVMe reflector forum. The linux-nvme forum is a good source if you are developer to stay up on what is happening in and around device driver and associated topics.

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

Disclaimer

Disclaimer: Please note that this site is independent of the industry trade and promoters group NVM Express, Inc. (e.g. www.nvmexpress.org). NVM Express, Inc. is the sole owner of the NVM Express specifications and trademarks. Check out the NVM Express industry promoters site here to learn more about their members, news, events, product information, software driver downloads, and other useful NVMe resources content.

NVM Express Organization
Image used with permission of NVM Express, Inc.

Wrap Up

Watch for updates with more content, links and NVMe resources to be added here soon.

Ok, nuff said (for now)

Cheers
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.

Intel Micron 3D XPoint server storage NVM SCM PM SSD

3D XPoint server storage class memory SCM


Storage I/O trends

Updated 1/31/2018

Intel Micron 3D XPoint server storage NVM SCM PM SSD.

This is the second of a three-part series on the recent Intel and Micron 3D XPoint server storage memory announcement. Read Part I here and Part III here.

Is this 3D XPoint marketing, manufacturing or material technology?

You can’t have a successful manufactured material technology without some marketing, likewise marketing without some manufactured material would be manufactured marketing. In the case of 3D XPoint and its announcement launch, their real technology shown, granted it was only wafer and dies as opposed to an actual DDR4 DIMM or PCIe Add In Card (AIC) or drive form factor Solid State Device (SSD) product. On the other hand, on a relative comparison basis, even though there is marketing collateral available to learn more from, this was far from a over the big-top made for TV or web circus event, which can be a good thing.


Wafer unveiled containing 3D XPoint 128 Gb dies

Who will get access to 3D XPoint?

Initially 3D XPoint production capacity supply will be for the two companies to offer early samples to their customers later this year with general production slated for 2016 meaning early real customer deployed products starting sometime in 2016.

Is it NAND or NOT?

3D XPoint is not NAND flash, it is also not NVRAM or DRAM, it’s a new class of NVM that can be used for server class main memory with persistency, or as persistent data storage among other uses (cell phones, automobiles, appliances and other electronics). In addition, 3D XPoint is more durable with a longer useful life for writing and storing data vs. NAND flash.

Why is 3D XPoint important?

As mentioned during the Intel and Micron announcement, there have only been seven major memory technologies introduced since the transistor back in 1947, granted there have been many variations along with generational enhancements of those. Thus 3D XPoint is being positioned by Intel and Micron as the eighth memory class joining its predecessors many of which continue to be used today in various roles.


Major memory classes or categories timeline

In addition to the above memory classes or categories timeline, the following shows in more detail various memory categories (click on the image below to get access to the Intel interactive infographic).

Intel History of Memory Infographic
Via: https://intelsalestraining.com/memory timeline/ (Click on image to view)

What capacity size is 3D XPoint?

Initially the 3D XPoint technology is available in a 2 layer 128 bit (cell) per die capacity. Keep in mind that there are usually 8 bits to a byte resulting in 16 GByte capacity per chip initially. With density improvements, as well as increased stacking of layers, the number of cells or bits per die (e.g. what makes up a chip) should improve, as well as most implementations will have multiple chips in some type of configuration.

What will 3D XPoint cost?

During the 3D XPoint launch webinar Intel and Micron hinted that first pricing will be between current DRAM and NAND flash on a per cell or bit basis, however real pricing and costs will vary depending on how packaged for use. For example if placed on a DDR4 or different type of DIMM or on a PCIe Add In Card (AIC) or as a drive form factor SSD among other options will vary the real price. Likewise as with other memories and storage mediums, as production yields and volumes increase, along with denser designs, the cost per usable cell or bit can be expected to further improve.

Where to read, watch and learn more

Storage I/O trends

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

DRAM which has been around for sometime has plenty of life left for many applications as does NAND flash including new 3D NAND, vNAND and other variations. For the next several years, there will be a co-existences between new and old NVM and DRAM among other memory technologies including 3D XPoint. Read more in this series including Part I here and Part III here.

Disclosure: Micron and Intel have been direct and/or indirect clients in the past via third-parties and partners, also I have bought and use some of their technologies direct and/or in-direct via their partners.

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.

3D XPoint nvm pm scm storage class memory

Part III – 3D XPoint server storage class memory SCM


Storage I/O trends

Updated 1/31/2018

3D XPoint nvm pm scm storage class memory.

This is the third of a three-part series on the recent Intel and Micron 3D XPoint server storage memory announcement. Read Part I here and Part II here.

What is 3D XPoint and how does it work?

3D XPoint is a new class or class of memory (view other categories of memory here) that provides performance for reads and writes closer to that of DRAM with about 10x the capacity density. In addition to the speed closer to DRAM vs. the lower NAND flash, 3D XPoint is also non-volatile memory (NVM) like NAND flash, NVRAM and others. What this means is that 3D XPoint can be used as persistent higher density fast server memory (or main memory for other computers and electronics). Besides being fast persistent main memory, 3D XPoint will also be a faster medium for solid state devices (SSD’s) including PCIe Add In Cards (AIC), m2 cards and drive form factor 8637/8639 NVM Express (NVMe) accessed devices that also has better endurance or life span compared to NAND flash.


3D XPoint architecture and attributes

The initial die or basic chip building block 3D XPoint implementation is a layer 128 Gbit device which if using 8 bits would yield 16GB raw. Over time increased densities should become available as the bit density improves with more cells and further scaling of the technology, combined with packaging. For example while a current die could hold up to 16 GBytes of data, multiple dies could be packaged together to create a 32GB, 64GB, 128GB etc. or larger actual product. Think about not only where packaged flash based SSD capacities are today, also think in terms of where DDR3 and DDR4 DIMM are at such as 4GB, 8GB, 16GB, 32GB densities.

The 3D aspect comes from the memory being in a matrix initially being two layers high, with multiple rows and columns that intersect, where those intersections occur is a microscopic material based switch for accessing a particular memory cell. Unlike NAND flash where an individual cell or bit is accessed as part of a larger block or page comprising several thousand bytes at once, 3D XPoint cells or bits can be individually accessed to speed up reads and writes in a more granular fashion. It is this more granular access along with performance that will enable 3D XPoint to be used in lower latency scenarios where DRAM would normally be used.

Instead of trapping electrons in a cell to create a bit of capacity (e.g. on or off) like NAND flash, 3D XPoint leverages the underlying physical material propertied to store a bit as a phase change enabling use of all cells. In other words, instead of being electron based, it is material based. While Intel and Micron did not specify what the actual chemistry and physical materials that are used in 3D XPoint, they did discuss some of the characteristics. If you want to go deep, check out how the Dailytech makes an interesting educated speculation or thesis on the underlying technology.

Watch the following video to get a better idea and visually see how 3D XPoint works.



3D XPoint YouTube Video

What are these chips, cells, wafers and dies?

Left many dies on a wafer, right, a closer look at the dies cut from the wafer

Dies (here and here) are the basic building block of what goes into the chips that in turn are the components used for creating DDR DIMM for main computer memory, as well as for create SD and MicroSD cards, USB thumb drives, PCIe AIC and drive form factor SSD, as well as custom modules on motherboards, or consumption via bare die and wafer level consumption (e.g. where you are doing really custom things at volume, beyond using a soldering iron scale).

Storage I/O trends

Has Intel and Micron cornered the NVM and memory market?

We have heard proclamations, speculation and statements of the demise of DRAM, NAND flash and other volatile and NVM memories for years, if not decades now. Each year there is the usual this will be the year of “x” where “x” can include among others. Resistive RAM aka ReRAM or RRAM aka the memristor that HP earlier announced they were going to bring to market and then earlier this year canceling those plans while Crossbar continues to pursue RRAM. MRAM or Magnetorestive RAM, Phase Change Memory aka CRAM or PCM and PRAM, FRAM aka FeRAM or Ferroelectric RAM among others.

flash SSD and NVM trends

Expanding persistent memory and SSD storage markets

Keep in mind that there are many steps taking time measured in years or decades to go from research and development lab idea to prototype that can then be produced at production volumes in economic yields. As a reference for, there is still plenty of life in both DRAM as well as NAND flash, the later having appeared around 1989.

Industry vs. Customer Adoption and deployment timeline

Technology industry adoption precedes customer adoption and deployment

There is a difference between industry adoption and deployment vs. customer adoption and deployment, they are related, yet separated by time as shown in the above figure. What this means is that there can be several years from the time a new technology is initially introduced and when it becomes generally available. Keep in mind that NAND flash has yet to reach its full market potential despite having made significant inroads the past few years since it was introduced in 1989.

This begs the question of if 3D XPoint is a variation of phase change, RRAM, MRAM or something else. Over at the Dailytech they lay out a line of thinking (or educated speculation) that 3D XPoint is some derivative or variation of phase change, time will tell about what it really is.

What’s the difference between 3D NAND flash and 3D XPoint?

3D NAND is a form of NAND flash NVM, while 3D XPoint is a completely new and different type of NVM (e.g. its not NAND).

3D NAND is a variation of traditional flash with the difference between vertical stacking vs. horizontal to improve density, also known as vertical NAND or V-NAND. Vertical stacking is like building up to house more tenants or occupants in a dense environment or scaling up, vs scaling-out by using up more space where density is not an issue. Note that magnetic HDD’s shifted to perpendicular (e.g. vertical) recording about ten years ago to break through the super parametric barrier and more recently, magnetic tape has also adopted perpendicular recording. Also keep in mind that 3D XPoint and the earlier announced Intel and Micron 3D NAND flash are two separate classes of memory that both just happen to have 3D in their marketing names.

Where to read, watch and learn more

Storage I/O trends

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

First, keep in mind that this is very early in the 3D XPoint technology evolution life-cycle and both DRAM and NAND flash will not be dead at least near term. Keep in mind that NAND flash appeared back in 1989 and only over the past several years has finally hit its mainstream adoption stride with plenty of market upside left. Same with DRAM which has been around for sometime, it too still has plenty of life left for many applications. However other applications that have the need for improved speed over NAND flash, or persistency and density vs. DRAM will be some of the first to leverage new NVM technologies such as 3D XPoint. Thus at least for the next several years, there will be a co-existences between new and old NVM and DRAM among other memory technologies. Bottom line, 3D XPoint is a new class of NVM memory, can be used for persistent main server memory or for persistent fast storage memory. If you have not done so, check out Part I here and Part II here of this three-part series on Intel and Micron 3D XPoint.

Disclosure: Micron and Intel have been direct and/or indirect clients in the past via third-parties and partners, also I have bought and use some of their technologies direct and/or in-direct via their partners.

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.