Past infrastructures provided compute, storage and network enabling static enterprise deployments which changed every few years. This talk will analyze the consequences of a world where production SAP and Spark clusters including data can be provisioned in minutes with the push of a button.
What does it mean for the IT architecture of an enterprise? How to stay in control in a super agile world?
RecordedNov 9 201648 mins
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Sathish Gnanasekaran, Broadcom; John Kim, Mellanox; J Metz, Cisco; Tim Lustig, Mellanox
For a long time, the architecture and best practices of storage networks have been relatively well-understood. Recently, however, advanced capabilities have been added to storage that could have broader impacts on networks than we think.
The three main storage network transports - Fibre Channel, Ethernet, and InfiniBand – all have mechanisms to handle increased traffic, but they are not all affected or implemented the same way. For instance, placing a protocol such as NVMe over Fabrics can mean very different things when looking at one networking method in comparison to another.
Unfortunately, many network administrators may not understand how different storage solutions place burdens upon their networks. As more storage traffic traverses the network, customers face the risk of congestion leading to higher-than-expected latencies and lower-than expected throughput. Watch this webinar to learn:
•Typical storage traffic patterns
•What is Incast, what is head of line blocking, what is congestion, what is a slow drain, and when do these become problems on a network?
•How Ethernet, Fibre Channel, InfiniBand handle these effects
•The proper role of buffers in handling storage network traffic
•Potential new ways to handle increasing storage traffic loads on the network
David Chalupsky, Intel; Craig Carlson, Marvell; Peter Onufryck, Microchip; John Kim, Mellanox
In the short period from 2014-2018, Ethernet equipment vendors have announced big increases in line speeds, shipping 25, 50, and 100 Gigabits-per -second (Gb/s) speeds and announcing 200/400 Gb/s. At the same time Fibre Channel vendors have launched 32GFC, 64GFC and 128GFC technology while InfiniBand has reached 200Gb/s (called HDR) speeds.
But who exactly is asking for these faster new networking speeds, and how will they use them? Are there servers, storage, and applications that can make good use of them? How are these new speeds achieved? Are new types of signaling, cables and transceivers required? How will changes in PCIe standards keep up? And do the faster speeds come with different distance limitations?
Watch this SNIA Networking Storage Forum (NSF) webcast to learn how these new speeds are achieved, where they are likely to be deployed for storage, and what infrastructure changes are needed to support them.
Alan Bumgarner, Intel; Alex McDonald, NetApp; John Kim, Mellanox
Traditionally, much of the IT infrastructure that we’ve built over the years can be divided fairly simply into storage (the place we save our persistent data), network (how we get access to the storage and get at our data) and compute (memory and CPU that crunches on the data). In fact, so successful has this model been that a trip to any cloud services provider allows you to order (and be billed for) exactly these three components.
We build effective systems in a cost-optimal way by using appropriate quantities of expensive and fast memory (DRAM for instance) to cache our cheaper and slower storage. But currently fast memory has no persistence at all; it’s only storage that provides the application the guarantee that storing, modifying or deleting data does exactly that.
Memory and storage differ in other ways. For example, we load from memory to registers on the CPU, perform operations there, and then store the results back to memory by using byte addresses. This load/store technology is different from storage, where we tend to move data back and fore between memory and storage in large blocks, by using an API (application programming interface).
New memory technologies are challenging these assumptions. They look like storage in that they’re persistent, if a lot faster than traditional disks or even Flash based SSDs, but we address them in bytes, as we do memory like DRAM, if more slowly. Persistent memory (PM) lies between storage and memory in latency, bandwidth and cost, while providing memory semantics and storage persistence. In this webcast, SNIA experts will discuss:
•Traditional uses of storage and memory as a cache
•How can we build and use systems based on PM?
•What would a system with storage, persistent memory and DRAM look like?
•Do we need a new programming model to take advantage of PM?
•Interesting use cases for systems equipped with PM
•How we might take better advantage of this new technology
Scott Sinclair, ESG; Michelle Tidwell, IBM, Mike Jochimsen, Kaminario; Eric Lakin, Univ. of Michigan; Alex McDonald, NetApp
Has hybrid cloud reached a tipping point? According to research from the Enterprise Strategy Group (ESG), IT organizations today are struggling to strike the right balance between public cloud and their on-premises infrastructure. In this SNIA webcast, ESG senior analyst, Scott Sinclair, will share research on current cloud trends, covering:
•Key drivers behind IT complexity
•IT spending priorities
•Multi-cloud & hybrid cloud adoption drivers
•When businesses are moving workloads from the cloud back on-premises
•Top security and cost challenges
•Future cloud projections
The research will be followed by a panel discussion with Scott Sinclair and SNIA cloud experts Alex McDonald, Michelle Tidwell, Mike Jochimsen and Eric Lakin.
Yamini Shastry, Viavi Solutions; David Rodgers, Teledyne LeCroy; Joe Kimpler, ATTO Technology
In the FCIA webcast “Protocol Analysis for High-Speed Fibre Channel Fabrics” experts covered the basics on protocol analysis tools and how to incorporate them into the “best practices” application of SAN problem solving.
Our experts return for this 201 course which will provide a deeper dive into how to interpret the output and results from the protocol analyzers. We will also share insight into using signal jammers and how to use them to correlate error conditions to be able to formulate real time solutions.
Root cause analysis requirements now encompass all layers of the fabric architecture, and new storage protocols that usurp the traditional network stack (i.e. FCoE, iWARP, NVMe over Fabrics, etc.) complicate analysis, so a well-constructed “collage” of best practices and effective and efficient analysis tools must be developed. In addition, in-depth knowledge of how to decipher the analytical results and then determine potential solutions is critical.
Join us for a deeper dive into Protocol Analysis tools and how to interpret the analytical output from them. We will review:
•Inter switch links (ISL) – How to measure and minimize fabric congestion
•Post-capture analysis – Graphing, Trace reading, Performance metrics
•Benefits of purposeful error injection
•More Layer 2-3 and translation layers debug
•Link Services and Extended Link Services - LRR Link Ready Rests
You can watch the 1st webcast on this topic on-demand at http://bit.ly/2MxsWR7
Alex McDonald, Vice-Chair SNIA Europe, and Office of the CTO, NetApp; Paul Talbut, SNIA Europe General Manager
We’re all accustomed to transferring money from one bank account to another; a credit to the payer becomes a debit to the payee. But that model uses a specific set of sophisticated techniques to accomplish what appears to be a simple transaction. We’re also aware of how today we can order goods online, or reserve an airline seat over the Internet. Or even simpler, we can update a photograph on Facebook. Can these applications use the same models, or are new techniques required?
One of the more important concepts in storage is the notion of transactions, which are used in databases, financials, and other mission critical workloads. However, in the age of cloud and distributed systems, we need to update our thinking about what constitutes a transaction. We need to understand how new theories and techniques allow us to undertake transactional work in the face of unreliable and physically dispersed systems. It’s a topic full of interesting concepts (and lots of acronyms!). In this webcast, we’ll provide a brief tour of traditional transactional systems and their use of storage, we’ll explain new application techniques and transaction models, and we’ll discuss what storage systems need to look like to support these new advances.
And yes, we’ll explain all the acronyms and nomenclature too.
You will learn:
• A brief history of transactional systems from banking to Facebook
• How the Internet and distributed systems have changed and how we view transactions
• An explanation of the terminology, from ACID to CAP and beyond
• How applications, networks & particularly storage have changed to meet these demands
Alex McDonald, SNIA SSSI Co-Chair (Moderator), Tom Coughlin, Coughlin Associates, Motti Beck, Mellanox Technologies
Join SNIA Solid State Storage Initiative (SSSI) Education Chair and leading analyst Tom Coughlin and SSSI member Motti Beck of Mellanox Technologies for a journey into the requirements and trends in worldwide data storage for entertainment content acquisition, editing, archiving, and digital preservation. This webcast will cover capacity and performance trends and media projections for direct attached storage, cloud, and near-line network storage. It will also include results from a long-running digital storage survey of media and entertainment professionals. Learn what is needed for digital cinema, broadcast, cable, and internet applications and more.
This webcast will present an overview of scale-out file system architectures. To meet the increasingly higher demand on both capacity and performance in large cluster computing environments, the storage subsystem has evolved toward a modular and scalable design. The scale-out file system is one implementation of the trend, in addition to scale-out object and block storage solutions. This presentation will provide an introduction to scale-out-file systems and cover:
•General principles when architecting a scale-out file system storage solution
•Hardware and software design considerations for different workloads
•Storage challenges when serving a large number of compute nodes, e.g. name space consistency, distributed locking, data replication, etc.
•Use cases for scale-out file systems
•Common benchmark and performance analysis approaches
After you watch the webcast, check-out the Q&A blog at http://bit.ly/2EWqXQO
Don Deel, NetApp, SNIA; Moderated by Richelle Ahlvers, Broadcom, SNIA
Tools for speeding your implementation of the next-generation storage management standard
The SNIA Swordfish™ specification for the management of storage systems and data services is an extension of the DMTF Redfish® specification. Together, these specifications provide a unified approach for the management of servers and storage in converged, hyper-converged, hyperscale and cloud infrastructure environments.
To help speed your Swordfish development efforts, SNIA has produced open source storage management tools available now on GitHub for your use. Join this session for an overview of these open source tools, which include a Swordfish API Emulator, a Swordfish Basic Web Client, an example Swordfish plugin for the Microsoft Power BI business analytics service, and an example Swordfish plugin for the Datadog monitoring service.
Containers are a big trend in application deployment. The landscape of containers is moving fast and constantly changing, with new standards emerging every few months. Learn what’s new, what to pay attention to, and how to make sense of the ever-shifting container landscape.
This live webcast will cover:
•Container storage types and Container Frameworks
•An overview of the various storage APIs for the container landscape
•How to identify the most important projects to follow in the container world
•The Container Storage Interface spec and Kubernetes 1.13
•How to get involved in the container community
After you watch the webcast, check out the Q&A blog at http://bit.ly/2GPkFET
Patty Driever, IBM; Howard Johnson, Broadcom; Joe Kimpler, ATTO Technologies
FICON (Fibre Channel Connection) is an upper-level protocol supported by mainframe servers and attached enterprise-class storage controllers that utilizes Fibre Channel as the underlying transport.
The FCIA FICON 101 webcast (on-demand at http://bit.ly/FICON101) described some of the key characteristics of the mainframe and how FICON satisfies the demands placed on mainframes for reliable and efficient access to data. FCIA experts gave a brief introduction into the layers of architecture (system/device and link) that the FICON protocol bridges. Using the FICON 101 session as a springboard, our experts return for FICON 201 where they will delve deeper into the architectural flow of FICON and how it leverages Fibre Channel to be an optimal mainframe transport.
Join this live FCIA webcast where you’ll learn:
- How FICON (FC-SB-x) maps onto the Fibre Channel FC-2 layer
- The evolution of the FICON protocol optimizations
- How FICON adapts to new technologies
Christine McMonigal, Intel; J Metz, Cisco; Alex McDonald, NetApp
“Why can’t I add a 33rd node?”
One of the great advantages of Hyperconvergence infrastructures (also known as “HCI”) is that, relatively speaking, they are extremely easy to set up and manage. In many ways, they’re the “Happy Meals” of infrastructure, because you have compute and storage in the same box. All you need to do is add networking.
In practice, though, many consumers of HCI have found that the “add networking” part isn’t quite as much of a no-brainer as they thought it would be. Because HCI hides a great deal of the “back end” communication, it’s possible to severely underestimate the requirements necessary to run a seamless environment. At some point, “just add more nodes” becomes a more difficult proposition.
In this webinar, we’re going to take a look behind the scenes, peek behind the GUI, so to speak. We’ll be talking about what goes on back there, and shine the light behind the bezels to see:
•The impact of metadata on the network
•What happens as we add additional nodes
•How to right-size the network for growth
•Tricks of the trade from the networking perspective to make your HCI work better
Now, not all HCI environments are created equal, so we’ll say in advance that your mileage will necessarily vary. However, understanding some basic concepts of how storage networking impacts HCI performance may be particularly useful when planning your HCI environment, or contemplating whether or not it is appropriate for your situation in the first place.
After you watch the webcast, check out the Q&A blog at http://bit.ly/2Va4wwH
When it comes to storage, a byte is a byte is a byte, isn’t it? One of the enduring truths about simplicity is that scale makes everything hard, and with that comes complexity. And when we’re not processing the data, how do we store it and access it?
In this webcast, we will compare three types of data access: file, block and object storage, and the access methods that support them. Each has its own set of use cases, and advantages and disadvantages. Each provides simple to sophisticated management of the data, and each makes different demands on storage devices and programming technologies.
Perhaps you’re comfortable with block and file, but are interested in investigating the more recent class of object storage and access. Perhaps you’re happy with your understanding of objects, but would really like to understand files a bit better, and what advantages or disadvantages they have compared to each other. Or perhaps you want to understand how file, block and object are implemented on the underlying storage systems – and how one can be made to look like the other, depending on how the storage is accessed. Join us as we discuss and debate:
•How different types of storage drive different management & access solutions
•Where everything is in fixed-size chunks
•SCSI and SCSI-based protocols, and how FC and iSCSI fit in
•When everything is a stream of bytes
•NFS and SMB
•When everything is a blob
•HTTP, key value and RESTful interfaces
•When files, blocks and objects collide
Cloud computing innovation will power enterprise transformation in 2018. Cloud growth is also driving a rapid rise in the big data storage market, exacerbating the enterprise challenge around storage cost and complexity.
Join this webinar with Kevin L. Jackson, CEO, GovCloud Network LLC and globally recognized cloud computing thought leader. He will show how Cloud Storage 2.0 can be used to address this proliferation of real-time data from the web, mobile devices, social media, sensors, log files, and transactional applications, and how all of these are affecting today's data centers.
Ian Smith, CEO and Reuben Thompson, VP Technology, Gospel Technology
Join this webcast with Ian Smith, CEO and Reuben Thompson, VP Technology at Gospel Technology, as they discuss:
- Private enterprise blockchains vs public ecosystems (i.e. crypto)
- Enabling data transactional trust without compromising speed
- How blockchain can be used to store and protect data
Gospel is an enterprise data platform built on blockchain, providing data storage for the distributed era, as well as enterprise data security and data breach avoidance.
About the speakers:
Ian is a serial entrepreneur and experienced enterprise technology executive, at one point holding a VP Product Management role for IBM Storage, and has been involved in solving some of the largest and most complex infrastructure and data problems in enterprise business.
Reuben is responsible for all Gospel platform development and has extensive experience of managing large-scale software projects, scalable, distributed, service-oriented software architectures, and satisfying complex and divergent compliance requirements (FCA, PCI, etc).
Sagi Grimberg, Lightbits; J Metz, Cisco; Tom Reu, Chelsio
In the storage world, NVMe™ is arguably the hottest thing going right now. Go to any storage conference – either vendor- or vendor-neutral, and you’ll see NVMe as the latest and greatest innovation. It stands to reason, then, that when you want to run NVMe over a network, you need to understand NVMe over Fabrics (NVMe-oF).
TCP – the long-standing mainstay of networking – is the newest transport technology to be approved by the NVM Express organization. This can mean really good things for storage and storage networking – but what are the tradeoffs?
In this webinar, the lead author of the NVMe/TCP specification, Sagi Grimberg, and J Metz, member of the SNIA and NVMe Boards of Directors, will discuss:
•What is NVMe/TCP
•How NVMe/TCP works
•What are the trade-offs?
•What should network administrators know?
•What kind of expectations are realistic?
•What technologies can make NVMe/TCP work better?
After the webcast, check out the Q&A blog http://sniaesfblog.org/author-of-nvme-tcp-spec-answers-your-questions/
Petros Koutoupis, Senior Platform Architect, IBM Cloud Object Storage
NVMe adoption has taken the Data Center by storm. And while the technology has proven itself to outperform all other competing SSD implementation, it is still quite limited and restricted to the local server it is attached to. This is where NVMe Targets come into the picture. In this presentation, we will explore how NVMe devices can be exported across a network and attached to remote server nodes.
Cody Hosterman, Pure Storage; Jason Massae, VMware; J Metz, Cisco
With all the different storage arrays and connectivity protocols available today, knowing the best practices can help improve operational efficiency and ensure resilient operations. VMware’s storage global service has reported many of the common service calls they receive. In this webcast, we will share those insights and lessons learned by discussing:
- Common mistakes when setting up storage arrays
- Why iSCSI is the number one storage configuration problem
- Configuring adapters for iSCSI or iSER
- How to verify your PSP matches your array requirements
- NFS best practices
- How to maximize the value of your array and virtualization
- Troubleshooting recommendations
After you watch the webcast, check out the Q&A blog at http://bit.ly/2WjmFJW
Raghu Kulkarni, SNIA PM & NVDIMM SIG member and Alex McDonald, SNIA SSSI Co-Chair
Kick off the new year with a new SNIA Persistent Memory and NVDIMM Special Interest Group webcast on how applications can take advantage of Persistent Memory today with NVDIMM - the go-to Persistent Memory technology for boosting performance for next generation storage platforms. NVDIMM standards have paved the way to simple, plug-n-play solutions. If you're a developer or integrator who hasn't yet realized the benefits of NVDIMMs in your products, you will want to attend to learn about NVDIMM functionality, applications, and benefits. You'll come away with an understanding of how NVDIMMs fit into the persistent memory landscape.
Jill Reber, CEO, Primitive Logic and Kelly Harris, Senior Content Manager, BrightTALK
Discover what's trending in the Enterprise Architecture community on BrightTALK and how you can leverage these insights to drive growth for your company. Learn which topics and technologies are currently top of mind for Data Privacy and Information Management professionals and decision makers.
Tune in with Jill Reber, CEO of Primitive Logic and Kelly Harris, Senior Content Manager for EA at BrightTALK, to discover the latest trends in data privacy, the reasons behind them and what to look out for in Q1 2019 and beyond.
- Top trending topics in Q4 2018 and why, including new GDPR and data privacy regulations
- Key events in the community
- Content that data privacy and information management professionals care about
- What's coming up in Q1 2019
Audience members are encouraged to ask questions during the Live Q&A.
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