PCIe Fundamentals Server Storage I/O Network Essentials

Updated 8/31/19

PCIe Fundamentals Server Storage I/O Network Essentials

PCIe fundamentals data infrastructure trends

This piece looks at PCIe Fundamentals topics for server, storage, I/O network data infrastructure environments. Peripheral Computer Interconnect (PCI) Express aka PCIe is a Server, Storage, I/O networking fundamentals component. This post is an excerpt from chapter 4 (Chapter 4: Servers: Physical, Virtual, Cloud, and Containers) of my new book Software Defined Data Infrastructure Essentials – Cloud, Converged and Virtual Fundamental Server Storage I/O Tradecraft (CRC Press 2017) Available via Amazon.com and other global venues. In this post, we look various PCIe fundamentals to learn and expand or refresh your server, storage, and I/O and networking tradecraft skills experience.

PCIe fundamentals Server Storage I/O Fundamentals

PCIe fundamental common server I/O component

Common to all servers is some form of a main system board, which can range from a few square meters in supercomputers, data center rack, tower, and micro towers converged or standalone, to small Intel NUC (Next Unit of Compute), MSI and Kepler-47 footprint, or Raspberry Pi-type desktop servers and laptops. Likewise, PCIe is commonly found in storage and networking systems, appliances among other devices.

For example, a blade server will have multiple server blades or modules, each with its motherboard, which shares a common back plane for connectivity. Another variation is a large server such as an IBM “Z” mainframe, Cray, or another supercomputer that consists of many specialized boards that function similar to a smaller-sized motherboard on a larger scale.

Some motherboards also have mezzanine or daughter boards for attachment of additional I/O networking or specialized devices. The following figure shows a generic example of a two-socket, with eight-memory-channel-type server architecture.

PCIe fundamentals SDDC, SDI, SDDI Server fundamentals
Generic computer server hardware architecture. Source: Software Defined Data Infrastructure Essentials (CRC Press 2017)

The above figure shows several PCIe, USB, SAS, SATA, 10 GbE LAN, and other I/O ports. Different servers will have various combinations of processor, and Dual Inline Memory Module (DIMM) Dynamic RAM (DRAM) sockets along with other features. What will also vary are the type and some I/O and storage expansion ports, power and cooling, along with management tools or included software.

PCIe, Including Mini-PCIe, NVMe, U.2, M.2, and GPU

At the heart of many servers I/O and connectivity solutions are the PCIe industry-standard interface (see PCIsig.com). PCIe is used to communicate with CPUs and the outside world of I/O networking devices. The importance of a faster and more efficient PCIe bus is to support more data moving in and out of servers while accessing fast external networks and storage.

For example, a server with a 40-GbE NIC or adapter would have to have a PCIe port capable of 5 GB per second. If multiple 40-GbE ports are attached to a server, you can see where the need for faster PCIe interfaces come into play.

As more VM are consolidated onto PM, as applications place more performance demand either regarding bandwidth or activity (IOPS, frames, or packets) per second, more 10-GbE adapters will be needed until the price of 40-GbE (also 25, 50 or 100 Gbe) becomes affordable. It is not if, but rather when you will grow into the performance needs on either a bandwidth/throughput basis or to support more activity and lower latency per interface.

PCIe is a serial interface specified for how servers communicate between CPUs, memory, and motherboard-mounted as well as AiC devices. This communication includes support attachment of onboard and host bus adapter (HBA) server storage I/O networking devices such as Ethernet, Fibre Channel, InfiniBand, RapidIO, NVMe (cards, drives, and fabrics), SAS, and SATA, among other interfaces.

In addition to supporting attachment of traditional LAN, SAN, MAN, and WAN devices, PCIe is also used for attaching GPU and video cards to servers. Traditionally, PCIe has been focused on being used inside of a given server chassis. Today, however, PCIe is being deployed on servers spanning nodes in dual, quad, or CiB, CI, and HCI or Software Defined Storage (SDS) deployments. Another variation of PCIe today is that multiple servers in the same rack or proximity can attach to shared devices such as storage via PCIe switches.

PCIe components (hardware and software) include:

  • Hardware chipsets, cabling, connectors, endpoints, and adapters
  • Root complex and switches, risers, extenders, retimers, and repeaters
  • Software drivers, BIOS, and management tools
  • HBAs, RAID, SSD, drives, GPU, and other AiC devices
  • Mezzanine, mini-PCIe, M.2, NVMe U.2 (8639 drive form factor)

There are many different implementations of PCIe, corresponding to generations representing speed improvements as well as physical packing options. PCIe can be deployed in various topologies, including a traditional model where an AiC such as GbE or Fibre Channel HBA connects the server to a network or storage device.

Another variation is for a server to connect to a PCIe switch, or in a shared PCIe configuration between two or more servers. In addition to different generations and topologies, there are also various PCIe form factors and physical connectors (see the following figure), ranging from AiC of various length and height, as well as M.2 small-form-factor devices and U.2 (8639) drive form-factor device for NVMe, among others.

Note that the presence of M.2 does not guarantee PCIe NVMe, as it also supports SATA.

Likewise, different NVMe devices run at various PCIe speeds based on the number of lanes. For example, in the following figure, the U.2 (8639) device (looks like a SAS device) shown is a PCIe x4.

SDDC, SDI, SDDI PCIe NVMe U.2 8639 drive fundamentals
PCIe devices NVMe U.2, M.2, and NVMe AiC. (Source: StorageIO Labs.)

PCIe leverages multiple serial unidirectional point-to-point links, known as lanes, compared to traditional PCI, which used a parallel bus design. PCIe interfaces can have one (x1), four (x4), eight (x8), sixteen (x16), or thirty-two (x32) lanes for data movement. Those PCIe lanes can be full-duplex, meaning data is sent and received at the same time, providing improved effective performance.

PCIe cards are upward-compatible, meaning that an x4 can work in an x8, an x8 in an x16, and so forth. Note, however, that the cards will not perform any faster than their specified speed; an x4 in an x8 slot will only run at x8. PCIe cards can also have single, dual, or multiple external ports and interfaces. Also, note that there are still some motherboards with legacy PCI slots that are not interoperable with PCIe cards and vice versa.

Note that PCIe cards and slots can be mechanically x1, x4, x8, x16, or x32, yet electrically (or signal) wired to a slower speed, based on the type and capabilities of the processor sockets and corresponding chipsets being used. For example, you can have a PCIe x16 slot (mechanical) that is wired for x8, which means it will only run at x8 speed.

In addition to the differences between electrical and mechanical slots, also pay attention to what generation the PCIe slots are, such as Gen 2 or Gen 3 or higher. Also, some motherboards or servers will advertise multiple PCIe slots, but those are only active with a second or additional processor socket occupied by a CPU. For example, a PCIe card that has dual x4 external PCIe ports requiring full PCIe bandwidth will need at least PCIe x8 attachment in the server slot. In other words, for full performance, the external ports on a PCIe card or device need to match the external electrical and mechanical card type and vice versa.

Recall big “B” as in Bytes vs. little “b” as in bits; for example, a PCIe Gen 3 x4 electrical could provide up to 4 GB/s bandwidth (your mileage and performance will vary), which translates to 8 × 4 GB or 32 Gbits/s. In the following table below, there is a mix of Big “B” Bytes per second and small “b” bits per second.

Each generation of PCIe has improved on the previous one by increasing the effective speed of the links. Some of the speed improvements have come from faster clock rates while implementing lower overhead encoding (e.g., from 8 b/10 b to 128 b/130 b).

For example, PCIe Gen 3 raw bit or line rate is 8 GT/s or 8 Gbps or about 2 GBps by using a 128 b/130 b encoding scheme that is very efficient compared to PCIe Gen 2 or Gen 1, which used an 8 b/10 b encoding scheme. With 8 b/10 b, there is a 20% overhead vs. a 1.5% overhead with 128 b/130 b (i.e., of 130 bits sent, 128 bits contain data, and 2 bits are for overhead).

PCIe Gen 1

PCIe Gen 2

PCIe Gen 3

PCIe Gen 4

PCIe Gen 5

Raw bit rate

2.5 GT/s

5 GT/s

8 GT/s

16 GT/s

32 GT/s

Encoding

8 b/10 b

8 b/10 b

128 b/130 b

128 b/130 b

128 b/130 b

x1 Lane bandwidth

2 Gb/s

4 Gb/s

8 Gb/s

16 Gb/s

32 Gb/s

x1 Single lane (one-way)

~250 MB/s

~500 MB/s

~1 GB/s

~2 GB/s

~4GB/s

x16 Full duplex (both ways)

~8 GB/s

~16 GB/s

~32 GB/s

~64 GB/s

~128 GB/s

Above Table: PCIe Generation and Sample Lane Comparison

Note that PCIe Gen 3 is the currently generally available shipping technology with PCIe Gen 4 appearing in the not so distant future, with PCIe Gen 5 in the wings appearing a few more years down the road.

By contrast, older generations of Fibre Channel and Ethernet also used 8 b/10 b, having switched over to 64 b/66 b encoding with 10 Gb and higher. PCIe, like other serial interfaces and protocols, can support full-duplex mode, meaning that data can be sent and received concurrently.

PCIe Bit Rate, Encoding, Giga Transfers, and Bandwidth

Let’s clarify something about data transfer or movement both internal and external to a server. At the core of a server, there is data movement within the sockets of the processors and its cores, as well as between memory and other devices (internal and external). For example, the QPI bus is used for moving data between some Intel processors whose performance is specified in giga transfers (GT).

PCIe is used for moving data between processors, memory, and other devices, including internal and external facing devices. Devices include host bus adapters (HBAs), host channel adapters (HCAs), converged network adapters (CNAs), network interface cards (NICs) or RAID cards, and others. PCIe performance is specified in multiple ways, given that it has a server processor focus which involves GT for raw bit rate as well as effective bandwidth per lane.

Note to keep in perspective PCIe mechanical as well as electrical lanes in that a card or slot may be advertised as say x8 mechanical (e.g., its physical slot form factor) yet only be x4 electrical (how many of those lanes are used or enabled). Also in the case of an adapter that has two or more ports, if the device is advertised as x8 does that mean it is x8 per port or x4 per port with an x8 connection to the PCIe bus.

Effective bandwidth per lane can be specified as half- or full-duplex (data moving in one or both directions for send and receive). Also, effective bandwidth can be specified as a single lane (x1), four lanes (x4), eight lanes (x8), sixteen lanes (x16), or 32 lanes (x32), as shown in the above table. The difference in speed or bits moved per second between the raw bit or line rate, and the effective bandwidth per lane in a single direction (i.e., half-duplex) is the encoding that is common to all serial data transmissions.

When data gets transmitted, the serializer/deserializer, or serdes, convert the bytes into a bit stream via encoding. There are different types of encoding, ranging from 8 b/10 b to 64 b/66 b and 128 b//130 b, shown in the following table.

Single 1542-byte frame

64 × 1542-byte frames

Encoding Scheme

Overhead

Data Bits

Encoding Bits

Bits Transmitted

Data Bits

Encoding Bits

Bits Transferred

8 b/10 b

20%

12,336

3,084

15,420

789,504

197,376

986,880

64 b/66 b

3%

12,336

386

12,738

789,504

24,672

814,176

128 b/130 b

1.5%

12,336

194

12,610

789,504

12,336

801,840

Above Table: Low-Level Serial Encoding Data Transmit Efficiency

In these encoding schemes, the smaller number represents the amount of data being sent, and the difference is the overhead. Note that this is different yet related to what occurs at a higher level with the various network protocols such as TCP/IP (IP). With IP, there is a data payload plus addressing and other integrity and management features in a given packet or frame.

The 8-b/10-b, 64-b/66-b or 128-b/130-b encoding is at the lower physical layer. Thus, a small change there has a big impact and benefit when optimized. Table 4.2 shows comparisons of various encoding schemes using the example of moving a single 1542-byte packet or frame, as well as sending (or receiving) 64 packets or frames that are 1542 bytes in size.

Why 1542? That is a standard IP packet including data and protocol framing without using jumbo frames (MTU or maximum transmission units).

What does this have to do with PCIe? GbE, 10-GbE, 40-GbE, and other physical interfaces that are used for moving TCP/IP packets and frames interface with servers via PCIe.

This encoding is important as part of server storage I/O tradecraft regarding understanding the impact of performance and network or resource usage. It also means understanding why there are fewer bits per second of effective bandwidth (independent of compression or deduplication) vs. line rate in either half- or full-duplex mode.

Another item to note is that looking at encoding such as the example given in the above table shows how a relatively small change at a large scale can have a big effective impact benefit. If the bits and bytes encoding efficiency and effectiveness scenario in Table 4.2 do not make sense, then try imagining 13 MINI Cooper automobiles each with eight people in it (yes, that would be a tight fit) end to end on the same road.

Now imagine a large bus that takes up much less length on the road than the 13 MINI Coopers. The bus holds 128 people, who would still be crowded but nowhere near as cramped as eight people in a MINI, plus 24 additional people can be carried on the bus. That is an example of applying basic 8-b/10-b encoding (the MINI) vs. applying 128-b/130-b encoding (the bus) and is also similar to PCIe G3 and G4, which use 128-b/130-b encoding for data movement.

PCIe Topologies

The basic PCIe topology configuration has one or more devices attached to the root complex shown in the following figure via an AiC or onboard device connector. Examples of AiC and motherboard-mounted devices that attach to PCIe root include LAN or SAN HBA, networking, RAID, GPU, NVM or SSD, among others. At system start-up, the server initializes the PCIe bus and enumerates the devices found with their addresses.

PCIe devices attach (shown in the following figure) to a bus that communicates with the root complex that connects with processor CPUs and memory. At the other end of a PCIe device is an end-point target, a PCIe switch that in turn has end-point targets attached. From a software standpoint, hypervisor or operating system device drivers communicate with the PCI devices that in turn send or receive data or perform other functions.

SDDC, SDI, SDDI PCIe fundamentals
Basic PCIe root complex with a PCIe switch or expander.

Note that in addition to PCIe AiC such as HBAs, GPU, and NVM SSD, among others that install into PCIe slots, servers also have converged storage or disk drive enclosures that support a mix of SAS, SATA, and PCIe. These enclosure backplanes have a connector that attaches to a SAS or SATA onboard port, or a RAID card, as well as to a PCIe riser card or motherboard connector. Depending on what type of drive is installed in the connector, either the SAS, SATA, or NVMe (AiC, U.2, and M2) using PCIe communication paths are used.

In addition to traditional and switched PCIe, using PCIe switches as well as nontransparent bridging (NTB), various other configurations can be deployed. These include server to server for clustering, failover, or device sharing as well as fabrics. Note that this also means that while traditionally found inside a server, PCIe can today use an extender, retimer, and repeaters extended across servers within a rack or cabinet.

A nontransparent bridge (NTB) is a point-to-point connection between two PCIe-based systems that provide electrical isolation yet functions as a transport bridge between two different address domains. Hosts on either side of the NTB see their respective memory or I/O address space. The NTB presents an endpoint exposed to the local system where writes are mirrored to memory on the remote system to allow the systems to communicate and share devices using associated device drivers. For example, in the following figure, two servers, each with a unique PCIe root complex, address, and memory map, are shown using NTB to any communication between the systems while maintaining data integrity.

SDDC, SDI, SDDI PCIe two server fundamentals
PCIe dual server example using NTB along with switches.

General PCIe considerations (slots and devices) include:

  • Power consumption (and heat dissipation)
  • Physical and software plug-and-play (good interoperability)
  • Drivers (in-the-box, built into the OS, or add-in)
  • BIOS, UEFI, and firmware being current versions
  • Power draw per card or adapters
  • Type of processor, socket, and support chip (if not an onboard processor)
  • Electrical signal (lanes) and mechanical form factor per slot
  • Nontransparent bridge and root port (RP)
  • PCI multi-root (MR), single-root (SR), and hot plug
  • PCIe expansion chassis (internal or external)
  • External PCIe shared storage

Various operating system and hypervisor commands are available for viewing and managing PCIe devices. For example, on Linux, the “lspci” and “lshw–c pci” commands displays PCIe devices and associated information. On a VMware ESXi host, the “esxcli hardware pci list” command will show various PCIe devices and information, while on Microsoft Windows systems, “device manager” (GUI) or “devcon” (command line) will show similar information.

Who Are Some PCIe Fundamentals Vendors and Service Providers

While not an exhaustive list, here is a sampling of some vendors and service providers involved in various ways with PCIe from solutions to components to services to trade groups include Amphenol (connectors and cables), AWS (cloud data infrastructure services), Broadcom (PCIe components), Cisco (servers), DataOn (servers), Dell EMC (servers, storage, software), E8 (storage software), Excelero (storage software), HPE (storage, servers), Huawei (storage, servers), IBM, Intel (storage, servers, adapters), Keysight (test equipment and tools).

Others include Lenovo (servers), Liqid (composable data infrastructure), Mellanox (server and storage adapters), Micron (storage devices), Microsemi (PCIe components), Microsoft (Cloud and Software including S2D), Molex (connectors, cables), NetApp, NVMexpress.org (NVM Express trade group organizations), Open Compute Project (server, storage, I/O network industry group), Oracle, PCISIG (PCIe industry trade group), Samsung (storage devices), ScaleMP (composable data infrastructure), Seagate (storage devices), SNIA (industry trade group), Supermicro (servers), Tidal (composable data infrastructure), Vantar (formerly known as HDS), VMware (Software including vSAN), and WD among others.

Where To Learn More

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

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

Software Defined Data Infrastructure Essentials Book SDDC

What This All Means

PCIe fundamentals are resources for building legacy and software-defined data infrastructures (SDDI), software-defined infrastructures (SDI), data centers and other deployments from laptop to large scale, hyper-scale cloud service providers. Learn more about Servers: Physical, Virtual, Cloud, and Containers in chapter 4 of my new book Software Defined Data Infrastructure Essentials (CRC Press 2017) Available via Amazon.com and other global venues. Meanwhile, PCIe fundamentals continues to evolve as a Server, Storage, I/O networking fundamental component.

Ok, nuff said, for now.
Gs

Greg Schulz – Microsoft MVP Cloud and Data Center Management, VMware vExpert 2010-2017 (vSAN and vCloud). Author of Software Defined Data Infrastructure Essentials (CRC Press), as well as Cloud and Virtual Data Storage Networking (CRC Press), The Green and Virtual Data Center (CRC Press), Resilient Storage Networks (Elsevier) and twitter @storageio.

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

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

Updated Software Defined Data Infrastructure Webinars and Fall 2016 events

Software Defined Data Infrastructure Webinars and Fall 2016 events

server storage I/O trends

Here is the updated Server StorageIO fall 2016 webinar and event activities covering software defined data center, data infrastructure, virtual, cloud, containers, converged, hyper-converged server, storage, I/O network, performance and data protection among other topics.

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

Hyper-Converged Infrastructure, HCI and CI Decision Making

Are Converged Infrastructures (CI), Hyper-Converged Infrastructures (HCI), Cluster in Box or Cloud in Box (CiB) solutions for you? The answer is it depends on what your needs, requirements, application among other criteria are. In addition are you focused on a particular technology solution or architecture approach, or, looking for something that adapts to your needs? Join us in this discussion exploring your options for different scenarios as we look beyond they hype including to next wave of hyper-scale converged along with applicable decision-making criteria. Topics include:

– Data Infrastructures exist to support applications and their underlying resource needs
– What are your application and environment needs along with other objectives
– Explore various approaches for hyper-small and hyper-large environments
– What are you converging, hardware, hypervisors, management or something else?
– Does HCI mean hyper-vendor-lock-in, if so, is that a bad thing?
– When, where, why and how to use different scenarios

November 29-30, 2016 (New) – Converged & Hyper-Converged Decision Making
Is Converged Infrastructure Right For You?
Workshop Seminar – Nijkerk The Netherlands

Converged and server storage I/O data infrastructure trends
Agenda and topics to be covered include:

  • When should decide to evaluate CI/HCI vs. traditional approach
  • What are decision and evaluation criteria for apples to apples vs. Apples to pears
  • What are the costs, benefits, and caveats of the different approaches
  • How different applications such as VDI or VSI or database have different needs
  • What are the network, storage, software license and training cost implications
  • Different comparison criteria for smaller environments remote office vs. Larger enterprise
  • How will you protect and secure a CI, HCI environment (HA, BC, BR, DR, Backup)
  • What is the risk and benefit of startups, companies with limited portfolios vs. Big vendors
  • Do it yourself (DiY) vs. Turnkey software vs. Bundled tin wrapped software solution
  • We will also look at associated trends including software-defined, NVM/SSD, NVMe, VMware, Microsoft, KVM, Citrix/Xen, Docker, OpenStack among others.

Organized by:
Brouwer Storage Consultancy

November 28, 2016 (New) – Server Storage I/O Fundamental Trends V2.1116
Whats New, Whats the buzz, what you need to know about and whos doing what
Workshop Seminar – Nijkerk The Netherlands

Converged and server storage I/O data infrastructure trends
Agenda and topics that will be covered include:

  • Who’s doing what, who are the new emerging vendors, solutions and technologies to watch
  • Non-Volatile Memory (NVM), flash solid state device (SSD), Storage Class Memory (SCM)
  • Networking with your servers and storage including NVMe, NVMeoF and RoCE
  • Cloud, Object and Bulk storage for data protection, archiving, near-line, scale-out
  • Data protection and software defined storage management (backup, BC, BR, DR, archive)
  • Microsoft Windows Server 2016, Nano, S2D and Hyper-V
  • VMware, OpenStack, Ceph, Docker and Containers, CI and HCI
  • EMC is gone, now there is Dell EMC and what that means
  • Various vendors and solutions from legacy to new and emerging
  • Recommendations, usage or deployment scenarios and tips
  • Some examples of who’s doing what includes AWS, Brocade, Cisco, Dell EMC, Enmotus, Futjistu, Google, HDS, HP and Huawei, IBM, Intel, Lenovo, Mellanox, Micron, Microsoft, NetApp, Nutanix, Oracle, Pure, Quantum, Qumulo, Reduxio, Rubrik, Samsung, SANdisk, Seagate, Simplivity and Tintri, Veeam, Veritas, VMware and WD among others.

Organized by:
Brouwer Storage Consultancy

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

BC DR Cloud Backup and Data Protection

The answer is BCDR and Cloud Backup, however what was the question? Besides how to protect preserve and secure your data, applications along with data Infrastructures against various threat risk issues, what are some other common questions? For example how to modernize, rethink, re-architect, use new and old things in new ways, these and other topics, techniques, trends, tools have a common theme of BCDR and Cloud Backup. Join us in this discussion exploring your options for protecting data, applications and your data Infrastructures spanning legacy, software-defined virtual and cloud environments. Topics include:

– Data Infrastructures exist to support applications and their underlying resource needs
– Various cloud storage options to meet different application PACE needs
– Do clouds need to be backed-up or protected?
– How to leverage clouds for various data protection objectives
– When, where, why and how to use different scenarios

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

Cloud Storage Decision Making

You have been told, or determined that you need (or want) to use cloud storage, ok, now what? What type of cloud storage do you need or want, or do you simply want cloud storage? However, what are your options as well as application requirements including Performance, Availability, Capacity and Economics (PACE) along with access or interfaces? Where are your applications and where will they be located? What are your objectives for using cloud storage or is it simply you have heard or told its cheaper. Join us in this discussion exploring your options, considerations for cloud storage decision-making. Topics include:

– Data Infrastructures exist to support applications and their underlying resource needs
– Various cloud storage options to meet different application PACE needs
– Storage for primary, secondary, performance, availability, capacity, backup, archiving
– Public, private and hybrid cloud storage options from block, file, object to application service
– When, where, why and how to use cloud storage for different scenarios

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

Cloud Infrastructure and Hybrid Software Defined

At the core of cloud (public, private, hybrid) next generation data centers are software defined data infrastructures that exist to protect, preserve and serve applications, data along with their resulting information services. Software defined data infrastructure core components include hardware, software servers and storage configured (defined) to provide various services enabling application Performance Availability Capacity and Economics (PACE). Just as there are different types of environments, applications along with workloads various options, technologies as well as techniques exist for cloud services (and underlying data infrastructures). Join us in this session to discuss trends, technologies, tools, techniques and services options for cloud infrastructures. Topics include:

– Data Infrastructures exist to support applications and their underlying resource needs
– Software Defined Infrastructures (SDDI) are what enable Software Defined Data Centers and clouds
– Various types of clouds along with cloud services that determine how resources get defined
– When, where, why and how to use cloud Infrastructures along with associated resources

November 15, 2016 (New) – 11AM PT Webinar – Redmond Magazine and Solarwinds
The O.A.R. of Virtualization Scaling
A journey of optimization, automation, and reporting

Your journey to a flexible, scalable and secure IT universe begins now. Join Microsoft MVP and VMware vSAN and vExpert Greg Schulz of Server StorageIO along with VMware vExpert, Cisco Champion and Head Geek of Virtualization and Cloud Practice Kong Yang of SolarWinds for an interactive discussion empowering you to become the master of your software defined and virtual data center. Topics will include:

  • Trust your instruments and automation, however, verify they are working properl
  • Insight into how your environment, as well as automation tools, are working
  • Leverage automation to handle recurring tasks so you can focus on more productive activities
  • Capture, retain and transfer knowledge and tradecraft experiences into automation policies
  • Automated system management is only as good as the policies and data they rely upon
  • Optimize via automation that relies on reporting for insight, awareness and analytics 

November 3, 2016 (New) – Webinar 11AM PT – Redmond Magazine and
Dell Software
Tailor Your Backup Data Repositories to
Fit Your Security and Management Needs

Does data protection storage have you working overtime to take care of it? Do you have the flexibility to protect, preserve, secure and serve different workgroups or customers in a shared environment? Is your environment looking to expand with new applications and remote offices, yet your data protection is slowing you down? 

In this webinar we will look at current and emerging trends along with issues including how different threat risk challenges impact your evolving environment, as well as opportunities to address them. It’s time to deploy technology that works for you and your environment instead of you working for the solution. 

Attend and learn about:

  • Data protection trends, issues, regulatory compliance, challenges and opportunities
  • How to utilize purpose built appliances to protect and defend your systems, applications and data from various threat risks
  • Importance of timely insight and situational awareness into your data protection infrastructure
  • Protecting centralized and distributed remote office branch offices (ROBO) workgroups
  • What you can do today to optimize your environment

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

This webinar looks at the value of data center infrastructure insight both as a technology as well as a business productivity enabler. Besides productivity, having insight into how data infrastructure resources (servers, storage, networks, system software) are used, enables informed analysis, troubleshooting, planning, forecasting as well as cost-effective decision-making. In other words, data center infrastructure insight, based on infrastructure performance analytics, enables you to avoid flying blind, having situational awareness for proactive Information Technology (IT) management. Your return on innovation is increased, and leveraging insight awareness along with metrics that matter drives return on investment (ROI) along with enhanced service delivery.

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

Cloud Storage Decision Making

At the core of next generation data centers are software defined data infrastructures that enable, protect, preserve and serve applications, data along with their resulting information services. Software defined data infrastructure core components include hardware, software servers and storage configured (defined) to provide various services enabling application Performance Availability Capacity and Economics (PACE). Just as there are different types of environments, applications along with workloads various options, technologies as well as techniques exist for virtual servers and storage. Join us in this session to discuss trends, technologies, tools, techniques and services around storage and virtualization for today, tomorrow, and in the years to come. Topics include:

– Data Infrastructures exist to support applications and their underlying resource needs
– Software Defined Infrastructures (SDDI) are what enable Software Defined Data Centers
– Server and Storage Virtualization better together, with and without CI/HCI
– Many different facets (types) of Server virtualization and virtual storage
– When, where, why and how to use storage virtualization and virtual storage

September 20, 2016 – Webinar 8AM PT – BrightTalk
Software Defined Data Infrastructures (SDDI) Enabling Software Defined Data Centers – Part of Software-Defined Storage summit

Cloud Storage Decision Making

Data Infrastructures exist to support applications and their underlying resource needs. Software-Defined Infrastructures (SDI) are what enable Software-Defined Data Centers, and at the heart of a SDI is storage that is software-defined. This spans cloud, virtual and physical storage and is at the focal point of today. Join us in this session to discuss trends, technologies, tools, techniques and services around SDI and SDDC- today, tomorrow, and in the years to come.

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

Windows Server 2016 is expected to GA this fall and is a modernized version of the Microsoft operating system that includes new capabilities such as Active Directory (AD) enhancements. AD is critical to organizational operations providing control and secure access to data, networks, servers, storage and more from physical, virtual and cloud (public and hybrid). But over time, organizations along with their associated IT infrastructures have evolved due to mergers, acquisitions, restructuring and general growth. As a result, yesterday’s AD deployments may look like they did in the past while using new technology (e.g. in old ways). Now is the time to start planning for how you will optimize your AD environment using new tools and technologies such as those in Windows Server 2016 and AD in new ways. Optimizing AD means having a new design, performing cleanup and restructuring prior to migration vs. simply moving what you have. Join us for this interactive webinar to begin planning your journey to Windows Server 2016 and a new optimized AD deployment that is flexible, scalable and elastic, and enables resilient infrastructures. You will learn:

  • What’s new in Windows Server 2016 and how it impacts your AD
  • Why an optimized AD is critical for IT environments moving forward
  • How to gain insight into your current AD environment
  • AD restructuring planning considerations

September 8, 2016 – Webinar 11AM PT (Watch on Demand) – Redmond Magazine, Acronis and Unitrends
Data Protection for Modern Microsoft Environments

Your organization’s business depends on modern Microsoft® environments — Microsoft Azure and new versions of Windows Server 2016, Microsoft Hyper-V with RCT, and business applications — and you need a data protection solution that keeps pace with Microsoft technologies. If you lose mission-critical data, it can cost you $100,000 or more for a single hour of downtime. Join our webinar and learn how different data protection solutions can protect your Microsoft environment, whether you store data on company premises, at remote locations, in private and public clouds, and on mobile devices.

Where To Learn More

What This All Means

Its fall back to school and learning time, join me on these and other upcoming event activities.

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

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

July 2014 Server and StorageIO Update newsletter


Server and StorageIO Update newsletter – July 2014

Welcome to the July 2014 edition of the StorageIO Update (newsletter) containing trends perspectives on cloud, virtualization and data infrastructure topics. For some of you it is mid summer (e.g. in the northern hemisphere) while for others it mid-winter (southern hemisphere). Here in the Stillwater MN area it is mid-summer which means enjoying the warm outdoor weather as well as getting ready for the busy late summer and early fall 2014 schedule of events including VMworld among others. Starting in this edition there are a couple of new and expanded sections including Technology tips and tools and the return of Just For Fun.

Greg Schulz Storage I/OGreg Schulz @StorageIO

Lets jump into this mid-summer, or for some of you mid-winter edition of the StorageIO Update newsletter.

Industry and Technology Updates

StorageIO Industry Trends and Perspectives

Following up from our June 2014 Newsletter that included coverage of NetApp and Avago selling its newly acquired (via LSI acquisition) flash storage division to Seagate, along with other activity, here are some current industry activities. From a flash memory and solid state device (SSD) perspective, the flash memory summit (FMS) is occurring in Santa Clara the week of August 5, 2014. Having insight under NDA into some of the many announcements as well as other things occurring, keep an eye out for various news from the FMS event.

EMC MegaLaunch and MegaActivist Investor

In addition to their recent MegaLaunch series of product announcements and updates, EMC is also in the news as it comes under pressure from activist investor Hedge fund Elliot Management Corp to spin-off VMware to increase shareholder value. What would a spin-off of VMware mean for customers of the EMC federation of EMC core technologies, VMware and Pivotal labs if the activists get their way? Here are some additional comments and perspectives via CruxialCIO. Click here to view the recent (July 23, 2014) earnings announcement for a summary of how EMC is doing in the market and financially.

Speaking of EMC MegaLaunch on July 8, 2014, EMC also announced enhancements and new models of their Isilon scale out storage, new VMAX3 models with embedded virtualization and other enhancements, XtremeIO 3.0 and new models among other enhancements. EMC also announced the general availability of some previously announced at EMCworld (May 2014) solutions including Elastic Cloud Storage (ECS) and VIPR 2.0 along with SRM 2.0 among other items. For those not familiar with EMC ViPR Software Defined Storage Management you can read more here, here, here and here.

What’s in the works?

Several projects and things are in the works that will show themselves in the coming weeks or months if not sooner. Some of which are more proof points coming out of the StorageIO labs involving software defined, converged, cloud, virtual, SSD, cache software, data protection and more.

Speaking of Software Defined, join me for a free Webinar on August 7 Hardware agnostic Virtual SAN for VMware ESXi Free (sponsored by Starwind Software). Other upcoming webinars include BackupU Summer Semester series (Sponsored by Dell Software) where we continue Exploring the Data Protection Toolbox. August also means VMworld in San Francisco so see you there. Check out the activities calendar below and at our main website to learn about these and other events.

Watch for more StorageIO posts, commentary, perspectives, presentations, webinars, tips and events on information and data infrastructure topics, themes and trends. Data Infrastructure topics include among others cloud, virtual, legacy server, storage I/O networking, data protection, hardware and software.

Enjoy this edition of the StorageIO Update newsletter and look forward to catching up with you live or online while out and about this summer.

StorageIO comments and perspectives in the news

StorageIO in the news

The following is a synopsis of some StorageIOblog posts, articles and comments in different venues on various industry trends, perspectives and related themes about clouds, virtualization, data and storage infrastructure topics among related themes.

NetworkComputing: Comments on Data Backup: Beyond Band-Aids
StorageNewsletter: Comments on Unified Storage Appliance Buying Guide
Forbes: Comments on Big Data and Enterprise Information Management
Toms Hardware: Comments on Server SAN: Demystifying Today’s Newest Storage Buzzword
CruxialCIO: Comments on EMC Bridges Cloud, On-Premise Storage With TwinStrata Buy
ComputerWeekly: Comments on Backup vs archive: Can they be merged?
CruxialCIO: Comments on EMC under pressure to spin-off VMware
EnterpriseStorageForum: Comments on Unified Storage and buyers guide tips

StorageIO video and audio pod casts

StorageIOblog postStorageIOblog post
StorageIO audio pod casts are also available via
and at StorageIO.tv

StorageIOblog posts and perspectives

StorageIOblog post

  • AWS adds Zocalo Enterprise File Sync Share and Collaboration
  • June 2014 Server and StorageIO Update newsletter
  • Remember to check out our objectstoragecenter.com page where you will find a growing collection of information and links on cloud and object storage themes, technologies and trends from various sources.

    If you are interested in data protection including Backup/Restore, BC, DR, BR and Archiving along with associated technologies, tools, techniques and trends visit our storageioblog.com/data-protection-diaries-main/ page.

    StorageIO events and activities

    Server and StorageIO seminars, conferences, web cats, events, activities

    The StorageIO calendar continues to evolve including several new events being added for August and well into the fall with more in the works. Here are some recent and upcoming activities including live in-person seminars, conferences, keynote and speaking activities as well as on-line webinars, twitter chats, Google+ hangouts among others.

    October 10, 2014 Seminar: Server, Storage and IO Data Center Virtualization JumpstartNijkerk Holland
    Netherlands
    October 9, 2014 Seminar: Data Infrastructure Industry Trends and Perspectives – What’s The BuzzNijkerk Holland
    Netherlands
    October 8, 2014 Private Seminar – Contact Brouwer Storage ConsultancyNijkerk Holland
    Netherlands
    Sep. 2, 2014Dell BackupUExploring the Data Protection Toolbox – Data and Application ReplicationOnline Webinar
    11AM PT
    August 25-28, 2014VMworldVarious ActivitiesSan Francisco
    Aug. 21, 2014 BrightTalkSAN, LAN, MAN, WAN, POTS & PANs – How you CAN network your servers & storage beyond the cable?

    Webinar
    11AM PT
    Aug. 20, 2014TBASoftware Defined Data CentersTBA
    1:30PM CT
    Aug. 19, 2014Dell BackupUExploring the Data Protection Toolbox – The ABCDs of DFR (Data Footprint Reduction), part IIGoogle+ Hangout
    9AM PT
    Aug. 13, 2014 BrightTalkWhat is Your Virtualization Optimization Objective?Webinar
    1PM PT
    Aug. 7, 2014Starwind SoftwareLive webinar: Hardware agnostic Virtual SAN for VMware ESXi FreeWebinar
    1PM CT
    Aug. 5, 2014Dell BackupUExploring the Data Protection Toolbox – The ABCDs of DFR (Data Footprint Reduction), part IIOnline Webinar
    11AM PT

    Click here to view other upcoming along with earlier event activities. Watch for more 2014 events to be added soon to the StorageIO events calendar page. Topics include data protection modernization (backup/restore, HA, BC, DR, archive), data footprint reduction (archive, compression, dedupe), storage optimization, SSD, object storage, server and storage virtualization, big data, little data, cloud and object storage, performance and management trends among others.

    Vendors, VAR’s and event organizers, give us a call or send an email to discuss having us involved in your upcoming pod cast, web cast, virtual seminar, conference or other events.

    Server and StorageIO Technology Tips and Tools

    Server and StorageIO seminars, conferences, web cats, events, activities

    FedTech:  Use a VPN for More than Remote Access
    InfoStor:  Data Archiving: Life Beyond Compliance

    Just for fun and on a lighter note

    Wrapping up this edition of the StorageIO Update newsletter is the return of the Just for fun and on a lighter note section where we share something non IT related. In this edition how about summertime backyard home video taken a few weeks ago? Check out this video of a black bear and her two cubs walking in, well, my backyard. First you will see Big Mama Bear, then Yogi Jr. that appear from the left, followed by baby Boo Boo also from the left.

    Backyard Black Bears
    Video courtesy of KarenofArcola – Click on image to view

    StorageIO Update Newsletter Archives

    Click here to view earlier StorageIO Update newsletters (HTML and PDF versions) at www.storageio.com/newsletter. Subscribe to this newsletter (and pass it along) by clicking here (Via Secure Campaigner site). View archives of past StorageIO update news letters as well as download PDF versions at: www.storageio.com/newsletter

    Ok, nuff said (for now)

    Cheers
    Gs

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

    twitter @storageio

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