Chelsio Storage over IP and other Networks Enable Data Infrastructures

Chelsio Storage over IP Enable Data Infrastructures

server storage I/O data infrastructure trends

Chelsio and Storage over IP (SoIP) continue to enable Data Infrastructures from legacy to software defined virtual, container, cloud as well as converged. This past week I had a chance to visit with Chelsio to discuss data infrastructures, server storage I/O networking along with other related topics. More on Chelsio later in this post, however, for now lets take a quick step back and refresh what is SoIP (Storage over IP) along with Storage over Ethernet (among other networks).

Data Infrastructures Protect Preserve Secure and Serve Information
Various IT and Cloud Infrastructure Layers including Data Infrastructures

Server Storage over IP Revisited

There are many variations of SoIP from network attached storage (NAS) file based processing including NFS, SAMBA/SMB (aka Windows File sharing) among others. In addition there is various block such as SCSI over IP (e.g. iSCSI), along with object via HTTP/HTTPS, not to mention the buzzword bingo list of RoCE, iSER, iWARP, RDMA, DDPK, FTP, FCoE, IFCP, and SMB3 direct to name a few.

Who is Chelsio

For those who are not aware or need a refresher, Chelsio is involved with enabling server storage I/O by creating ASICs (Application Specific Integrated Circuits) that do various functions offloading those from the host server processor. What this means for some is a throw back to the early 2000s of the TCP Offload Engine (TOE) era where various processing to handle regular along with iSCSI and other storage over Ethernet and IP could be accelerated.

Chelsio data infrastructure focus

Chelsio ecosystem across different data infrastructure focus areas and application workloads

As seen in the image above, certainly there is a server and storage I/O network play with Chelsio, along with traffic management, packet inspection, security (encryption, SSL and other offload), traditional, commercial, web, high performance compute (HPC) along with high profit or productivity compute (the other HPC). Chelsio also enables data infrastructures that are part of physical bare metal (BM), software defined virtual, container, cloud, serverless among others.

Chelsio server storage I/O focus

The above image shows how Chelsio enables initiators on server and storage appliances as well as targets via various storage over IP (or Ethernet) protocols.

Chelsio enabling various data center resources

Chelsio also plays in several different sectors from *NIX to Windows, Cloud to Containers, Various processor architectures and hypervisors.

Chelsio ecosystem

Besides diverse server storage I/O enabling capabilities across various data infrastructure environments, what caught my eye with Chelsio is how far they, and storage over IP have progressed over the past decade (or more). Granted there are faster underlying networks today, however the offload and specialized chip sets (e.g. ASICs) have also progressed as seen in the above and next series of images via Chelsio.

The above showing TCP and UDP acceleration, the following show Microsoft SMB 3.1.1 performance something important for doing Storage Spaces Direct (S2D) and Windows-based Converged Infrastructure (CI) along with Hyper Converged Infrastructures (HCI) deployments.

Chelsio software environments

Something else that caught my eye was iSCSI performance which in the following shows 4 initiators accessing a single target doing about 4 million IOPs (reads and writes), various size and configurations. Granted that is with a 100Gb network interface, however it also shows that potential bottlenecks are removed enabling that faster network to be more effectively used.

Chelsio server storage I/O performance

Moving on from TCP, UDP and iSCSI, NVMe and in particular NVMe over Fabric (NVMeoF) have become popular industry topics so check out the following. One of my comments to Chelsio is to add host or server CPU usage to the following chart to help show the story and value proposition of NVMe in general to do more I/O activity while consuming less server-side resources. Lets see what they put out in the future.

Chelsio

Ok, so Chelsio does storage over IP, storage over Ethernet and other interfaces accelerating performance, as well as regular TCP and UDP activity. One of the other benefits of what Chelsio and others are doing with their ASICs (or FPGA by some) is to also offload processing for security among other topics. Given the increased focus around server storage I/O and data infrastructure security from encryption to SSL and related usage that requires more resources, these new ASIC such as from Chelsio help to offload various specialized processing from the server.

The customer benefit is that more productive application work can be done by their servers (or storage appliances). For example, if you have a database server, that means more product ivy data base transactions per second per licensed software. Put another way, want to get more value out of your Oracle, Microsoft or other vendors software licenses, simple, get more work done per server that is licensed by offloading and eliminate waits or other bottlenecks.

Using offloads and removing server bottlenecks might seem like common sense however I’m still amazed that the number of organizations who are more focused on getting extra value out of their hardware vs. getting value out of their software licenses (which might be more expensive).

Chelsio

Where To Learn More

Learn more about related technology, trends, tools, techniques, and tips with the following links.

Data Infrastructures Protect Preserve Secure and Serve Information
Various IT and Cloud Infrastructure Layers including Data Infrastructures

What This All Means

Data Infrastructures exist to protect, preserve, secure and serve information along with the applications and data they depend on. With more data being created at a faster rate, along with the size of data becoming larger, increased application functionality to transform data into information means more demands on data infrastructures and their underlying resources.

This means more server I/O to storage system and other servers, along with increased use of SoIP as well as storage over Ethernet and other interfaces including NVMe. Chelsio (and others) are addressing the various application and workload demands by enabling more robust, productive, effective and efficient data infrastructures.

Check out Chelsio and how they are enabling storage over IPO (SoIP) to enable Data Infrastructures from legacy to software defined virtual, container, cloud as well as converged, oh, and thanks Chelsio for being able to use the above images.

Ok, nuff said, for now.
Gs

Greg Schulz – Multi-year Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio.

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

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

Microsoft Azure Software Defined Data Infrastructure Reference Resources

Azure Software Defined Data Infrastructure Architecture Resources

Need to learn more about Microsoft Azure Cloud Software Defined Data Infrastructure topics including reference architecture among other resources for various application workloads?

Microsoft Azure has an architecture and resources page (here) that includes various application workload reference tools.

Microsoft Azure Software Defined Cloud
Azure Reference Architectures via Microsoft Azure

Examples of some Azure Reference Architecture for various application and workloads include among others:

For example, need to know how to configure a high availability (HA) Sharepoint deployment with Azure, then check out this reference architecture shown below.

Microsoft Azure Sharepoint HA reference architecture
Sharepoint HA via Microsoft Azure

Where To Learn More

Learn more about related technology, trends, tools, techniques, and tips with the following links.

Data Infrastructures Protect Preserve Secure and Serve Information
Various IT and Cloud Infrastructure Layers including Data Infrastructures

What This All Means

Data Infrastructures exist to protect, preserve, secure and serve information along with the applications and data they depend on. Software Defined Data Infrastructures span legacy, virtual, container, cloud and other environments to support various application workloads. Check out the Microsoft Azure cloud reference architecture and resources mentioned above as well as the Azure Free trial and getting started site here.

Ok, nuff said, for now.
Gs

Greg Schulz – Multi-year Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio.

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

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

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

Intel Xeon Scalable Processors SDDI and SDDC

server storage I/O data infrastructure trends

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

Intel Scalable Xeon Processors
Image via Intel.com

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

Data Infrastructures and workloads

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

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

Features of the new Intel Xeon Scalable Processors include:

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

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

Software Defined Data Infrastructures, SDDC, SDX and SDDI

What About Speeds and Feeds

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

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

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

Various nvme options

What about NVMe

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

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

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

server storage data infrastructure sddi

What About Intel and Storage

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

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

Image Via Intel.com

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

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

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

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

Where To Learn More

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

What This All Means

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

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

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

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

Ok, nuff said (for now…).

Cheers
Gs

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

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

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

AWS S3 Storage Gateway Revisited (Part I)

server storage I/O trends

AWS S3 Storage Gateway Revisited (Part I)

This Amazon Web Service (AWS) Storage Gateway Revisited posts is a follow-up to the AWS Storage Gateway test drive and review I did a few years ago (thus why it’s called revisited). As part of a two-part series, the first post looks at what AWS Storage Gateway is, how it has improved since my last review of AWS Storage Gateway along with deployment options. The second post in the series looks at a sample test drive deployment and use.

If you need an AWS primer and overview of various services such as Elastic Cloud Compute (EC2), Elastic Block Storage (EBS), Elastic File Service (EFS), Simple Storage Service (S3), Availability Zones (AZ), Regions and other items check this multi-part series (Cloud conversations: AWS EBS, Glacier and S3 overview (Part I) ).

AWS

As a quick refresher, S3 is the AWS bulk, high-capacity unstructured and object storage service along with its companion deep cold (e.g. inactive) Glacier. There are various S3 storage service classes including standard, reduced redundancy storage (RRS) along with infrequent access (IA) that have different availability durability, performance, service level and cost attributes.

Note that S3 IA is not Glacier as your data always remains on-line accessible while Glacier data can be off-line. AWS S3 can be accessed via its API, as well as via HTTP rest calls, AWS tools along with those from third-party’s. Third party tools include NAS file access such as S3FS for Linux that I use for my Ubuntu systems to mount S3 buckets and use similar to other mount points. Other tools include Cloudberry, S3 Motion, S3 Browser as well as plug-ins available in most data protection (backup, snapshot, archive) software tools and storage systems today.

AWS S3 Storage Gateway and What’s New

The Storage Gateway is the AWS tool that you can use for accessing S3 buckets and objects via your block volume, NAS file or tape based applications. The Storage Gateway is intended to give S3 bucket and object access to on-premises applications and data infrastructures functions including data protection (backup/restore, business continuance (BC), business resiliency (BR), disaster recovery (DR) and archiving), along with storage tiering to cloud.

Some of the things that have evolved with the S3 Storage Gateway include:

  • Easier, streamlined download, installation, deployment
  • Enhanced Virtual Tape Library (VTL) and Virtual Tape support
  • File serving and sharing (not to be confused with Elastic File Services (EFS))
  • Ability to define your own bucket and associated parameters
  • Bucket options including Infrequent Access (IA) or standard
  • Options for AWS EC2 hosted, or on-premises VMware as well as Hyper-V gateways (file only supports VMware and EC2)

AWS Storage Gateway Three Functions

AWS Storage Gateway can be deployed for three basic functions:

    AWS Storage Gateway File Architecture via AWS.com

  • File Gateway (NFS NAS) – Files, folders, objects and other items are stored in AWS S3 with a local cache for low latency access to most recently used data. With this option, you can create folders and subdirectory similar to a regular file system or NAS device as well as configure various security, permissions, access control policies. Data is stored in S3 buckets that you specify policies such as standard or Infrequent Access (IA) among other options. AWS hosted via EC2 as well as VMware Virtual Machine (VM) for on-premises file gateway.

    Also, note that AWS cautions on multiple concurrent writers to S3 buckets with Storage Gateway so check the AWS FAQs which may have changed by the time you read this. Current file share limits (subject to change) include 1 file gateway share per S3 bucket (e.g. a one to one mapping between file share and a bucket). There can be 10 file shares per gateway (e.g. multiple shares each with its own bucket per gateway) and a maximum file size of 5TB (same as maximum S3 object size). Note that you might hear about object storage systems supporting unlimited size objects which some may do, however generally there are some constraints either on their API front-end, or what is currently tested. View current AWS Storage Gateway resource and specification limits here.

  • AWS Storage Gateway Non-Cached Volume Architecture via AWS.com

    AWS Storage Gateway Cached Volume Architecture via AWS.com

  • Volume Gateway (Block iSCSI) – Leverages S3 with a point in time backup as an AWS EBS snapshot. Two options exist including Cached volumes with low-latency access to most recently used data (e.g. data is stored in AWS, with a local cache copy on disk or SSD). The other option is Stored Volumes (e.g. non-cached) where primary copy is local and periodic snapshot backups are sent to AWS. AWS provides EC2 hosted, as well as VMs for VMware and various Hyper-V Windows Server based VMs.

    Current Storage Gateway volume limits (subject to change) include maximum size of a cached volume 32TB, maximum size of a stored volume 16TB. Note that snapshots of cached volumes larger than 16TB can only be restored to a storage gateway volume, they can not be restored as an EBS volume (via EC2). There are a maximum of 32 volumes for a gateway with total size of all volumes for a gateway (cached) of 1,024TB (e.g. 1PB). The total size of all volumes for a gateway (stored volume) is 512TB. View current AWS Storage Gateway resource and specification limits here.

  • AWS Storage Gateway VTL Architecture via AWS.com

  • Virtual Tape Library Gateway (VTL) – Supports saving your data for backup/BC/DR/archiving into S3 and Glacier storage tiers. Being a Virtual Tape Library (e.g. VTL) you can specify emulation of tapes for compatibility with your existing backup, archiving and data protection software, management tools and processes.

    Storage Gateway limits for tape include minimum size of a virtual tape 100GB, maximum size of a virtual tape 2.5TB, maximum number of virtual tapes for a VTL is 1,500 and total size of all tapes in a VTL is 1PB. Note that the maximum number of virtual tapes in an archive is unlimited and total size of all tapes in an archive is also unlimited. View current AWS Storage Gateway resource and specification limits here.

    AWS

Where To Learn More

What This All Means

As to which gateway function and mode (cached or non-cached for Volumes) depends on what it is that you are trying to do. Likewise choosing between EC2 (cloud hosted) or on-premises Hyper-V and VMware VMs depends on what your data infrastructure support requirements are. Overall I like the progress that AWS has put into evolving the Storage Gateway, granted it might not be applicable for all usage cases. Continue reading more and view images from the AWS Storage Gateway Revisited test drive in part two located here.

Ok, nuff said (for now…).

Cheers
Gs

Greg Schulz – Multi-year Microsoft MVP Cloud and Data Center Management, VMware vExpert (and vSAN). Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio.

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

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

Top vBlog 2017 Voting Now Open

server storage I/O trends

Top vBlog 2017 Voting Now Open

It is that time of the year again when Eric Siebert (@ericsiebert) over at vSphere-land holds his annual Top vBlog (e.g. VMware and Virtualization related) voting (vote here until June 30, 2017). The annual Top vBlog event enables fans to vote for their favorite blogs (to get them into the top 10, 25, 50 and 100) as well as rank them for different categories which appear on Eric’s vLaunchPad site.

This years Top vBlog voting is sponsored by TurboNomic (e.g. formerly known as VMturbo) who if you are not aware of, have some interesting technology for cross-platform (cloud, container, virtualization, hardware, software, services) data infrastructure management software tools.

Software Defined Data Infrastructure Management

The blogs and sites listed on Eric’s site have common theme linkage to Virtualization and in particular tend to be more VMware focused, however some are also hybrid agnostic spanning other technologies, vendors, services and tools. Some examples of the different focus areas include hypervisors, VDI, cloud, containers, management tools, scripting, networking, servers, storage, data protection including backup/restore, replication, BC, DR among others).

In addition to the main list of blogs (that are active), there are also sub lists for different categories including:

  • Top 100 (Also top 10, 25, 50) vBlogs
  • Archive of retired (e.g. not active or seldom post)
  • News and Information sites
  • Podcasts
  • Scripting Blogs
  • Storage related
  • Various Virtualization Blogs
  • VMware Corporate Blogs

What To Do

Get out and vote for your favorite (or blogs that you frequent) in appreciation to those who create virtualization, VMware and data infrastructure related content. Click here or on the image above to reach the voting survey site where you will find more information and rules. In summary, select 12 of your favorite or preferred blogs, then rank them from 1 (most favorite) to 12. Then select your favorites for other categories such as Female Blog, Independent, New Blog, News websites, Podcast, Scripting and Storage among others.

Note: You will find my StorageIOblog in the main category (e.g. where you select 12 and then rank), as well as in the Storage, Independent, as well as Podcast categories, and thank you in advance for your continued support.

Which Blogs Do I Recommend (Among Others)

Two of my favorite blogs (and authors) are not included as Duncan Epping (Yellow Bricks) former #1 and Frank Denneman former #4 chose not to take part this year opening the door for some others to move up into the top 10 (or 25, 50 and 100). Of those listed some of my blogs I find valuable include Cormac Hogan of VMware, Demitasse (Alastair Cooke), ESX Virtualization (Vladan Seget), Kendrick Coleman, NTPro.nl (Eric Sloof), Planet VM (Tom Howarth), Virtually Ghetto (William Lam), VM Blog (David Marshall), vsphere-land.com (Eric Siebert) and Wahl Networks (Chris Wahl) among others.

Where to learn more

What this all means

It’s that time of the year again to take a few moments and show some appreciation for your favorite or preferred blogs along with their authors who spend time to create content for those sites. Also check out Turbonomic as they are an interesting technology that I have kept an eye on for some time now and so should you. Thank you all in advance regardless of if you take part in the voting as I also appreciate your continued support by viewing these posts either at StorageIOblog.com site or one of the many downstream sites where you can also read the content.

Ok, nuff said (for now…).

Cheers
Gs

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

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

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

Azure Stack TP3 Overview Preview Review Part II

server storage I/O trends

Azure Stack TP3 Overview Preview (Part II) Install Review

This is part two of a two-part series looking at Microsoft Azure Stack with a focus on my experiences installing Microsoft Azure Stack Technical Preview 3 (TP3) including into a nested VMware vSphere ESXi environment. Read part one here that provides a general overview of Azure Stack.

Azure Stack Review and Install

Being familiar with Microsoft Azure public cloud having used it for a few years now, I wanted to gain some closer insight, experience, expand my trade craft on Azure Stack by installing TP3. This is similar to what I have done in the past with OpenStack, Hadoop, Ceph, VMware, Hyper-V and many others, some of which I need to get around to writing about sometime. As a refresher from part one of this series, the following is an image via Microsoft showing the Azure Stack TP3 architecture, click here or on the image to learn more including the names and functions of the various virtual machines (VMs) that make up Azure Stack.

Microsoft Azure Stack architecture
Click here or on the above image to view list of VMs and other services (Image via Microsoft.com)

Whats Involved Installing Azure Stack TP3?

The basic steps are as follows:

  • Read this Azure Stack blog post (Azure Stack)
  • Download the bits (e.g. the Azure Stack software) from here, where you access the Azure Stack Downloader tool.
  • Planning your deployment making decisions on Active Directory and other items.
  • Prepare the target server (physical machine aka PM, or virtual machine VM) that will be the Azure Stack destination.
  • Copy Azure Stack software and installer to target server and run pre-install scripts.
  • Modify PowerShell script file if using a VM instead of a PM
  • Run the Azure Stack CloudBuilder setup, configure unattend.xml if needed or answer prompts.
  • Server reboots, select Azure Stack from two boot options.
  • Prepare your Azure Stack base system (time, network NICs in static or DHCP, if running on VMware install VMtools)
  • Determine if you will be running with Azure Active Directory (AAD) or standalone Active Directory Federated Services (ADFS).
  • Update any applicable installation scripts (see notes that follow)
  • Deploy the script, then extended Azure Stack TP3 PoC as needed

Note that this is a large download of about 16GB (23GB with optional WIndows Server 2016 demo ISO).

Use the AzureStackDownloader tool to download the bits (about 16GB or 23GB with optional Windows Server 2016 base image) which will either be in several separate files which you stitch back together with the MicrosoftAzureStackPOC tool, or as a large VHDX file and smaller 6.8GB ISO (Windows Server 2016). Prepare your target server system for installation once you have all the software pieces downloaded (or do the preparations while waiting for download).

Once you have the software downloaded, if it is a series of eight .bin files (7 about 2GB, 1 around 1.5GB), good idea to verify their checksums, then stitch them together on your target system, or on a staging storage device or file share. Note that for the actual deployment first phase, the large resulting cloudbuilder.vhdx file will need to reside in the C:\ root location of the server where you are installing Azure Stack.

server storageio nested azure stack tp3 vmware

Azure Stack deployment prerequisites (Microsoft) include:

  • At least 12 cores (or more), dual socket processor if possible
  • As much DRAM as possible (I used 100GB)
  • Put the operating system disk on flash SSD (SAS, SATA, NVMe) if possible, allocate at least 200GB (more is better)
  • Four x 140GB or larger (I went with 250GB) drives (HDD or SSD) for data deployment drives
  • A single NIC or adapter (I put mine into static instead of DHCP mode)
  • Verify your physical or virtual server BIOS has VT enabled

The above image helps to set the story of what is being done. On the left is for bare metal (BM) or physical machine (PM) install of Azure Stack TP3, on the right, a nested VMware (vSphere ESXi 6.5) with virtual machine (VM) 11 approach. Note that you could also do a Hyper-V nested among other approaches. Shown in the image above common to both a BM or VM is a staging area (could be space on your system drive) where Azure Stack download occurs. If you use a separate staging area, then simply copy the individual .bin files and stitch together into the larger .VHDX, or, copy the larger .VHDX, which is better is up to your preferences.

Note that if you use the nested approach, there are a couple of configuration (PowerShell) scripts that need to be updated. These changes are to trick the installer into thinking that it is on a PM when it checks to see if on physical or virtual environments.

Also note that if using nested, make sure you have your VMware vSphere ESXi host along with specific VM properly configured (e.g. that virtualization and other features are presented to the VM). With vSphere ESXi 6.5 virtual machine type 11 nesting is night and day easier vs. earlier generations.

Something else to explain here is that you will initially start the Azure Stack install preparation using a standard Windows Server (I used a 2016 version) where the .VHDX is copied into its C:\ root. From there you will execute some PowerShell scripts to setup some configuration files, one of which needs to be modified for nesting.

Once those prep steps are done, there is a Cloudbuilder deploy script that gets run that can be done with an unattend.xml file or manual input. This step will cause a dual-boot option to be added to your server where you can select Azure Stack or your base prep Windows Server instance, followed by reboot.

After the reboot occurs and you choose to boot into Azure Stack, this is the server instance that will actually run the deployment script, as well as build and launch all the VMs for the Azure Stack TP3 PoC. This is where I recommend having a rough sketch like above to annotate layers as you go to remember what layer working at. Don’t worry, it becomes much easier once all is said and done.

Speaking of preparing your server, refer to Microsoft specs, however in general give the server as much RAM and cores as possible. Also if possible place the system disk on a flash SSD (SAS, SATA, NVMe) and make sure that it has at least 200GB, however 250 or even 300GB is better (just in case you need more space).

Additional configuration tips include allocating four data disks for Azure, if possible make these SSDs as well as, however more important IMHO to have at least the system on fast flash SSD. Another tip is to enable only one network card or NIC and put it into static vs. DHCP address mode to make things easier later.

Tip: If running nested, vSphere 6.5 worked the smoothest as had various issues or inconsistencies with earlier VMware versions, even with VMs that ran nested just fine.

Tip: Why run nested? Simple, I wanted to be able to use using VMware tools, do snapshots to go back in time, plus share the server with some other activities until ready to give Azure Stack TP3 its own PM.

Tip: Do not connect the POC machine to the following subnets (192.168.200.0/24, 192.168.100.0/27, 192.168.101.0/26, 192.168.102.0/24, 192.168.103.0/25, 192.168.104.0/25) as Azure Stack TP3 uses those.

storageio azure stack tp3 vmware configuration

Since I decided to use a nested VM deploying using VMware, there were a few extra steps needed that I have included as tips and notes. Following is view via vSphere client of the ESXi host and VM configuration.

The following image combines a couple of different things including:

A: Showing the contents of C:\Azurestack_Supportfiles directory

B: Modifying the PrepareBootFromVHD.ps1 file if deploying on virtual machine (See tips and notes)

C: Showing contents of staging area including individual .bin files along with large CloudBuilder.vhdx

D: Running the PowerShell script commands to prepare the PrepareBootFromVHD.ps1 and related items

prepariing azure stack tp3 cloudbuilder for nested vmware deployment

From PowerShell (administrator):

# Variables
$Uri = 'https://raw.githubusercontent.com/Azure/Azure stack/master/Deployment/'
$LocalPath = 'c:\AzureStack_SupportFiles'

# Create folder
New-Item $LocalPath -type directory

# Download files
( 'BootMenuNoKVM.ps1', 'PrepareBootFromVHD.ps1', 'Unattend.xml', 'unattend_NoKVM.xml') | foreach { Invoke-WebRequest ($uri + $_) -OutFile ($LocalPath + '\' + $_) }

After you do the above, decide if you will be using an Unattend.xml or manual entry of items for building the Azure Stack deployment server (e.g. a Windows Server). Note that the above PowerShell script created the C:\azurestack_supportfiles folder and downloads the script files for building the cloud image using the previously downloaded Azure Stack CloudBuilder.vhdx (which should be in C:\).

Note and tip is that if you are doing a VMware or virtual machine based deployment of TP3 PoC, you will need to change C:\PrepareBootFromVHD.ps1 in the Azure Stack support files folder. Here is a good resource on what gets changed via Github that shows an edit on or about line 87 of PrepareBootFromVHD.ps1. If you run the PrepareBootFromVHD.ps1 script on a virtual machine you will get an error message, the fix is relatively easy (after I found this post).

Look in PrepareBootFromVHD.ps1 for something like the following around line 87:

if ((get-disk | where {$_.isboot -eq $true}).Model -match 'Virtual Disk')       {      Write-Host "The server is currently already booted from a virtual hard disk, to boot the server from the CloudBuilder.vhdx you will need to run this script on an Operating System that is installed on the physical disk of this server."      Exit      }

You can either remove the "exit" command, or, change the test for "Virtual Disk" to something like "X", for fun I did both (and it worked).

Note that you only have to make the above and another change in a later step if you are deploying Azure Stack TP3 as a virtual machine.

Once you are ready, go ahead and launch the PrepareBootFromVHD.ps1 script which will set the BCDBoot entry (more info here).

azure stack tp3 cloudbuilder nested vmware deployment

You will see a reboot and install, this is installing what will be called the physical instance. Note that this is really being installed on the VM system drive as a secondary boot option (e.g. azure stack).

azure stack tp3 dual boot option

After the reboot, login to the new Azure Stack base system and complete any configuration including adding VMware Tools if using VMware nested. Some other things to do include make sure you have your single network adapter set to static (makes things easier), and any other updates or customizations. Before you run the next steps, you need to decide if going to use Azure Active Directory (AAD) or local ADFS.

Note that if you are not running on a virtual machine, simply open a PowerShell (administrator) session, and run the deploy script. Refer to here for more guidance on the various options available including discussion on using AAD or ADFS.

Note if you run the deployment script on a virtual machine, you will get an error which is addressed in the next section, otherwise, sit back and watch the progress..

CloudBuilder Deployment Time

Once you have your Azure Stack deployment system and environment ready, including a snapshot if on virtual machine, launch the PowerShell deployment script. Note that you will need to have decided if deploying with Azure Active Directory (AAD) or Azure Directory Federated Services (ADFS) for standalone aka submarine mode. There are also other options you can select as part of the deployment discussed in the Azure Stack tips here (a must read) and here. I chose to do a submarine mode (e.g. not connected to Public Azure and AAD) deployment.

From PowerShell (administrator):

cd C:\CloudDeployment:\Setup
$adminpass = ConvertTo-SecureString "youradminpass" -AsPlainText -Force
.\InstallAzureStackPOC.ps1 -AdminPassword $adminpass -UseADFS

Deploying on VMware Virtual Machines Tips

Here is a good tip via Gareth Jones (@garethjones294) that I found useful for updating one of the deployment script files (BareMetal_Tests.ps1 located in C:\CloudDeployment\Roles\PhysicalMachines\Tests folder) so that it would skip the bare metal (PM) vs. VM tests. Another good resource, even though it is for TP2 and early versions of VMware is TP2 deployment experiences by Niklas Akerlund (@vNiklas).

Note that this is a bit of a chick and egg scenario unless you are proficient at digging into script files since the BareMetal_Tests.ps1 file does not get unpacked until you run the CloudBuilder deployment script. If you run the script and get an error, then make the changes below, and rerun the script as noted. Once you make the modification to the BareMetal_Tests.ps1 file, keep a copy in a safe place for future use.

Here are some more tips for deploying Azure Stack on VMware,

Per the tip mentioned about via Gareth Jones (tip: read Gareths post vs. simply cut and paste the following which is more of a guide):

Open BareMetal_Tests.ps1 file in PowerShell ISE and navigate to line 376 (or in that area)
Change $false to $true which will stop the script failing when checking to see if the Azure Stack is running inside a VM.
Next go to line 453.
Change the last part of the line to read “Should Not BeLessThan 0”
This will stop the script checking for the required amount of cores available.

After you make the above correction as with any error (and fix) during Azure Stack TP3 PoC deployment, simply run the following.

cd C:\CloudDeployment\Setup
.\InstallAzureStackPOC.ps1 -rerun

Refer to the extra links in the where to learn more section below that offer various tips, tricks and insight that I found useful, particular for deploying on VMware aka nested. Also in the links below are tips on general Azure Stack, TP2, TP3, adding services among other insight.

starting azure stack tp3 deployment

Tip: If you are deploying Azure Stack TP3 PoC on virtual machine, once you start the script above, copy the modified BareMetal_Tests.ps1 file

Once the CloudBuilder deployment starts, sit back and wait, if you are using SSDs, it will take a while, if using HDDs, it will take a long while (up to hours), however check in on it now and then to see progress of if any errors. Note that some of the common errors will occur very early in the deployment such as the BareMetal_Tests.ps1 mentioned above.

azure stack tp3 deployment finished

Checking in periodically to see how the deployment progress is progressing, as well as what is occurring. If you have the time, watch some of the scripts as you can see some interesting things such as the software defined data center (SDDC) aka software-defined data infrastructure (SDDC) aka Azure Stack virtual environment created. This includes virtual machine creation and population, creating the software defined storage using storage spaces direct (S2D), virtual network and active directory along with domain controllers among others activity.

azure stack tp3 deployment progress

After Azure Stack Deployment Completes

After you see the deployment completed, you can try accessing the management portal, however there may be some background processing still running. Here is a good tip post on connecting to Azure Stack from Microsoft using Remote Desktop (RDP) access. Use RDP from the Azure Stack deployment Windows Server and connect to a virtual machine named MAS-CON01, launch Server Manager and for Local Server disable Internet Explorer Enhanced Security (make sure you are on the right system, see the tip mentioned above). Disconnect from MAS-CON01 (refer to the Azure Stack architecture image above), then reconnect, and launch Internet Explorer with an URL of (note documentation side to use which did not work for me).

Note the username for the Azure Stack system is AzureStack\AzureStackAdmin with a password of what you set for administrative during setup. If you get an error, verify the URLs, check your network connectivity, wait a few minutes as well as verify what server you are trying to connect from and too. Keep in mind that even if deploying on a PM or BM (e.g. non virtual server or VM), the Azure Stack deployment TP3 PoC creates a "virtual" software-defined environment with servers, storage (Azure Stack uses Storage Spaces Direct [S2D] and software defined network.

accessing azure stack tp3 management portal dashboard

Once able to connect to Azure Stack, you can add new services including virtual machine image instances such as Windows (use the Server 2016 ISO that is part of Azure Stack downloads), Linux or others. You can also go to these Microsoft resources for some first learning scenarios, using the management portals, configuring PowerShell and troubleshooting.

Where to learn more

The following provide more information and insight about Azure, Azure Stack, Microsoft and Windows among related topics.

  • Azure Stack Technical Preview 3 (TP3) Overview Preview Review
  • Azure Stack TP3 Overview Preview Review Part II
  • Azure Stack Technical Preview (get the bits aka software download here)
  • Azure Stack deployment prerequisites (Microsoft)
  • Microsoft Azure Stack troubleshooting (Microsoft Docs)
  • Azure Stack TP3 refresh tips (Azure Stack)
  • Here is a good post with a tip about not applying certain Windows updates to AzureStack TP3 installs.
  • Configure Azure Stack TP3 to be available on your own network (Azure Stack)
  • Azure Stack TP3 Marketplace syndication (Azure Stack)
  • Azure Stack TP3 deployment experiences (Azure Stack)
  • Frequently asked questions for Azure Stack (Microsoft)
  • Azure Active Directory (AAD) and Active Directory Federation Services (ADFS)
  • Deploy Azure Stack (Microsoft)
  • Connect to Azure Stack (Microsoft)
  • Azure Stack TP2 deployment experiences by Niklas Akerlund (@vNiklas) useful for tips for TP3
  • Deployment Checker for Azure Stack Technical Preview (Microsoft Technet)
  • Azure stack and other tools (Github)
  • How to enable nested virtualization on Hyper-V Windows Server 2016
  • Dell EMC announce Microsoft Hybrid Cloud Azure Stack (Dell EMC)
  • Dell EMC Cloud for Microsoft Azure Stack (Dell EMC)
  • Dell EMC Cloud for Microsoft Azure Stack Data Sheet (Dell EMC PDF)
  • Dell EMC Cloud Chats (Dell EMC Blog)
  • Microsoft Azure stack forum
  • Dell EMC Microsoft Azure Stack solution
  • Gaining Server Storage I/O Insight into Microsoft Windows Server 2016
  • Overview Review of Microsoft ReFS (Reliable File System) and resource links
  • Via WServerNews.com Cloud (Microsoft Azure) storage considerations
  • Via CloudComputingAdmin.com Cloud Storage Decision Making: Using Microsoft Azure for cloud storage
  • www.thenvmeplace.com, www.thessdplace.com, www.objectstoragecenter.com and www.storageio.com/converge
  • What this all means

    A common question is if there is demand for private and hybrid cloud, in fact, some industry expert pundits have even said private, or hybrid are dead which is interesting, how can something be dead if it is just getting started. Likewise, it is early to tell if Azure Stack will gain traction with various organizations, some of whom may have tried or struggled with OpenStack among others.

    Given a large number of Microsoft Windows-based servers on VMware, OpenStack, Public cloud services as well as other platforms, along with continued growing popularity of Azure, having a solution such as Azure Stack provides an attractive option for many environments. That leads to the question of if Azure Stack is essentially a replacement for Windows Servers or Hyper-V and if only for Windows guest operating systems. At this point indeed, Windows would be an attractive and comfortable option, however, given a large number of Linux-based guests running on Hyper-V as well as Azure Public, those are also primary candidates as are containers and other services.

    software defined data infrastructures SDDI and SDDC

    Some will say that if OpenStack is struggling in many organizations and being free open source, how Microsoft can have success with Azure Stack. The answer could be that some organizations have struggled with OpenStack while others have not due to lack of commercial services and turnkey support. Having installed both OpenStack and Azure Stack (as well as VMware among others), Azure Stack is at least the TP3 PoC is easy to install, granted it is limited to one node, unlike the production versions. Likewise, there are easy to use appliance versions of OpenStack that are limited in scale, as well as more involved installs that unlock full functionality.

    OpenStack, Azure Stack, VMware and others have their places, alongside, or supporting containers along with other tools. In some cases, those technologies may exist in the same environment supporting different workloads, as well as accessing various public clouds, after all, Hybrid is the home run for many if not most legality IT environments.

    Ok, nuff said (for now…).

    Cheers
    Gs

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

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

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

    Dell EMC Announce Azure Stack Hybrid Cloud Solution

    server storage I/O trends

    Dell EMC Azure Stack Hybrid Cloud Solution

    Dell EMC have announced their Microsoft Azure Stack hybrid cloud platform solutions. This announcement builds upon earlier statements of support and intention by Dell EMC to be part of the Microsoft Azure Stack community. For those of you who are not familiar, Azure Stack is an on premise extension of Microsoft Azure public cloud.

    What this means is that essentially you can have the Microsoft Azure experience (or a subset of it) in your own data center or data infrastructure, enabling cloud experiences and abilities at your own pace, your own way with control. Learn more about Microsoft Azure Stack including my experiences with and installing Technique Preview 3 (TP3) here.

    software defined data infrastructures SDDI and SDDC

    What Is Azure Stack

    Microsoft Azure Stack is an on-premises (e.g. in your own data center) private (or hybrid when connected to Azure) cloud platform. Currently Azure Stack is in Technical Preview 3 (e.g. TP3) and available as a proof of concept (POC) download from Microsoft. You can use Azure Stack TP3 as a POC for learning, demonstrating and trying features among other activities. Here is link to a Microsoft Video providing an overview of Azure Stack, and here is a good summary of roadmap, licensing and related items.

    In summary, Microsoft Azure Stack and this announcement is about:

    • A onsite, on-premises, in your data center extension of Microsoft Azure public cloud
    • Enabling private and hybrid cloud with good integration along with shared experiences with Azure
    • Adopt, deploy, leverage cloud on your terms and timeline choosing what works best for you
    • Common processes, tools, interfaces, management and user experiences
    • Leverage speed of deployment and configuration with a purpose-built integrated solution
    • Support existing and cloud-native Windows, Linux, Container and other services
    • Available as a public preview via software download, as well as vendors offering solutions

    What Did Dell EMC Announce

    Dell EMC announced their initial product, platform solutions, and services for Azure Stack. This includes a Proof of Concept (PoC) starter kit (PE R630) for doing evaluations, prototype, training, development test, DevOp and other initial activities with Azure Stack. Dell EMC also announced a larger for production deployment, or large-scale development, test DevOp activity turnkey solution. The initial production solution scales from 4 to 12 nodes, or from 80 to 336 cores that include hardware (server compute, memory, I/O and networking, top of rack (TOR) switches, management, Azure Stack software along with services. Other aspects of the announcement include initial services in support of Microsoft Azure Stack and Azure cloud offerings.
    server storage I/O trends
    Image via Dell EMC

    The announcement builds on joint Dell EMC Microsoft experience, partnerships, technologies and services spanning hardware, software, on site data center and public cloud.
    server storage I/O trends
    Image via Dell EMC

    Dell EMC along with Microsoft have engineered a hybrid cloud platform for organizations to modernize their data infrastructures enabling faster innovate, accelerate deployment of resources. Includes hardware (server compute, memory, I/O networking, storage devices), software, services, and support.
    server storage I/O trends
    Image via Dell EMC

    The value proposition of Dell EMC hybrid cloud for Microsoft Azure Stack includes consistent experience for developers and IT data infrastructure professionals. Common experience across Azure public cloud and Azure Stack on-premises in your data center for private or hybrid. This includes common portal, Powershell, DevOps tools, Azure Resource Manager (ARM), Azure Infrastructure as a Service (IaaS) and Platform as a Service (PaaS), Cloud Infrastructure and associated experiences (management, provisioning, services).
    server storage I/O trends
    Image via Dell EMC

    Secure, protect, preserve and serve applications VMs hosted on Azure Stack with Dell EMC services along with Microsoft technologies. Dell EMC data protection including backup and restore, Encryption as a Service, host guard and protected VMs, AD integration among other features.
    server storage I/O trends
    Image via Dell EMC

    Dell EMC services for Microsoft Azure Stack include single contact support for prepare, assessment, planning; deploy with rack integration, delivery, configuration; extend the platform with applicable migration, integration with Office 365 and other applications, build new services.
    server storage I/O trends
    Image via Dell EMC

    Dell EMC Hyper-converged scale out solutions range from minimum of 4 x PowerEdge R730XD (total raw specs include 80 cores (4 x 20), 1TB RAM (4 x 256GB), 12.8TB SSD Cache, 192TB Storage, plus two top of row network switches (Dell EMC) and 1U management server node. Initial maximum configuration raw specification includes 12 x R730XD (total 336 cores), 6TB memory, 86TB SSD cache, 900TB storage along with TOR network switch and management server.

    The above configurations initially enable HCI nodes of small (low) 20 cores, 256GB memory, 5.7TB SSD cache, 40TB storage; mid size 24 cores, 384GB memory, 11.5TB cache and 60TB storage; high-capacity with 28 cores, 512GB memory, 11.5TB cache and 80TB storage per node.
    server storage I/O trends
    Image via Dell EMC

    Dell EMC Evaluator program for Microsoft Azure Stack including the PE R630 for PoCs, development, test and training environments. The solution combines Microsoft Azure Stack software, Dell EMC server with Intel E5-2630 (10 cores, 20 threads / logical processors or LPs), or Intel E5-2650 (12 cores, 24 threads / LPs). Memory is 128GB or 256GB, storage includes flash SSD (2 x 480GB SAS) and HDD (6 x 1TB SAS).
    and networking.
    server storage I/O trends
    Image via Dell EMC

    Collaborative support single contact between Microsoft and Dell EMC

    Who Is This For

    This announcement is for any organization that is looking for an on-premises, in your data center private or hybrid cloud turnkey solution stack. This initial set of announcements can be for those looking to do a proof of concept (PoC), advanced prototype, support development test, DevOp or gain cloud-like elasticity, ease of use, rapid procurement and other experiences of public cloud, on your terms and timeline. Naturally, there is a strong affinity and seamless experience for those already using, or planning to use Azure Public Cloud for Windows, Linux, Containers and other workloads, applications, and services.

    What Does This Cost

    Check with your Dell EMC representative or partner for exact pricing which varies for the size and configurations. There are also various licensing models to take into consideration if you have Microsoft Enterprise License Agreements (ELAs) that your Dell EMC representative or business partner can address for you. Likewise being cloud based, there is also time usage-based options to explore.

    Where to learn more

    What this all means

    The dust is starting to settle on last falls Dell EMC integration, both of whom have long histories working with, and partnering along with Microsoft on legacy, as well as virtual software-defined data centers (SDDC), software-defined data infrastructures (SDDI), native, and hybrid clouds. Some may view the Dell EMC VMware relationship as a primary focus, however, keep in mind that both Dell and EMC had worked with Microsoft long before VMware came into being. Likewise, Microsoft remains one of the most commonly deployed operating systems on VMware-based environments. Granted Dell EMC have a significant focus on VMware, they both also sell, service and support many services for Microsoft-based solutions.

    What about Cisco, HPE, Lenovo among others who have to announce or discussed their Microsoft Azure Stack intentions? Good question, until we hear more about what those and others are doing or planning, there is not much more to do or discuss beyond speculating for now. Another common question is if there is demand for private and hybrid cloud, in fact, some industry expert pundits have even said private, or hybrid are dead which is interesting, how can something be dead if it is just getting started. Likewise, it is early to tell if Azure Stack will gain traction with various organizations, some of whom may have tried or struggled with OpenStack among others.

    Given a large number of Microsoft Windows-based servers on VMware, OpenStack, Public cloud services as well as other platforms, along with continued growing popularity of Azure, having a solution such as Azure Stack provides an attractive option for many environments. That leads to the question of if Azure Stack is essentially a replacement for Windows Servers or Hyper-V and if only for Windows guest operating systems. At this point indeed, Windows would be an attractive and comfortable option, however, given a large number of Linux-based guests running on Hyper-V as well as Azure Public, those are also primary candidates as are containers and other services.

    Overall, this is an excellent and exciting move for both Microsoft extending their public cloud software stack to be deployed within data centers in a hybrid way, something that those customers are familiar with doing. This is a good example of hybrid being spanning public and private clouds, remote and on-premises, as well as familiarity and control of traditional procurement with the flexibility, elasticity experience of clouds.

    software defined data infrastructures SDDI and SDDC

    Some will say that if OpenStack is struggling in many organizations and being free open source, how Microsoft can have success with Azure Stack. The answer could be that some organizations have struggled with OpenStack while others have not due to lack of commercial services and turnkey support. Having installed both OpenStack and Azure Stack (as well as VMware among others), Azure Stack is at least the TP3 PoC is easy to install, granted it is limited to one node, unlike the production versions. Likewise, there are easy to use appliance versions of OpenStack that are limited in scale, as well as more involved installs that unlock full functionality.

    OpenStack, Azure Stack, VMware and others have their places, along, or supporting containers along with other tools. In some cases, those technologies may exist in the same environment supporting different workloads, as well as accessing various public clouds, after all, Hybrid is the home run for many if not most legality IT environments.

    Overall this is a good announcement from Dell EMC for those who are interested in, or should become more aware about Microsoft Azure Stack, Cloud along with hybrid clouds. Likewise look forward to hearing more about the solutions from others who will be supporting Azure Stack as well as other hybrid (and Virtual Private Clouds).

    Ok, nuff said (for now…).

    Cheers
    Gs

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

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

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

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

    server storage I/O trends

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

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

    VMware vSAN 6.6
    Image via VMware

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

    Software-defined data infrastructure

    Excuse Me, What is vSAN and who is if for

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

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

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

    CI and HCI data infrastructure

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

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

    Give Me the Quick Elevator Pitch Summary

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

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

    Where to Learn More

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

    What this all means

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

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

    Ok, nuff said (for now…).

    Cheers
    Gs

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

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

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

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

    server storage I/O trends

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

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

    VMware vSAN 6.6
    Image via VMware

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

    Just the Speeds and Feeds Please

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

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

    What’s New and Value Proposition of vSAN 6.6

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

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

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

    VMware vSAN 6.6 summary
    Image via VMware

    Reducing risk while scaling

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

    VMware vSAN DaRE
    Image via VMware

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

    VMware vSAN management
    Image via VMware

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

    VMware vSAN health management
    Image via VMware

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

    Where to Learn More

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

    What this all means

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

    Ok, nuff said (for now…).

    Cheers
    Gs

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

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

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

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

    server storage I/O trends

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

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

    VMware vSAN 6.6
    Image via VMware

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

    Reducing cost and complexity

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

    VMware vSAN stretch cluster
    Image via VMware

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

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

    server storage I/O locality of reference

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

    VMware vSAN unicast
    Image via VMware

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

    VMware vSAN cloud analytics
    Image via VMware

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

    Where to Learn More

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

    What this all means

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

    Ok, nuff said (for now…).

    Cheers
    Gs

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

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

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

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

    server storage I/O trends

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

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

    VMware vSAN 6.6
    Image via VMware

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

    Scaling HCI for ROBO and data centers today and for tomorrow

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

    VMware vSAN data center scaling
    Image via VMware

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

    VMware vSAN cloud analytics
    Image via VMware

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

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

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

    VMware vSAN and data center class applications
    Image via VMware

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

    What about VMware vSAN 6.6. Packaging and License Options

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

    VMware vSAN cloud analytics
    Image via VMware

    VMware vSAN cloud analytics
    Image via VMware

    Where to Learn More

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

    What this all means

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

    Ok, nuff said (for now…).

    Cheers
    Gs

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

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

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

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

    server storage I/O trends

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

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

    VMware vSAN 6.6
    Image via VMware

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

    How has vSAN (formerly referred to as VSAN) Evolved

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

    Previous vSAN enhancements include:

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

    V5.5

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

    V6.0

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

    V6.1

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

    V6.2

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

    V6.5

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

    Where to Learn More

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

    What this all means, wrap up and summary

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

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

    Ok, nuff said (for now…).

    Cheers
    Gs

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

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

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

    Congratulations and welcome to all new and returning fellow vExperts for 2017

    Congratulations and welcome new and returning fellow 2017 vExperts

    server storage I/O trends

    VMware vExpert 2017

    The other day VMware announced the 2017 list of vExperts which you can view here.

    Congratulations and welcome to all new and returning fellow vExperts for 2017.

    In its ninth year, it is an honor to now have been named a vExpert for eight consecutive years.

    Where To Learn More

    Learn more about and view the list of 2017 VMware vExperts here.

    What this all means and wrapping up

    Thank you VMware and all of those involved with the vExpert process, as well as congratulations and best wishes to all new and returning vExperts. I’m Looking forward to being involved and participating in the VMware vExpert community for yet another year.

    Ok, nuff said, for now.

    Cheers gs

    Greg Schulz – Microsoft MVP Cloud and Data Center Management, vSAN and VMware vExpert. 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.

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

    September and October 2016 Server StorageIO Update Newsletter

    Volume 16, Issue IX

    Hello and welcome to this September and October 2016 Server StorageIO update newsletter.

    In This Issue

  • Commentary in the news
  • Tips and Articles
  • StorageIOblog posts
  • Events and Webinars
  • Industry Activity Trends
  • Resources and Links
  • Connect and Converse With Us
  • About Us
  • Enjoy this edition of the Server StorageIO update newsletter.

    Cheers GS

    Industry Activity Trends

    Recent Industry Activates and Trends

    EMC is now Dell EMC – What this means is that EMC is no longer a publicly traded company instead now being privately held under the Dell Technologies umbrella. In case you did not know or had forgotten, one of the principal owners of Dell Technologies is Michael Dell aka the founder of Dell Computers which itself went private a few years ago. Read more in this Server StoageIOblog update post.

    While Michael Dell and Dell Technologies continues to expand by acquiring companies (granted also shedding some assets to support that growth), HP Enterprise (HPE) is taking a different approach. Similar to Dell, HPE has been offloading some of its divisions and assets since its split into two separate companies about a year ago.

    More recently HPE has announced it is selling off some of its software assets to which follows other deals where HPE created a new partnership with CSC to offload or park some of its services assets. What’s not clear is HPE CEO Meg Whitman leveraging the trend that some Private Equity (PE) firms are interested in acquiring under performing companies or assets to prepare them as part of a pivot to profit scenario, or something else?

    • HPE selling off business units including software group here, here, here and here
    • HPE looking to boost its HPC and super compute business with $275B acquisition of SGI
    • Announced new shared storage for SMB and mid-size environments including for sub $10K price points. These include HPE StoreVirtual 3200 and HPE MSA 2042.
    • HPE and Dropbox partnership
    • Various other HPE news and updates

    Hyper-Converged Infrastructure (HCI) startup vendor Nutanix finally IPO (NTNX) after a not so consolidated IPO cycle. Prior to the IPO NTNX acquired other startup Pernix (VMware cache software solution) and calmio to beef up their product portfolio. Congratulations to NTNX and best wishes, hopefully the public markets will provide risk vs. reward, on the other hand, now being public, the spotlight will be on them.

    Nutanix Stock via Yahoo 10/31/16
    NTNX Stock Trading via Yahoo Finance 10/31/16 (Click to see current status)


    Microsoft has extended its software defined storage (SDS) along with software defined data center (SDDC) as well as software defined networking (SDN) capabilities by formerly announcing Windows Server 2016. A month or so ago Microsoft announced the 20th birthday or anniversary of Windows Server as well as having previously released Tech Previews (TP).
    See what’s new in Server 2016 here. For those not aware, With Windows Server 2016, you can configure it to be CI, HCI, legacy or various hybrid ways to meet your needs, along with your choice of hardware from your preferred vendor or solution provider. Read more about Microsoft Windows Server 2016 and related topics in this Server StorageIOblog post.

    Needless to say there is a lot of other activity in the works including VMware enhancements with vSphere 6.5 as well as VMware vSphere (and related tools) being announced as hosted on bare metal (BM) dedicated private servers (DPS) via AWS among other updates.

     

    StorageIOblog Posts

    Recent and popular Server StorageIOblog posts include:

    View other recent as well as past StorageIOblog posts here

     

    StorageIO Commentary in the news

    Recent Server StorageIO industry trends perspectives commentary in the news.

    Via InfoStor Top Ten Data Storage Performance Tips: Improving Data Storage
    Via ChannelProNetwork Your Time Will Come, All-Flash Storage
    Via FutureReadyOEM When to implement ultra-dense CI or HCI storage
    Via EnterpriseStorageForum Top 10 Enterprise SSD Market Trends
    Via EnterpriseStorageForum Storage Hyperconvergence: When Does It Make Sense?
    SearchCloudStorage: EMC VxRack Neutrino Nodes launched for OpenStack cloud storage
    EnterpriseStorageForum: Looking Beyond the Hype at Hyperconvergence in Storage
    CDW Digital: Transitioning Data Centers To Hybrid Environment
    SearchDataCenter: EMC, VCE, CI and Hyperconverged vs. Hyper-small
    InfoStor: Docker and Containerization Storage Buying Guide
    NetworkComputing: Dell-EMC: The Storage Ramifications
    EnterpriseTech: VMware Targets Synergies in Dell-EMC Deal 
    HPCwire: Dell to Buy EMC Focus on Large Enterprises and High-End Computing
    EnterpriseStorageForum: Storage Futures: Do We Really Need to Store Everything?

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

     

    StorageIO Tips and Articles

    Recent and past Server StorageIO articles appearing in different venues include:

    Via Iron Mountain  Is Your Data Infrastructure Prepared for Storm Season?
    Via Iron Mountain  Preventing Unexpected Disasters: IT and Data Infrastructure
    Via FutureReadyOEM  When to implement ultra-dense storage
    Via Micron Blog (Guest Post)  Whats next for NVMe and your Data Center
    Redmond Magazine  Data Protection Trends – Evolving Data Protection and Resiliency
    Virtual Blocks (VMware Blogs)  EVO:RAIL Part III – When And Where To Use It?
    Virtual Blocks (VMware Blogs)  EVO:RAIL Part II – Why And When To Use It?
    Virtual Blocks (VMware Blogs)  EVO:RAIL Part I – What Is It And Why Does It Matter?

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

     

    Events and Activities

    Recent and upcoming event activities.

    December 7, 2016 11AM PT – BrightTalk Webinar: Hyper-Converged Infrastructure

    November 29-30, 2016 – Nijkerk Netherlands Workshop Seminar (Presenting)
    Organized by Brouwer Storage Consultancy

    Converged and Other Server Storage Decision Making

    November 28, 2016 – Nijkerk Netherlands Workshop Seminar (Presenting)
    Organized by Brouwer Storage Consultancy
    – Industry Trends Update

    November 23, 2016 10AM PT – BrightTalk Webinar: BCDR and Cloud Backup
    Software Defined Data Infrastructures (SDDI) and Data Protection

    November 23, 2016 9AM PT – BrightTalk Webinar: Cloud Storage
    Hybrid and Software Defined Data Infrastructures (SDDI)

    November 22, 2016 10AM PT – BrightTalk Webinar: Cloud Infrastructure
    Hybrid and Software Defined Data Infrastructures (SDDI)

    November 15, 2016 11AM PT – Redmond Magazine and SolarWinds
    Presenting – The O.A.R. of Virtualization Scaling

    November 3, 2016 11AM PT – Redmond Magazine and Dell Software
    Presenting – Backup, Data Protection and Security Management

    October 27, 2016 10AM PT – Virtual Instruments Webinar
    The Value of Infrastructure Insight

    October 20, 2016 9AM PT – BrightTalk Webinar: Next-Gen Data Centers
    Software Defined Data Infrastructures (SDDI) – Servers, Storage and Virtualization

    September 20, 2016 8AM PT – BrightTalk Webinar
    Software Defined Data Infrastructures (SDDI)
    Enabling Software Defined Data Centers

    September 13, 2016 11AM PT – Redmond Magazine and Dell Software
    Windows Server 2016 and Active Directory
    What’s New and How to Plan for Migration

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

     

    Server StorageIO Industry Resources and Links

    Useful links and pages:
    Microsoft TechNet – Various Microsoft related from Azure to Docker to Windows
    storageio.com/links – Various industry links (over 1,000 with more to be added soon)
    objectstoragecenter.com – Cloud and object storage topics, tips and news items
    OpenStack.org – Various OpenStack related items
    storageio.com/protect – Various data protection items and topics
    thenvmeplace.com – Focus on NVMe trends and technologies
    thessdplace.com – NVM and Solid State Disk topics, tips and techniques
    storageio.com/performance – Various server, storage and I/O performance and benchmarking
    VMware Technical Network – Various VMware related items

    Ok, nuff said, for now…

    Cheers
    Gs

    Greg Schulz – Microsoft MVP Cloud and Data Center Management, vSAN and VMware vExpert. Author Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press) and Resilient Storage Networks (Elsevier) and twitter @storageio

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