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.

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.

Part II – EMC DSSD D5 Direct Attached Shared AFA

Part II – EMC DSSD D5 Direct Attached Shared AFA

server storage I/O trends

This is the second post in a two-part series on the EMC DSSD D5 announcement, you can read part one here.

Lets take a closer look at how EMC DSSD D5 works, its hardware and software components, how it compares and other considerations.

How Does DSSD D5 Work

Up to 48 Linux servers attach via dual port PCIe Gen 3 x8 cards that are stateless. Stateless simply means they do not have any flash or are not being used as storage cards, rather, they are essentially just an NVMe adapter card. With the first release block, HDFS file along with object and APIs are available for Linux systems. These drivers enabling the shared NVMe storage to be accessed by applications using different streamlined server and storage I/O driver software stacks to cut latency. DSSD D5 is meant to be a rack scale solutions so distance is measured as inside a rack (e.g. a couple of meters).

The 5U tall DSSD D5 supports 48 servers via a pair of I/O Modules (IOM) each with 48 ports that in turn attach to the data plane and on to the Flash Modules (FM). Also attached to the data plane are a pair of controllers that are active / active for performing management tasks, however they do not sit in the data path. This means that host client directly access the FMs without having to go through a controller which is the case in traditional storage systems and AFAs. The controllers only get involved when there is some setup, configuration or other management activities, otherwise they get out-of-the-way, kind of like how management should function. There when you need them to help, then get out-of-the-way so productive work can be done.

EMC DSSD shared ssd das
Pardon the following hand drawn sketches, you can see some nice pretty diagrams, videos and other content via the EMC Pulse Blog as well as elsewhere.

Note that the host client servers take on the responsibility for managing and coordinating data consistency meaning data can be shared between servers assuming applicable software is used for implementing integrity. This means that clustering and other software that can support shared storage are able to support low latency high performance read and write activity the DSSD D5 as opposed to relying on the underlying storage system for handling the shared storage coordination such as in a NAS. Another note is that the DSSD D5 is optimized for concurrent multi-threaded and asynchronous I/O operations along with atomic writes for data integrity that enable the multiple cores in today’s faster processors to be more effectively leveraged.

The data plane is a mesh or switch or expander based back plane enabling any of the north bound (host client-server) 96 (2 x 48) PCIe Gen 3 x4 ports to reach the up to 36 (or as few as 18) FMs that are also dual pathed. Note that the host client-server PCIe dual port cards are Gen 3 x8 while the DSSD D5 ports are Gen 3 x4. Simple math should tell you that if are going to have 2 x PCIe Gen 3 x4 ports running at full speed, you want to have a Gen 3 x8 connection inside the server to get full performance.

Think of the data plane similar to how a SAS expander works in an enclosure or a SAS switch, the difference being it is PCIe and not SAS or other protocol. Note that even though the terms mesh, fabric, switch, network are used, these are NOT attached to traditional LAN, SAN, NAS or other networks. Instead, this is a private “networked back plane” between the server and storage devices (e.g. FM).

EMC DSSD D5 details

The dual controllers (e.g. control plane) over see the flash management including garbage collection among other tasks, as well as storage is thin provisioned.

Dual Controllers (active/active) are connected to each other (e.g. control plane) as well as to the data path, however, do not sit in the data path. Thus this is a fast path control path approach meaning the controllers can get involved to do management functions when needed, and get out-of-the-way of work when not needed. The controllers are hot-swap and add global management functions including setting up, tearing down host client/server I/O paths, mappings and affinities. Controllers also support the management of CUBIC RAID data protection functions performed by the Flash Modules (FM).

Other functions the controllers implement leveraging their CPUs and DRAM include flash translation layer (FTL) functions normally handled by SSD cards, drives or other devices. These FTL functions include wear-leveling for durability, garbage collection, voltage power management among other tasks. The result is that the flash modules are able to spend more time and their resources handling I/O operations vs. handling management tasks vs. traditional off the shelf SSD drives, cards or devices.

The FMs insert from the front and come in two sizes of 2TB and 4TB of raw NAND capacity. What’s different about the FMs vs. some other vendors approach is that these are not your traditional PCIe flash cards, instead they are custom cards with a proprietary ASIC and raw nand dies. DRAM is used in the FM as a buffer to hold data for write optimization as well as enhance wear-leveling to increase flash endurance.

The result is up to thousands of nand dies spread over up to 36 FMs however more important, more performance being derived out of those resources. The increased performance comes from DSSD implementing its own flash translation layer, garbage collection, power voltage management among other techniques to derive more useful work per watt of energy consumed.

EMC DSSD performance claims:

  • 100 microsecond latency for small IOs
  • 100GB bandwidth for large IOs
  • 10 Million small IO IOPs
  • Up to 144TB raw capacity

How Does It Compare To Other AFA and SSD solutions

There will be many apples to oranges comparisons as is often the case with new technologies or at least until others arrive in the market.

Some general comparisons that may be apples to oranges as opposed to apples to apples include:

  • Shared and dense fast nand flash (eMLC) SSD storage
  • disaggregated flash SSD storage from server while enabling high performance, low latency
  • Eliminate pools or ponds of dedicated SSD storage capacity and performance
  • Not a SAN yet more than server-side flash or flash SSD JBOD
  • Underlying Flash Translation Layer (FTL) is disaggregated from SSD devices
  • Optimized hardware and software data path
  • Requires special server-side stateless adapter for accessing shared storage

Some other comparisons include:

  • Hybrid and AFA shared via some server storage I/O network (good sharing, feature rich, resilient, slower performance and higher latency due to hardware, network and server I/O software stacks). For example EMC VMAX, VNX, XtremIO among others.
  • Server attached flash SSD aka server SAN (flash SSD creates islands of technology, lower resource sharing, data shuffling between servers, limited or no data services, management complexity). For example PCIe flash SSD state full (persistent) cards where data is stored or used as a cache along with associated management tools and drivers.
  • DSSD D5 is a rack-scale hybrid approach combing direct attached shared flash with lower latency, higher performance vs. traditional AFA or hybrid storage array, better resource usage, sharing, management and performance vs. traditional dedicated server flash. Compliment server-side data infrastructure and applications scale-out software. Server applications can reach NVMe storage via user spacing with block, hdfs, Flood and other APIs.

Using EMC DSSD D5 in possible hybrid ways

What Happened to Server PCIe cards and Server SANs

If you recall a few years ago the industry rage was flash SSD PCIe server cards from vendors such as EMC, FusionIO (now part of SANdisk), Intel (still Intel), LSI (now part of Seagate), Micron (still Micron) and STEC (now part of Western Digital) among others. Server side flash SSD PCIe cards are still popular particular with newer NVMe controller based models that use the NVMe protocol stack instead of AHC/SATA or others.

However as is often the case, things evolve and while there is still a place for server-side state full PCIe flash cards either for data or as cache, there is also the need to combine and simplify management, as well as streamline the software I/O stacks which is where EMC DSSD D5 comes into play. It enables consolidation of server-side SSD cards into a shared 5U chassis enabling up to 48 dual pathed servers access to the flash pools while using streamlined server software stacks and drivers that leverage NVMe over PCIe.

Where to learn more

Continue reading with the following links about NVMe, flash SSD and EMC DSSD.

  • Part one of this series here and part two here.
  • Performance Redefined! Introducing DSSD D5 Rack-Scale Flash Solution (EMC Pulse Blog)
  • EMC Unveils DSSD D5: A Quantum Leap In Flash Storage (EMC Press Release)
  • EMC Declares 2016 The “Year of All-Flash” For Primary Storage (EMC Press Release)
  • EMC DSSD D5 Rack-Scale Flash (EMC PDF Overview)
  • EMC DSSD and Cloudera Evolve Hadoop (EMC White Paper Overview)
  • Software Aspects of The EMC DSSD D5 Rack-Scale Flash Storage Platform (EMC PDF White Paper)
  • EMC DSSD D5 (EMC PDF Architecture and Product Specification)
  • EMC VFCache respinning SSD and intelligent caching (Part II)
  • EMC To Acquire DSSD, Inc., Extends Flash Storage Leadership
  • Part II: XtremIO, XtremSW and XtremSF EMC flash ssd portfolio redefined
  • XtremIO, XtremSW and XtremSF EMC flash ssd portfolio redefined
  • Learn more about flash SSD here and NVMe here at thenvmeplace.com
  • What this all means

    EMC with DSSD D5 now has another solution to offer clients, granted their challenge as it has been over the past couple of decades now will be to educate and compensate their sales force and partners on what technology solution to put for different needs.

    On one hand, life could be simpler for EMC if they only had one platform solution that would then be the answer to every problem, something that some other vendors and startups face. Likewise, if all you have is one solution, then while you can try to make that solution fit different environments, or, get the environment to adapt to the solution, having options is a good thing if those options can remove complexity along with cost while boosting productivity.

    I would like to see support for other operating systems such as Windows, particular with the future Windows 2016 based Nano, as well as hypervisors including VMware, Hyper-V among others. On the other hand I also would like to see a Sharp Aquous Quattron 80" 1080p 240Hz 3D TV on my wall to watch HD videos from my DJI Phantom Drone. For now focusing on Linux makes sense, however, would be nice to see some more platforms supported.

    Keep an eye on the NVMe space as we are seeing NVMe solutions appearing inside servers, storage system, external dedicated and shared, as well as some other emerging things including NVMe over Fabric. Learn more about EMC DSSD D5 here.

    Ok, nuff said (for now)

    Cheers
    Gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

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

    EMC DSSD D5 Rack Scale Direct Attached Shared SSD All Flash Array Part I

    EMC DSSD D5 Rack Scale Direct Attached Shared SSD All Flash Array Part I

    server storage I/O trends

    This is the first post in a two-part series pertaining to the EMC DSSD D5 announcement, you can read part two here.

    EMC announced today the general availability of their DSSD D5 Shared Direct Attached SSD (DAS) flash storage system (e.g. All Flash Array or AFA) which is a rack-scale solution. If you recall, EMC acquired DSSD back in 2014 which you can read more about here. EMC announced four configurations that include 36TB, 72TB and 144TB raw flash SSD capacity with support for up to 48 dual-ported host client servers.

    Via EMC Pulse Blog

    What Is DSSD D5

    At a high level EMC DSSD D5 is a PCIe direct attached SSD flash storage solution to enable aggregation of disparate SSD card functionality typically found in separate servers into a shared system without causing aggravation. DSSD D5 helps to alleviate server side I/O bottlenecks or aggravation issues that can be the result of aggregation of workloads or data. Think of DSSD D5 as an shared application server storage I/O accelerator for up to 48 servers to access up to 144TB of raw flash SSD to support various applications that have the need for speed.

    Applications that have the need for speed or that can benefit from less time waiting for results, where time is money, or boosting productivity can enable high profitability computing. This includes legacy as well as emerging applications and workloads spanning little data, big data and big fast structure and unstructured data. From Oracle to SAS to HBASE and Hadoop among others, perhaps even Alluxio.

    Some examples include:

    • Clusters and scale-out grids
    • High Performance COMpute (HPC)
    • Parallel file systems
    • Forecasting and image processing
    • Fraud detection and prevention
    • Research and analytics
    • E-commerce and retail
    • Search and advertising
    • Legacy applications
    • Emerging applications
    • Structured database and key-value repositories
    • Unstructured file systems, HDFS and other data
    • Large undefined work sets
    • From batch stream to real-time
    • Reduces run times from days to hours

    Where to learn more

    Continue reading with the following links about NVMe, flash SSD and EMC DSSD.

  • Part one of this series here and part two here.
  • Performance Redefined! Introducing DSSD D5 Rack-Scale Flash Solution (EMC Pulse Blog)
  • EMC Unveils DSSD D5: A Quantum Leap In Flash Storage (EMC Press Release)
  • EMC Declares 2016 The “Year of All-Flash” For Primary Storage (EMC Press Release)
  • EMC DSSD D5 Rack-Scale Flash (EMC PDF Overview)
  • EMC DSSD and Cloudera Evolve Hadoop (EMC White Paper Overview)
  • Software Aspects of The EMC DSSD D5 Rack-Scale Flash Storage Platform (EMC PDF White Paper)
  • EMC DSSD D5 (EMC PDF Architecture and Product Specification)
  • EMC VFCache respinning SSD and intelligent caching (Part II)
  • EMC To Acquire DSSD, Inc., Extends Flash Storage Leadership
  • Part II: XtremIO, XtremSW and XtremSF EMC flash ssd portfolio redefined
  • XtremIO, XtremSW and XtremSF EMC flash ssd portfolio redefined
  • Learn more about flash SSD here and NVMe here at thenvmeplace.com
  • What this all means

    Today’s legacy, and emerging applications have the need for speed, and where the applications may not need speed, the users as well as Internet of Things (IoT) that depend upon, or feed those applications do need things to move faster. Fast applications need fast software and hardware to get the same amount of work done faster with less wait delays, as well as process larger amounts of structured and unstructured little data, big data and very fast big data.

    Different applications along with the data infrastructures they rely upon including servers, storage, I/O hardware and software need to adapt to various environments, one size, one approach model does not fit all scenarios. What this means is that some applications and data infrastructures will benefit from shared direct attached SSD storage such as rack scale solutions using EMC DSSD D5. Meanwhile other applications will benefit from AFA or hybrid storage systems along with other approaches used in various ways.

    Continue reading part two of this series here including how EMC DSSD D5 works and more perspectives.

    Ok, nuff said (for now)

    Cheers
    Gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

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

    Big Files Lots of Little File Processing Benchmarking with Vdbench

    Big Files Lots of Little File Processing Benchmarking with Vdbench


    server storage data infrastructure i/o File Processing Benchmarking with Vdbench

    Updated 2/10/2018

    Need to test a server, storage I/O networking, hardware, software, services, cloud, virtual, physical or other environment that is either doing some form of file processing, or, that you simply want to have some extra workload running in the background for what ever reason? An option is File Processing Benchmarking with Vdbench.

    I/O performance

    Getting Started


    Here’s a quick and relatively easy way to do it with Vdbench (Free from Oracle). Granted there are other tools, both for free and for fee that can similar things, however we will leave those for another day and post. Here’s the con to this approach, there is no Uui Gui like what you have available with some other tools Here’s the pro to this approach, its free, flexible and limited by your creative, amount of storage space, server memory and I/O capacity.

    If you need a background on Vdbench and benchmarking, check out the series of related posts here (e.g. www.storageio.com/performance).

    Get and Install the Vdbench Bits and Bytes


    If you do not already have Vdbench installed, get a copy from the Oracle or Source Forge site (now points to Oracle here).

    Vdbench is free, you simply sign-up and accept the free license, select the version down load (it is a single, common distribution for all OS) the bits as well as documentation.

    Installation particular on Windows is really easy, basically follow the instructions in the documentation by copying the contents of the download folder to a specified directory, set up any environment variables, and make sure that you have Java installed.

    Here is a hint and tip for Windows Servers, if you get an error message about counters, open a command prompt with Administrator rights, and type the command:

    $ lodctr /r


    The above command will reset your I/O counters. Note however that command will also overwrite counters if enabled so only use it if you have to.

    Likewise *nix install is also easy, copy the files, make sure to copy the applicable *nix shell script (they are in the download folder), and verify Java is installed and working.

    You can do a vdbench -t (windows) or ./vdbench -t (*nix) to verify that it is working.

    Vdbench File Processing

    There are many options with Vdbench as it has a very robust command and scripting language including ability to set up for loops among other things. We are only going to touch the surface here using its file processing capabilities. Likewise, Vdbench can run from a single server accessing multiple storage systems or file systems, as well as running from multiple servers to a single file system. For simplicity, we will stick with the basics in the following examples to exercise a local file system. The limits on the number of files and file size are limited by server memory and storage space.

    You can specify number and depth of directories to put files into for processing. One of the parameters is the anchor point for the file processing, in the following examples =S:\SIOTEMP\FS1 is used as the anchor point. Other parameters include the I/O size, percent reads, number of threads, run time and sample interval as well as output folder name for the result files. Note that unlike some tools, Vdbench does not create a single file of results, rather a folder with several files including summary, totals, parameters, histograms, CSV among others.


    Simple Vdbench File Processing Commands

    For flexibility and ease of use I put the following three Vdbench commands into a simple text file that is then called with parameters on the command line.
    fsd=fsd1,anchor=!fanchor,depth=!dirdep,width=!dirwid,files=!numfiles,size=!filesize

    fwd=fwd1,fsd=fsd1,rdpct=!filrdpct,xfersize=!fxfersize,fileselect=random,fileio=random,threads=!thrds

    rd=rd1,fwd=fwd1,fwdrate=max,format=yes,elapsed=!etime,interval=!itime

    Simple Vdbench script

    # SIO_vdbench_filesystest.txt
    #
    # Example Vdbench script for file processing
    #
    # fanchor = file system place where directories and files will be created
    # dirwid = how wide should the directories be (e.g. how many directories wide)
    # numfiles = how many files per directory
    # filesize = size in in k, m, g e.g. 16k = 16KBytes
    # fxfersize = file I/O transfer size in kbytes
    # thrds = how many threads or workers
    # etime = how long to run in minutes (m) or hours (h)
    # itime = interval sample time e.g. 30 seconds
    # dirdep = how deep the directory tree
    # filrdpct = percent of reads e.g. 90 = 90 percent reads
    # -p processnumber = optional specify a process number, only needed if running multiple vdbenchs at same time, number should be unique
    # -o output file that describes what being done and some config info
    #
    # Sample command line shown for Windows, for *nix add ./
    #
    # The real Vdbench script with command line parameters indicated by !=
    #

    fsd=fsd1,anchor=!fanchor,depth=!dirdep,width=!dirwid,files=!numfiles,size=!filesize

    fwd=fwd1,fsd=fsd1,rdpct=!filrdpct,xfersize=!fxfersize,fileselect=random,fileio=random,threads=!thrds

    rd=rd1,fwd=fwd1,fwdrate=max,format=yes,elapsed=!etime,interval=!itime

    Big Files Processing Script


    With the above script file defined, for Big Files I specify a command line such as the following.
    $ vdbench -f SIO_vdbench_filesystest.txt fanchor=S:\SIOTemp\FS1 dirwid=1 numfiles=60 filesize=5G fxfersize=128k thrds=64 etime=10h itime=30 numdir=1 dirdep=1 filrdpct=90 -p 5576 -o SIOWS2012R220_NOFUZE_5Gx60_BigFiles_64TH_STX1200_020116

    Big Files Processing Example Results


    The following is one of the result files from the folder of results created via the above command for Big File processing showing totals.


    Run totals

    21:09:36.001 Starting RD=format_for_rd1

    Feb 01, 2016 .Interval. .ReqstdOps.. ...cpu%... read ....read.... ...write.... ..mb/sec... mb/sec .xfer.. ...mkdir... ...rmdir... ..create... ...open.... ...close... ..delete...
    rate resp total sys pct rate resp rate resp read write total size rate resp rate resp rate resp rate resp rate resp rate resp
    21:23:34.101 avg_2-28 2848.2 2.70 8.8 8.32 0.0 0.0 0.00 2848.2 2.70 0.00 356.0 356.02 131071 0.0 0.00 0.0 0.00 0.1 109176 0.1 0.55 0.1 2006 0.0 0.00

    21:23:35.009 Starting RD=rd1; elapsed=36000; fwdrate=max. For loops: None

    07:23:35.000 avg_2-1200 4939.5 1.62 18.5 17.3 90.0 4445.8 1.79 493.7 0.07 555.7 61.72 617.44 131071 0.0 0.00 0.0 0.00 0.0 0.00 0.1 0.03 0.1 2.95 0.0 0.00


    Lots of Little Files Processing Script


    For lots of little files, the following is used.


    $ vdbench -f SIO_vdbench_filesystest.txt fanchor=S:\SIOTEMP\FS1 dirwid=64 numfiles=25600 filesize=16k fxfersize=1k thrds=64 etime=10h itime=30 dirdep=1 filrdpct=90 -p 5576 -o SIOWS2012R220_NOFUZE_SmallFiles_64TH_STX1200_020116

    Lots of Little Files Processing Example Results


    The following is one of the result files from the folder of results created via the above command for Big File processing showing totals.
    Run totals

    09:17:38.001 Starting RD=format_for_rd1

    Feb 02, 2016 .Interval. .ReqstdOps.. ...cpu%... read ....read.... ...write.... ..mb/sec... mb/sec .xfer.. ...mkdir... ...rmdir... ..create... ...open.... ...close... ..delete...
    rate resp total sys pct rate resp rate resp read write total size rate resp rate resp rate resp rate resp rate resp rate resp
    09:19:48.016 avg_2-5 10138 0.14 75.7 64.6 0.0 0.0 0.00 10138 0.14 0.00 158.4 158.42 16384 0.0 0.00 0.0 0.00 10138 0.65 10138 0.43 10138 0.05 0.0 0.00

    09:19:49.000 Starting RD=rd1; elapsed=36000; fwdrate=max. For loops: None

    19:19:49.001 avg_2-1200 113049 0.41 67.0 55.0 90.0 101747 0.19 11302 2.42 99.36 11.04 110.40 1023 0.0 0.00 0.0 0.00 0.0 0.00 7065 0.85 7065 1.60 0.0 0.00


    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

    The above examples can easily be modified to do different things particular if you read the Vdbench documentation on how to setup multi-host, multi-storage system, multiple job streams to do different types of processing. This means you can benchmark a storage systems, server or converged and hyper-converged platform, or simply put a workload on it as part of other testing. There are even options for handling data footprint reduction such as compression and dedupe.

    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 StorageIO January 2016 Update Newsletter

    Volume 16, Issue I – beginning of Year (BoY) Edition

    Hello and welcome to the January 2016 Server StorageIO update newsletter.

    Is it just me, or did January disappear in a flash like data stored in non-persistent volatile DRAM memory when the power is turned off? It seems like just the other day that it was the first day of the new year and now we are about to welcome in February. Needless to say, like many of you I have been busy with various projects, many of which are behind the scenes, some of which will start appearing publicly sooner while others later.

    In terms of what have I been working on, it includes the usual of performance, availability, capacity and economics (e.g. PACE) related to servers, storage, I/O networks, hardware, software, cloud, virtual and containers. This includes NVM as well as NVMe based SSD’s, HDD’s, cache and tiering technologies, as well as data protection among other things with Hyper-V, VMware as well as various cloud services.

    Enjoy this edition of the Server StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.

    Cheers GS

    In This Issue

  • Feature Topic
  • Industry Trends News
  • Commentary in the news
  • Tips and Articles
  • StorageIOblog posts
  • Videos and Podcasts
  • Events and Webinars
  • Recommended Reading List
  • Industry Activity Trends
  • Server StorageIO Lab reports
  • New and Old Vendor Update
  • Resources and Links
  • Feature Topic – Microsoft Nano, Server 2016 TP4 and VMware

    This months feature topic is virtual servers and software defined storage including those from VMware and Microsoft. Back in November I mentioned the 2016 Technical Preview 4 (e.g. TP4) along with Storage Spaces Direct and Nano. As a reminder you can download your free trial copy of Windows Server 2016 TP4 from this Microsoft site here.

    Three good Microsoft Blog posts about storage spaces to check out include:

    • Storage Spaces Direct in Technical Preview 4 (here)
    • Hardware options for evaluating Storage Spaces Direct in Technical Preview 4 (here)
    • Storage Spaces Direct – Under the hood with the Software Storage Bus (here)

    As for Microsoft Nano, for those not familiar, it’s not a new tablet or mobile device, instead, it is a very light weight streamlined version of the Windows Server 2016 server. How streamlined? Much more so then the earlier Windows Server versions that simply disabled the GUI and desktop interfaces. Nano is smaller from a memory and disk storage space perspective meaning it uses less RAM, boots faster, has fewer moving parts (e.g. software modules) to break (or need patching).

    Specifically Nano removes 32 bit support and anything related to the desktop and GUI interfaces as well as removing the console interface. That’s right, no console or virtual console to log into, Wow is gone, access is via Powershell or Windows Management Interface tools from remote systems. How small is it? I have a Nano instance built on a VHDX that is under a GB in size, granted, its only for testing. The goal of Nano is to have a very light weight streamlined version of Windows Server that can run hundreds (or more) VMs in a small memory footprint, not to mention supports lots of containers. Nano is part of WIndows TP4, learn more about Nano here in this Microsoft post including how to get started using it.

    Speaking of VMware, if you have not received an invite yet to their Digital Enterprise February 6, 2016 announcement event, click here to register.

    StorageIOblog Posts

    Recent and popular Server StorageIOblog posts include:

    View other recent as well as past blog posts here

    Server Storage I/O Industry Activity Trends (Cloud, Virtual, Physical)

    StorageIO news (image licensed for use from Shutterstock by StorageIO)

    Some new Products Technology Services Announcements (PTSA) include:

    • EMC announced Elastic Cloud Storage (ECS) V2.2. A main theme of V2.2 is that besides being the 3rd generation of EMC object storage (dating back to Centera, then Atmos), is that ECS is also where the functionality of Centera, Atmos and other functionality converge. ECS provides object storage access along with HDFS (Hadoop and Hortonworks certified) and traditional NFS file access.

      Object storage access includes Amazon S3, OpenStack Swift, ATMOS and CAS (Centera). In addition to the access, added Centera functionality for regulatory compliance has been folded into the ECS software stack. For example, ECS is now compatible with SEC 17 a-4(f) and CFTC 1.3(b)-(c) regulations protecting data from being overwritten or erased for a specified retention period. Other enhancements besides scalability, resiliency and ease of use include meta data and search capabilities. You can download and try ECS for non-production workloads with no capacity or functionality limitations from EMC here.

    View other recent news and industry trends here

    StorageIO Commentary in the news

    StorageIO news (image licensed for use from Shutterstock by StorageIO)
    Recent Server StorageIO commentary and industry trends perspectives about news, activities tips, and announcements. In case you missed them from last month:

    • TheFibreChannel.com: Industry Analyst Interview: Greg Schulz, StorageIO
    • EnterpriseStorageForum: Comments Handling Virtual Storage Challenges
    • PowerMore (Dell): Q&A: When to implement ultra-dense storage

    View more Server, Storage and I/O hardware as well as software trends comments here

    Vendors you may not have heard of

    Various vendors (and service providers) you may not know or heard about recently.

    • Datrium – DVX and NetShelf server software defined flash storage and converged infrastructure
    • DataDynamics – StorageX is the software solution for enabling intelligent data migration, including from NetApp OnTap 7 to Clustered OnTap, as well as to and from EMC among other NAS file serving solutions.
    • Paxata – Little and Big Data management solutions

    Check out more vendors you may know, have heard of, or that are perhaps new on the Server StorageIO Industry Links page here (over 1,000 entries and growing).

    StorageIO Tips and Articles

    Recent Server StorageIO articles appearing in different venues include:

    • InfoStor:  Data Protection Gaps, Some Good, Some Not So Good

    And in case you missed them from last month

    • IronMountain:  5 Noteworthy Data Privacy Trends From 2015
    • Virtual Blocks (VMware Blogs):  Part III EVO:RAIL – When And Where To Use It?
    • InfoStor:  Object Storage Is In Your Future
    • InfoStor:  Water, Data and Storage Analogy

    Check out these resources and links technology, techniques, trends as well as tools. View more tips and articles here

    StorageIO Videos and Podcasts

    StorageIO podcasts are also available via and at StorageIO.tv

    StorageIO Webinars and Industry Events

    EMCworld (Las Vegas) May 2-4, 2016

    Interop (Las Vegas) May 4-6 2016

    NAB (Las Vegas) April 19-20, 2016

    TBA – March 31, 2016

    Redmond Magazine Gridstore (How to Migrate from VMware to Hyper-V) February 25, 2016 Webinar (11AM PT)

    TBA – February 23, 2016

    Redmond Magazine and Dell Foglight – Manage and Solve Virtualization Performance Issues Like a Pro (Webinar 9AM PT) – January 19, 2016

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

    From StorageIO Labs

    Research, Reviews and Reports

    Quick Look: What’s the Best Enterprise HDD for a Content Server?
    Which enterprise HDD for content servers

    Insight for Effective Server Storage I/O decision-making
    This StorageIO® Industry Trends Perspectives Solution Brief and Lab Review (compliments of Seagate and Servers Direct) looks at the Servers Direct (www.serversdirect.com) converged Content Solution platforms with Seagate (www.seagate.com) Enterprise Hard Disk Drive (HDDs).

    I was given the opportunity to do some hands-on testing running different application workloads with a 2U content solution platform along with various Seagate Enterprise 2.5” HDDs handle different application workloads. This includes Seagate’s Enterprise Performance HDDs with the enhanced caching feature.

    Read more in this Server StorageIO industry Trends Perspective white paper and lab review.

    Looking for NVM including SSD information? Visit the Server StorageIO www.thessdplace.com and www.thenvmeplace.com micro sites. View other StorageIO lab review and test drive reports here.

    Server StorageIO Recommended Reading List

    The following are various recommended reading including books, blogs and videos. If you have not done so recently, also check out the Intel Recommended Reading List (here) where you will also find a couple of mine as well as books from others. For this months recommended reading, it’s a blog site. If you have not visited Duncan Eppings (@DuncanYB) Yellow-Bricks site, you should, particular if you are interested in virtualization, high availability and related topical themes.

    Seven Databases in Seven Weeks guide to no SQL via Amazon.com

    Granted Duncan being a member of the VMware CTO office covers a lot of VMware related themes, however being the author of several books, he also covers non VMware related topics. Duncan recently did a really good and simple post about rebuilding a failed disk in a VMware VSAN vs. in a legacy RAID or erasure code based storage solution.

    One of the things that struck me as being important with what Duncan wrote about is avoiding apples to oranges comparisons. What I mean by this is that it is easy to compare traditional parity based or mirror type solutions that chunk or shard data on KByte basis spread over disks, vs. data that is chunk or sharded on GByte (or larger) basis over multiple servers and their disks. Anyway, check out Duncan’s site and recent post by clicking here.

    Server StorageIO Industry Resources and Links

    Check out these useful links and pages:

    storageio.com/links
    objectstoragecenter.com
    storageioblog.com/data-protection-diaries-main/
    storageperformance.us
    thenvmeplace
    thessdplace.com
    storageio.com/performance.com
    storageio.com/raid
    storageio.com/ssd

    Ok, nuff said

    Cheers
    Gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

    All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

    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.

    Server StorageIO October 2015 Update Newsletter


    Server and StorageIO Update Newsletter

    Volume 15, Issue X – Industry Trends, M&A, PTSA

    Hello and welcome to this October 2015 Server StorageIO update newsletter. Fall has arrived here in the northern hemisphere which means its spring in the southern hemisphere, and getting colder here. While fall means cooler out-door temperature with winter just around the corner, in the IT/ITC industry, particular the data infrastructure sector (server, storage, I/O networking, hardware, software, cloud, physical, software defined virtual) things are very hot. Sure the various industry and vendor focused conferences, road shows and mini-events with associated new product, technology or services announcements (PTSA. There are also the various merger and acquisitions (M&A) that have occurred throughout the year including the recent Dell buying EMC, and Western Digital (WD) buying SANdisk among others.

    This edition of the Server StorageIO update newsletter has a focus on industry trends perspectives including recent M&A and PTSA activity. In addition to industry fall industry M&A and PTSA activity, there also plenty of conference, seminars, workshops, webinars and other events some of which you can see here on the Server StorageIO events page.

    On a slightly different note, for those interested and not aware of the European Union (EU) ruling earlier this month on data privacy (e.g. Safe Harbor), here and here are a couple of links to stories discussing the new ruling changes between the EU and US (among other countries). The EU data privacy rulings involve personal data being moved out of EU countries to US data centers such as cloud and application services firms.

    Enjoy this edition of the Server StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.

    Cheers GS

    In This Issue

  • Feature Topic
  • Industry Trends News
  • Commentary in the news
  • Tips and Articles
  • StorageIOblog posts
  • Videos and Podcasts
  • Events and Webinars
  • Recommended Reading List
  • Industry Activity Trends
  • Server StorageIO Lab reports
  • New and Old Vendor Update
  • Resources and Links
  • Feature Topic – TBD

    This months feature topic theme is industry trends perspectives including M&A activity.

    Some M&A, IPO and divestiture activity includes:

    Continue reading more about NVM, NVMe, NAND flash, SSD Server and storage I/O related topics at www.thessdplace.com as well as about I/O performance, monitoring and benchmarking tools at www.storageperformance.us.

     

    StorageIOblog Posts

    Recent and popular Server StorageIOblog posts include:

    View other recent as well as past blog posts here

    Server Storage I/O Industry Activity Trends (Cloud, Virtual, Physical)

    StorageIO news (image licensed for use from Shutterstock by StorageIO)

    Some new Products Technology Services Announcements (PTSA) include:

    • Amazon Web Service (AWS) Simple Storage Service (S3) Infrequent Access (IA) storage class for inactive data with immediate access vs. Glacier cold or frozen (dormant) data with slow or time delayed access. AWS also announced Snowball bulk data import/export 50TB appliance service in addition to their earlier offered capabilities.
    • EMC Rexray (part of EMCcode) and Mesosphere (for Mesos data center operating system) have joined to enable persistent Docker volumes for Mesos (e.g. data center operating system platform).
    • Microsoft Azure recent enhancements include file access of cloud storage (on-premises and within Azure cloud) leveraging SMB interfaces. Here is a primer on Azure cloud storage service offerings. View other recent Azure Cloud Storage, Compute, Database and Data Analytics service offerings here. In addition to Microsoft Azure cloud offerings or Windows 10 desktop operating system, you can also download WIndows Server 2016 Technical Preview 3 (TP3) and see what’s new here. Some of the features include Storage Spaces Direct (e.g. DAS storage) and replication among other features.

    View other recent news and industry trends here

    StorageIO Commentary in the news

    StorageIO news (image licensed for use from Shutterstock by StorageIO)
    Recent Server StorageIO commentary and industry trends perspectives about news, activities tips, and announcements.

    • NetworkComputing: Dell buying EMC: The Storage Ramifications
    • EnterpriseTech: VMware Targets Synergies in Dell EMC Deal 
    • HPCwire: Dell to Buy EMC for $67B
    • EnterpriseStorageForum: Data Storage: Do We Really Need to Store Everything?
    • EnterpriseStorageForum: Why Hard Drives Are Here to Stay (For Now)
    • EnterpriseStorageForum: Top Ten Ways to Use OpenStack for Storage
    • EnterpriseStorageForum: Are We Heading for Storage Armageddon?

    View more Server, Storage and I/O hardware as well as software trends comments here

    Vendors you may not have heard of

    Various vendors (and service providers) you may not know or heard about recently.

    • Hedvig – Converged server storage software management tools
    • Infinidat – Another Moshe Yanai Storage System Startup
    • Mesosphere – Mesos Data Center Operating System management tools
    • Plexxi – Networking startup with former EMC executive Rich Napolitano as CEO
    • ScaleMP – Scale-out server aggregation management tools

    Check out more vendors you may know, have heard of, or that are perhaps new on the Server StorageIO Industry Links page here (over 1,000 entries and growing).

    StorageIO Tips and Articles

    Recent Server StorageIO articles appearing in different venues include:

    • Virtual Blocks (VMware Blogs):  EVO:RAIL – What Is It And Why Does It Matter?
      This is the first of a multi-part series looking at Converged Infrastructures (CI), Hyper-Converged Infrastructures (HCI), Cluster in Box (CiB) and other unified solution bundles. There is a trend of industry adoption talking about CI, HCI, CiB and other bundled solutions, along with growing IT customer adoption and deployment. Different sized organizations are looking at various types of CI solutions to meet various application and workloads needs. Read more here.
    • WServerNews.com:  Cloud (Microsoft Azure) storage considerations
      Let’s say that you have been tasked with, or decided that it is time to use (or try) public cloud storage such as Microsoft Azure. Ok, now what do you do and what decisions need to be made? Keep in mind that Microsoft Azure like many other popular public clouds provides many difference services available for fee (subscription) along with free trials. These services include applications, compute, networking, storage along with development and management platform tools. Read more here.
    • NetworkComputing:  Selecting Storage: Buzzword Bingo
      The storage industry is rife with buzzwords. Here are some of the popular ones storage buyers need to navigate carefully to find storage products that truly meet their needs. Read more here.

    • InfoStor:  What’s The Best Storage Benchmark? It Depends…
    • EnterpriseStorageForum:  NAND, DRAM, SAS/SCSI & SATA/AHCI: Not Dead, Yet!

    Check out these resources and links technology, techniques, trends as well as tools. View more tips and articles here

    StorageIO Videos and Podcasts

    StorageIO podcasts are also available via and at StorageIO.tv

    StorageIO Webinars and Industry Events

    Deltaware Emerging Technology Summit November 10, 2015

    Dell Data Protection Summit Nov 4, 2015 7AM PT

    Microsoft MVP Summit Nov 2-5, 2015

    Server Storage I/O Dutch Workshop Seminar Series
    Nijkerk Netherlands October 13-16 2015

    October 13 – Symposium: Software Defined Storage Management
    October 14 – Server Storage I/O Fundamental Trends
    October 15 – Symposium – Data Center Infrastructure Management (DCIM)
    October 16 – “Converged Day” Server and Storage Decision making

    Learn more and register at the Brouwer Consultancy website here.

    September 23 – Webinar Redmond Magazine & Dell Data Protection
    The New World Order of Data Protection – Focus on Recovery
    Learn more about the 9Rs of data protection and recovery

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

    From StorageIO Labs

    Research, Reviews and Reports

    Quick Look: SATA and NVMe Flash SSD Performance
    SATA and NVMe flash SSD performance

    Non-Volatile Memory (NVM) Express (NVMe) continues to evolve as a technology for enabling and improving server storage I/O for NVM including nand flash SSD storage. NVMe streamlines performance enabling more work to be done (e.g. IOPs), data to be moved (bandwidth) at a lower response time using less CPU. The above figure is a quick look comparing nand flash SSD being accessed via SATA III (6Gbps) on the left and NVMe (x4) on the right. As with any server storage I/O performance comparisons there are many variables and take them with a grain of salt. While IOPs and bandwidth are often discussed, keep in mind that with the new protocol, drivers and device controllers with NVMe that streamline I/O less CPU is needed. Learn more about NVM, NVMe, flash, SSD and related topics at www.thessdplace.com.

    View other StorageIO lab review reports here

    Server StorageIO Recommended Reading List

    The following are various recommended reading including books, blogs and videos. If you have not done so recently, also check out the Intel Recommended Reading List (here) where you will also find a couple of my books.

    Seven Databases in Seven Weeks guide to no SQL via Amazon.com

    The Human Face of Big Data book review. To say this is a big book would be an understatement, then again, big data is a big topic with a lot of diversity if you open your eyes and think in a pragmatic way, which once you open and see the pages you will see. This is physically a big book (11x 14 inches) with lots of pictures, texts, stories, factoids and thought stimulating information of the many facets and dimensions of big data across 224 pages. The Human Face of Big Data is more than a coffee table or picture book as it is full of with information, factoids and perspectives how information and data surround us every day. Open up a copy of The Human Face of Big Data and you will see examples of how data and information are all around us, and our dependence upon it. Read more here.

    Server StorageIO Industry Resources and Links

    Check out these useful links and pages:

    storageio.com/links
    objectstoragecenter.com
    storageioblog.com/data-protection-diaries-main/
    storageperformance.us
    thenvmeplace
    thessdplace.com
    storageio.com/raid
    storageio.com/ssd

    Ok, nuff said

    Cheers
    Gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

    All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

    Non Volatile Memory (NVM), NVMe, Flash Memory Summit and SSD updates

    Storage I/O trends

    Non Volatile Memory (NVM), NVMe, Flash Memory Summit and SSD updates

    I attended the Flash Memory Summit in Santa Clara CA last week and not surprisingly there were many announcements about Non-Volatile Memory (NVM) along with related enabling technologies. Some of these announcements were component based intended for original equipment manufactures (OEMs) ranging from startup to established, systems integrators (SI), value added resellers (VAR’s) while others were more customer solution focused. From a customer solution focus, some of the technologies were consumer oriented while others for business and some for cloud scale service providers.

    Recent NVM, NVMe and Flash SSD news

    A sampling of some recent NVM, NVMe and Flash related news includes among others:

    • PMC Announces Flashtec NVMe SSD NVMe2106, NVMe2032 Controllers (Via TomsITpro)
    • New SATA SSD powers elastic cloud agility for CSPs (Via Cbronline)
    • Toshiba Solid-State Drive Family Features PCIe Technology (Via Eweek)
    • SanDisk aims CloudSpeed Ultra SSD at cloud providers (Via ITwire)
    • Everspin & Aupera show all-MRAM Storage Module in M.2 Form Factor (Via BusinessWire)
    • Intel and Micron unveil new 3D XPoint Non Volatile Memory (NVM) for servers and storage (part I, part II and part III)
    • PMC-Sierra Scales Storage with PCIe, NVMe (Via EEtimes)
    • Seagate Grows Its Nytro Enterprise Flash Storage Line (Via InfoStor)
    • New SAS Solid State Drive First Product From Seagate Micron Alliance (Via Seagate)
    • Wow, Samsung’s New 16 Terabyte SSD Is the World’s Largest Hard Drive (Via Gizmodo)
    • Samsung ups the SSD ante with faster, higher capacity drives (Via ITworld)

    NVMe primer

    Via Intel History of Memory
    Via Intel: Click above image to view history of memory via Intel site

    NVM includes technologies such as NAND flash commonly used in Solid State Devices (SSD’s) storage today, as well as in USB thumb drive, mobile and hand-held devices among many other uses. NVM spans servers, storage, I/O devices along with mobile and handheld among many other technologies. In addition to NAND flash, other forms of NVM include Non Volatile Random Access Memory (NVRAM), Read Only Memory (ROM) along with some emerging new technologies including the recently announced Intel and Micron 3D XPoint among others.

    Server Storage I/O access and NVM
    Server Storage I/O memory (and storage) hierarchy

    Keep in mind that memory is storage and storage is persistent memory as well as that there are different classes, categories and tiers of memory and storage as shown above to meet various performance, availability, capacity and economic requirements. Besides NVM ranging from flash to NVRAM to emerging 3D XPoint among others, another popular topic that is gaining momentum is NVM Express (NVMe). NVMe (more material here at www.thenvmeplace.com) is a new server storage I/O access method and protocol for fast access to NVM based products. NVMe is an alternative to existing block based server storage I/O access protocols such as AHCI/SATA and SCSI/SAS devices commonly used for access Hard Disk Drives (HDD) along with SSD among other things.

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

    NVMe as back-end storage
    NVMe as a "back-end" I/O interface in a server or storage system accessing NVM storage/media devices

    NVMe as front-end server storage I/O interface
    NVMe as a “front-end” interface for servers (or storage systems/appliances) to use NVMe based storage systems

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

    Shared external PCIe using NVMe
    NVMe and shared PCIe

    NVMe features

    Main features of NVMe include among others:

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

    Watch for more about NVMe as it continues to gain in both industry adoption and deployment as well as customer adoption and deployment.

    Where to read, watch and learn more

    • NVMe: The Golden Ticket for Faster Flash Storage? (Via EnterpriseStorageForum)
    • What should I consider when using SSD cloud? (Via SearchCloudStorage)
    • MSP CMG, September 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)
    • Spot The Newest & Best Server Trends (Via Processor)
    • Intel and Micron unveil new 3D XPoint Non Volatile Memory (NVM) for servers and storage (part I, part II and part III)
    • Market ripe for embedded flash storage as prices drop (Via Powermore (Dell))
    • Continue reading more about NVM, NVMe, NAND flash, SSD Server and storage I/O related topics at www.thessdplace.com as well as about I/O performance, monitoring and benchmarking tools at www.storageperformance.us.

    Storage I/O trends

    What this all means and wrap up

    The question is not if NVM is in your future, it is! Instead the questions are what type of NVM including NAND flash among other mediums will be deployed where, using what type of packaging or solutions (drives, cards, systems, appliances, cloud) for what role (as storage, primary memory, persistent cache) along with how much among others. For some environments the solution is already, or will be All NVM Arrays (ANA) or All Flash Arrays (AFA) or All SSD Arrays (ASA) while for others the home run will be hybrid based solutions that work for you, fitting in and adapting to your environment as it changes.

    Also keep in mind that a little bit of fast memory including NVM based flash among others in the right place can have a big benefit. My experiences using NVMe to use flash enabled NVMe devices on Windows and Linux systems is that you can see lower response times at higher-IOP’s however also with lower CPU consumption particular when compared to 6Gbps SATA. Likewise bandwidth can easily be pushed to the limits of the NVMe device as well as PCIe interface being used such as x4 or x8 depending on implementation. That is also a warning and something to watch out for comparing apples to oranges in that while NVMe uses PCIe, understand when looking at different results if those are for x4 or x8 or faster PCIe as their mere presence of using PCIe does not mean you are running at full potential.

    Keep an eye on NVMe as a new high-speed, low-latency server storage I/O access protocol for unlocking the full performance capabilities of fast NVM based storage as well as leveraging the multiple cores in today’s fast processors. Does this mean AHCI/SATA or SCSI/SAS are now dead? Some will claim that, however at least near-term for next few years (if not longer), those interfaces will continue to be used where they make sense, as well as where they can save dollars specifically for cost sensitive, high-capacity environments that do not need the full performance of NVMe just yet.

    As for the Flash Memory Summit event in Santa Clara, that was a good day with time well spent in briefings, meetings, demo’s and add hoc discussions on the expo floor.

    Ok, nuff said

    Cheers
    Gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

    All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

    July 2015 Server StorageIO Update Newsletter

    Volume 15, Issue VII

    Hello and welcome to this July 2015 Server StorageIO update newsletter. Its mid summer here in the northern hemisphere which for many means vacations or holidays.

    Content Solution Platforms

    Thus this months newsletter has a focus on content solution platforms including hardware and software that get defined to support various applications. Content solutions span from video (4K, HD and legacy streaming, pre-/post-production and editing), audio, imaging (photo, seismic, energy, healthcare, etc.) to security surveillance (including Intelligent Video Surveillance [ISV] as well as Intelligence Surveillance and Reconnaissance [ISR]).

    StorageIOblog posts

    In case you missed it:

    View other recent as well as past blog posts here

    From StorageIO Labs

    Research, Reviews and Reports

    Servers Direct Content Platform
    Servers Direct Content Solution Platform

    An industry and customer trend is leveraging converged platforms based on multi-socket processors with dozens of cores and threads (logical processors) to support parallel or high-concurrent threaded content based applications.

    Recently I had the opportunity by Servers Direct to get some hands-on test time with one of their 2U Content Solution platforms. In addition to big fast data, other content solution applications include: content distribution network (CDN) content caching, network function virtualization (NFV), software-defined network (SDN), cloud rich unstructured big fast media data, analytics and little data (e.g. SQL and NoSQL database, key-value stores, repositories and meta-data) among others.

    Read more about content solution platforms including those Intel powered platforms from Servers Direct in this Server StorageIO Industry Trends Perspective solution brief here.

    View other Server StorageIO lab review reports here

    Closing Comments

    Enjoy this edition of the Server StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and podcast’s along with in the news commentary appearing soon.

    Cheers gs

    Greg Schulz – @StorageIO

    Microsoft MVP File System Storage
    VMware vExpert

    In This Issue

  • Industry Trends News
  • Commentary in the news
  • Tips and Articles
  • StorageIOblog posts
  • Server StorageIO Lab reviews
  • Events and Webinars
  • Resources and Links
  • StorageIO Commentary in the news

    StorageIO news (image licensed for use from Shutterstock by StorageIO)
    Recent Server StorageIO commentary and industry trends perspectives about news, activities and announcements.

    Processor: A Look At Object-Based Storage
    Processor: Newest and best server trends
    PowerMore: Flash not just for performance
    SearchVirtualStorage: Containers and storage
    BizTechMagazine: Simplify with virtualization
    EnterpriseStorageForum: Future DR Storage
    EnterpriseStorageForum: 10 Tips for DRaaS
    EnterpriseStorageForum: NVMe planning

    View more trends comments here

    StorageIO Tips and Articles

    A common question I am asked is, “What is the best storage technology?” My routine answer is, “It depends!” During my recent Interop Las Vegas session “Smart Shopping for Your Storage Strategy” I addressed this very question. Read more in my tip Selecting Storage: Start With Requirements over at Network Computing.

    Check out these resources and links on server storage I/O performance and benchmarking tools. View more tips and articles here

    Various Industry Events

    Server Storage I/O Workshop Seminars
    Nijkerk Netherlands October 13-16 2015

    VMworld August 30-September 3 2015

    Flash Memory Summit August 11-13

    View other recent and upcoming events here

    Webinars

    BrightTalk Webinar – June 23 2015 9AM PT
    Server Storage I/O Innovation v2.015: Protect Preserve & Serve Your Information

    Resources and Links

    Check out these useful links and pages:
    storageio.com/links
    objectstoragecenter.com
    storageioblog.com/data-protection-diaries-main/

    storageperformance.us
    thessdplace.com
    storageio.com/raid
    storageio.com/ssd

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

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

    EMCworld 2015 How Do You Want Your Storage Wrapped?

    Server Storage I/O trends

    EMCworld 2015 How Do You Want Your Storage Wrapped?

    Back in early May I was invited by EMC to attend EMCworld 2015 which included both the public sessions, as well as several NDA based discussions. Keep in mind that there is the known, there is the unknown (or assumed or speculated) and in between there are NDA’s, nuff said on that. EMC covered my hotel and registration costs to attend the event in Las Vegas (thanks EMC, that’s a disclosure btw ;) and here is a synopsis of various EMCworld 2015 announcements.

    What EMC announced

    • VMAX3 enhancements to the EMC enterprise flagship storage platform to keep it relevant for traditional legacy workloads as well as for in a converged, scale-out, cloud, virtual and software defined environment.
    • VNX 3200 entry-level All Flash Array (AFA) flash SSD system starting at $25,000 USD for a 3TB unified platform with full data services found in other VNX products.
    • vVNX aka Virtual VNX aka "project liberty" which is a community (e.g. free) software version of the VNX. vVNX is a Virtual Storage Appliance (VSA) that you download and run on a VMware platform. Learn more and download here. Note the install will do a CPU type check so forget about trying to run it on a Intel Nuc or similar, I tried just because I could, the install will protect you from doing such things.
    • Various data protection related items including new Datadomain platforms as well as software updates and integration with other EMC platforms (storage systems).
    • All Flash Array (AFA) XtremIO 4.0 enhancements including larger clusters, larger nodes to boost performance, capacity and availability, along with copy service updates among others improvements.
    • Preview of DSSD shared (inside a rack) external flash Solid State Device (SSD) including more details. While much of DSSD is still under NDA, EMC did provide more public details at EMCworld. Between what was displayed and announced publicly at EMCworld as well as what can be found via Google (or other searches) you can piece together more of the DSSD story. What is known publicly today is that DSSD leverages the new Non-Volatile Memory express (NVMe) access protocol built upon underlying PCIe technology. More on DSSD in future discussions,if you have not done so, get an NDA deep dive briefing on it from EMC.
    • ScaleIO is now available via a free download here including both Windows and Linux clients as well as instructions for those operating systems as well as VMware.
    • ViPR can also be downloaded here for free (has been previously available) from here as well as it has been placed into open source by EMC.

    What EMC announced since EMCworld 2015

    • Acquisition of cloud services (and software tools) vendor Virtustream for $1.2B adding to the federation cloud services portfolio (companion to VMware vCloud Air).
    • Release of ECS 2.0 including a free download here. This new version of ECS (Elastic Cloud Storage) can be used independent of the ViPR controller, or in conjunction with ViPR. In addition ECS now has about 80% of the functionality of the Centera object storage platform. The remaining 20% functionality (mainly regulatory compliance governance) of Centera will be added to ECS in the future providing a migration path for Centera customers. In case you are wondering what does EMC do with Centera, Atmos, ViPR and now ECS, answer is that ECS can work with or without ViPR, second is that the functionality of Centera, Atmos are being rolled into ECS. ECS as a refresher is software that transforms general purpose industry standard servers with direct storage into a scale-out HDFS and object storage solution.
    • Check out EMCcode including S3motion that I use and have reviewed here. Also check out EMCcode Rex-Ray which if you are into docker containers, it should be of interest, I know I’m interested in it.

    Server Storage I/O trends

    What this all means and wrap-up

    There were no single major explosive announcements however the sum of all the announcements together should not be over shadowed by the big tent made for TV (or web) big tent productions and entertainment. What EMC announced was effectively how would you like, how do you want and need your storage and associated data services along with management wrapped.

    tin wrapped software

    By being wrapped, do you want your software defined storage management and storage wrapped in a legacy turnkey solution such as VMAX3, VNX or Isilon, do you want or need it to be hybrid or all flash, converged and unified, block, file or object.

    software wrapped storage

    Or do you need or want the software defined storage management and storage to be "shrink wrapped" as a download so you can deploy on your own hardware "tin wrapped" or as a VSA "virtual wrapped" or cloud wrapped? Do you need or want the software defined storage management and storage to leverage anybody’s hardware while being open source?

    server storage software wrapping

    How do you need or want your storage to be wrapped to fit your specific needs, that IMHO was the essence of what EMC announced at EMCworld 2015, granted the motorcycles and other production entertainment was engaging as well as educational.

    Ok, nuff said for now

    Cheers
    Gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

    All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

    VMware vCloud Air Server StorageIOlab Test Drive with videos

    Server Storage I/O trends

    VMware vCloud Air Server StorageIOlab Test Drive with videos

    Recently I was invited by VMware vCloud Air to do a free hands-on test drive of their actual production environment. Some of you may already being using VMware vSphere, vRealize and other software defined data center (SDDC) aka Virtual Server Infrastructure (VSI) or Virtual Desktop Infrastructure (VDI) tools among others. Likewise some of you may already be using one of the many cloud compute or Infrastructure as a Service (IaaS) such as Amazon Web Services (AWS) Elastic Cloud Compute (EC2), Centurylink, Google Cloud, IBM Softlayer, Microsoft Azure, Rackspace or Virtustream (being bought by EMC) among many others.

    VMware vCloud Air provides a platform similar to those just mentioned among others for your applications and their underlying resource needs (compute, memory, storage, networking) to be fulfilled. In addition, it should not be a surprise that VMware vCloud Air shares many common themes, philosophies and user experiences with the traditional on-premises based VMware solutions you may be familiar with.

    VMware vCloud Air overview

    You can give VMware vCloud Air a trial for free while the offer lasts by clicking here (service details here). Basically if you click on the link and register a new account for using VMware vCloud Air they will give you up to $500 USD in service credits to use in the real production environment while the offer lasts which iirc is through end of June 2015.

    Server StorageIO test drive VMware vCloud Air video I
    Click on above image to view video part I

    Server StorageIO test drive VMware vCloud Air part II
    Click on above image to view video part II

    What this means is that you can go and setup some servers with as many CPUs or cores, memory, Hard Disk Drive (HDD) or flash Solid State Devices (SSD) storage, external IP networks using various operating systems (Centos, Ubuntu, Windows 2008, 20012, 20012 R2) for free, or until you use up the service credits.

    Speaking of which, let me give you a bit of a tip or hint, even though you can get free time, if you provision a fast server with lots of fast SSD storage and leave it sit idle over night or over a weekend, you will chew up your free credits rather fast. So the tip which should be common sense is if you are going to do some proof of concepts and then leave things alone for a while, power the virtual cloud servers off to stretch your credits further. On the other hand, if you have something that you want to run on a fast server with fast storage over a weekend or longer, give that a try, just pay attention to your resource usage and possible charges should you exhaust your service credits.

    My Server StorageIO test drive mission objective

    For my test drive, I created a new account by using the above link to get the service credits. Note that you can use your regular VMware account with vCloud Air, however you wont get the free service credits. So while it is a few minutes of extra work, the benefit was worth it vs. simply using my existing VMware account and racking up more cloud services charges on my credit card. As part of this Server StorageIOlab test drive, I created two companion videos part I here and part II here that you can view to follow along and get a better idea of how vCloud works.

    VMware vCloud Air overview
    Phase one, create the virtual data center, database server, client servers and first setup

    My goal was to set up a simple Virtual Data Center (VDC) that would consist of five Windows 2012 R2 servers, one would be a MySQL database server with the other four being client application servers. You can download MySQL from here at Oracle as well as via other sources. For applications to simplify things I used Hammerdb as well as Benchmark Factory that is part of the Quest Toad tool set for database admins. You can download a free trial copy of Benchmark Factory here, and HammerDB here. Another tool that I used for monitoring the servers is Spotlight on Windows (SoW) which is also free here. Speaking of tools, here is a link to various server and storage I/O performance as well as monitoring tools.

    Links to tools that I used for this test-drive included:

    Setting up a virtual data center vdc
    Phase one steps and activity summary

    Summary of phase one of vdc
    Recap of what was done in phase one, watch the associated video here.

    After the initial setup (e.g. part I video here), the next step was to add some more virtual machines and take a closer look at the environment. Note that most of the work in setting up this environment was Windows, MySQL, Hammerdb, Benchmark Factory, Spotlight on Windows along with other common tools so their installation is not a focus in these videos or this post, perhaps a future post will dig into those in more depth.

    Summary of phase two of the vdc
    What was done during phase II (view the video here)

    VMware vCloud Air vdc trest drive

    There is much more to VMware vCloud Air and on their main site there are many useful links including overviews, how-too tutorials, product and service offering details and much more here. Besides paying attention to your resource usage and avoid being surprised by service charges, two other tips I can pass along that are also mentioned in the videos (here and here) is to pay attention what region you setup your virtual data centers in, second is have your network thought out ahead of time to streamline setting up the NAT and firewall as well as gateway configurations.

    Where to learn more

    Learn more about data protection and related topics, themes, trends, tools and technologies via the following links:

    Server Storage I/O trends

    What this all means and wrap-up

    Overall I like the VMware vCloud Air service which if you are VMware centric focused will be a familiar cloud option including integration with vCloud Director and other tools you may already have in your environment. Even if you are not familiar with VMware vSphere and associated vRealize tools, the vCloud service is intuitive enough that you can be productive fairly quickly. On one hand vCloud Air does not have the extensive menu of service offerings to choose from such as with AWS, Google, Azure or others, however that also means a simpler menu of options to choose from and simplify things.

    I had wanted to spend some time actually using vCloud and the offer to use some free service credits in the production environment made it worth making the time to actually setup some workloads and do some testing. Even if you are not a VMware focused environment, I would recommend giving VMware vCloud Air a test drive to see what it can do for you, as opposed to what you can do for it…

    Ok, nuff said for now

    Cheers
    Gs

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

    All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved

    April 2015 Server StorageIO Update Newsletter

    Volume 15, Issue IV

    Hello and welcome to this April 2015 Server and StorageIO update newsletter.

    This months newsletter has a focus on cloud and object storage for bulk data, unstructured data, big data, archiving among other scenarios.

    Enjoy this edition of the Server and StorageIO update newsletter and watch for new tips, articles, StorageIO lab report reviews, blog posts, videos and Podcasts along with in the news commentary appearing soon.

    Storage I/O trends

    StorageIOblog posts

    April StorageIOblog posts include:

    View other recent as well as past blog posts here

    April Newsletter Feature Theme
    Cloud and Object Storage Fundamentals

    There are many facets to object storage including technology implementation, products, services, access and architectures for various applications and use scenarios. The following is a short synopsis of some basic terms and concepts associated with cloud and object storage.

    Common cloud and object storage terms

    • Account or project – Top of the hierarchy that represent owner or billing information for a service that where buckets are also attached.
    • Availability Zone (AZ) can be rack of servers and storage or data center where data is spread across for storage and durability.
    • AWS regions and availability zones (AZ)
      Example of some AWS Regions and AZ’s

    • Bucket or Container – Where objects or sub-folders containing objects are attached and accessed. Note in some environments such as AWS S3 you can have sub-folders in a bucket.
    • Connector or how your applications access the cloud or object storage such as via an API, S3, Swift, Rest, CDMI, Torrent, JSON, NAS file, block of other access gateway or software.
    • Durability – Data dispersed with copies in multiple locations to survive failure of storage or server hardware, software, zone or even region. Availability = Access + Durability.
    • End-point – Where or what your software, application or tool and utilities or gateways attach to for accessing buckets and objects.
    • Ephemeral – Temporary or non-persistent
    • Eventual consistency – Data is eventually made consistency, think in terms of asynchronous or deferred writes where there is a time lag vs. synchronous or real-time updates.
    • Immutable – Persistent, non-altered or write once read many copy of data. Objects generally are not updated, rather new objects created.
    • Object storage and cloud
      Via Cloud Virtual Data Storage (CRC)

    • Object – Byte (or bit) stream that can be as small as one byte to as large as several TBytes (some solutions and services support up to 5TByte sized objects). The object contains what ever data in any organization along with meta data. Different solutions and services support from a couple hundred KBytes of meta-data to MBytes worth of meta-data. In terms of what can be stored in an object, anything from files, videos, images, virtual disks (VMDK’s, VHDX), ZIP or tar files, backup and archive save sets, executable images or ISO’s, anything you want.
    • OPS – Objects per second or how many objects accessed similar to a IOP. Access includes gets, puts, list, head, deletes for a CRUD interface e.g. Created, Read, Update, Delete.
    • Region – Location where data is stored that can include one or more data centers also known as Availability Zones.
    • Sub-folder – While object storage can be accessed in a flat name space for commonality and organization some solutions and service support the notion of sub-folder that resemble traditional directory hierarchy.

    Learn more in Cloud Virtual Storage Networking (CRC) and www.objectstoragecenter.com

    Storage I/O trends

    OpenStack Manila (e.g. Folders and Files)

    AWS recently announced their new cloud based Elastic File Storage (EFS) to compliment their existing Elastic Block Storage (EBS) offerings. However are you aware of what is going on with cloud files within OpenStack?

    For those who are familiar with OpenStack or simply talk about it and Swift object storage, or perhaps Cinder block storage, are you aware that there is also a file (NAS or Network Attached Storage) component called Manila?

    In concept Manila should provide a similar capability to what AWS has recently announce with their Elastic File Service (EFS), or depending on your perspective, perhaps the other way around. If you are familiar and have done anything with Manila what are your initial thoughts and perspectives.

    What this all means

    People routinely tell me this is the most exciting and interesting times ever in servers, storage, I/O networking, hardware, software, backup or data protection, performance, cloud and virtual or take your pick too which I would not disagree.

    However, for the past several years (no, make that decade), there is new and more interesting things including in adjacent areas.

    I predict that at least for the next few years (no, make that decades), we will continue to see plenty of new and interesting things, questions include.

    However, what’s applicable to you and your environment vs. simply fun and interesting to watch?

    Ok, nuff said, for now

    Cheers gs

     

    In This Issue

  • Industry Trends Perspectives News
  • Commentary in the news
  • Tips and Articles
  • StorageIOblog posts
  • Events and Webinars
  • StorageIOblog posts
  • Server StorageIO Lab reports
  • Resources and Links
  • Industry News and Activity

    Recent Industry news and activity

    View other recent industry activity here

    StorageIO Commentary in the news

    StorageIO news (image licensed for use from Shutterstock by StorageIO)
    Recent Server StorageIO commentary and industry trends perspectives about news, activities and announcements.

    CyberTrend: Comments on Software Defined Data Center and Virtualization

    View more trends comments here

    StorageIO Tips and Articles

    Check out these resources and links on server storage I/O performance and benchmarking tools. View more tips and articles here

    Various Industry Events

    EMCworld – May 4-6 2015 (Las Vegas)

    Interop – April 29 2015 (Las Vegas)
    Presenting
    Smart Shopping for Your Enterprise Storage Strategy

    View other recent and upcoming events here

    Webinars


    BrightTalk Webinar – June 23 2015
    Server Storage I/O Innovation Update

    View other webinars here

    Videos and Podcasts

    Data Protection Gumbo Podcast
    Protect Preserve and Serve Data

    In this episode, Greg Schulz is a guest on Data Protection Gumbo hosted by Demetrius Malbrough(@dmalbrough). The conversation covers various aspects of data protection which has a focus of protect preserve and serve information, applications and data across different environments and customer segments.

    While we discuss enterprise and SMB data protection, we also talk about trends from Mobile to the cloud among many others tools, technologies and techniques. Check out the podcast here.

    Springtime in Kentucky
    With Kendrick Coleman of EMCcode
    Cloud Object Storage S3motion and more

    In this episode, @EMCcode (Part of EMC) developer advocate Kendrick Coleman (@KendrickColeman) joins me (e.g. Greg Schulz) for a conversation.

    Conversation covers what is EMCcode, EMC Federation, Cloud Foundryclouds, object storage, buckets, containers, objects, node.jsDocker, OpenStack, AWS S3, micro services, and the S3motion tool Kendrick developed.

    S3motion is a good tool to have in your server storage I/O tool box for working with cloud and object storage along with others such as Cloudberry, S3fs, Cyberduck, S3 browser among many others. You can get S3motion for free from git hub here Check out the companion blog post for this podcast here.

    StorageIO podcast’s are also available via Server Storage I/O audio podcastServer Storage I/O video & at StorageIO.tv

    From StorageIO Labs

    Research, Reviews and Reports

    AWS S3 Cross-Region Replication

    AWS S3 Cross region replication
    Moving and Replicating Buckets/Containers, Sub folders and Objects (Click on Image to read about AWS Cross-Region Replication)

    View other StorageIO lab review reports here

    Resources and Links

    Greg Schulz – Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier)
    twitter @storageio

    All Comments, (C) and (TM) belong to their owners/posters, Other content (C) Copyright 2006-2024 Server StorageIO and UnlimitedIO LLC All Rights Reserved