A SNIA Superpower: PAS submitter to ISO

SNIA’s Technical Council is one of the crown jewels of the organization. Made up of a group of acknowledged storage experts, the Technical Council oversees and manages SNIA Technical Work Groups, reviews architectures submitted by work groups, and is SNIA’s technical liaison to standards organizations. One of the Council’s superpowers is its ISO JTC-1 designation as an ARO and a PAS submitter. What does that actually mean? It’s a very big deal! SNIA is only one of 13 organizations worldwide that have the PAS submission capability, putting it in exclusive company. The list includes: Read More

Understanding the Power of SNIA’s Storage Management Initiative

By Don Deel, SNIA SMI Governing Board Chair

The SNIA Storage Management Initiative (SMI) uses many acronyms that can cause confusion. SMI? That’s the name of the Initiative! SMI-S? That’s a storage management specification. CTP? That stands for Conformance Test Program, but soon there will be two! One already exists for SMI-S and the other is being developed for SNIA Swordfish. Swordfish is a storage management specification that doesn’t have an acronym.

So other than come up with confusing acronyms, what does the SMI do? The SMI is an active group with a mission to unify the storage industry to develop and standardize interoperable storage management technologies. The SMI supports the development of storage management solutions that are based upon standard interfaces instead of proprietary interfaces. This helps lower costs, makes integration efforts easier and provides increased reliability, security and manageability.

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Everyone Wants Their Java to Persist

In this time of lockdown, I’m sure we’re all getting a little off kilter. I mean, it’s one thing to get caught up listening to tunes in your office to avoid going out and alerting your family of the fact that you haven’t changed your shirt in two days. It’s another thing to not know where a clean coffee cup is in the house so you can fill it and face the day starting sometime between 5AM and Noon. Okay, maybe we’re just talking about me, sorry. But you get the point.

Wouldn’t it be great if we had some caffeinated source that was good forever? I mean… persistence of Java? At this point, it’s not just me.

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SNIA Exhibits at OCP Virtual Summit May 12-15, 2020 – SFF Standards featured in Thursday Sessions

All SNIA members and colleagues are welcome to register to attend the free online Open Compute Project (OCP) Virtual Summit, May 12-15, 2020. SNIA SFF standards will be represented in the following presentations (all times Pacific): Thursday, May 14: Read More

What’s New with SNIA Swordfish™?

If you haven’t caught the new wave in storage management, it’s time to dive in and catch up on the latest developments of the SNIA Swordfish specification.

First, a quick recap.

SNIA Swordfish is the storage extension to the DMTF Redfish® specification providing customer-centric, easy integration of scalable storage management solutions. This unified, RESTful approach provides IT administrators, DevOps and others the ability to manage storage equipment, data services and servers in converged, hyperconverged, hyperscale or cloud infrastructure environments as well as traditional data centers.

So, what’s new?

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Share Your Experiences in Programming PM!

by Jim Fister, SNIA Director of Persistent Memory Enabling Last year, the University of California San Diego (UCSD) Non-Volatile Systems Lab (NVSL) teamed with the Storage Networking Industry Association (SNIA) to launch a new conference, Persistent Programming In Real Life (PIRL). While not an effort to set the record for acronyms in a conference announcement, we did consider it a side-goal.  The PIRL conference was focused on gathering a group of developers and architects for persistent memory to discuss real-world results. We wanted to know what worked and what didn’t, what was hard and what was easy, and how we could help more developers move forward. Read More

Wish You Knew More About Storage? Geek Out with SNIA

Are you a storage geek at heart? Or perhaps an aspiring one? Here’s your chance to “Geek Out” on all the storage basics. Whether you need a refresh on a foundational storage technology or want a 101 lesson on something new, SNIA has you covered.

Visit our “Geek Out on Storage” page for a unique lesson on storage basics. We call it “Everything You Wanted to Know About Storage But Were Too Proud to Ask.” Here you’ll find videos that clearly define and explain storage terminology and technologies.

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24G SAS Feature Focus: Inherent Scalability and Flexibility

[Editor’s Note: This is part of a series of blog posts discussing 24G SAS features.]

By: Jeremiah Tussey, Vice President, SCSI Trade Association; Alliances Manager, Product Marketing, Data Center Solutions, Microchip Technology, December 12, 2019

Serial Attached SCSI (SAS) and the SCSI protocol are undergoing an evolution, transitioning to 24G SAS and implementing new features and enhancements to a well-established storage technology. SAS has set the bar in the storage industry with inherent scalability and flexibility in modern data center, server and storage topologies. This tested ability carries forward to the latest update in the SAS technology roadmap: 24G SAS.

Unsurpassed scalability
SAS technology addresses a very large and continuously growing market, natively supporting many host connections to thousands of target devices in a single topology. It enables optimized capacity storage solutions and provides interconnect distance that empowers SAS fabric solutions. Today, SAS services cold cloud data centers, high-performance computing and direct server markets. SAS is effectively the persistent storage with flexibility in attached media solutions.

A variety of interconnect solutions support SAS, with copper for short to medium reach, and fiber optics for long reach applications. These cabling options utilize mini SAS-HD and Quad Small Form-Factor Pluggable (QSFP), as well as recent SlimSAS™ and MiniLink definitions added into the latest SAS standard. Additionally, native failover and dual-port features allow multiple domains to be configured and then automatically takeover operations in the case of component failures, broken cable connections or domain failures of any form. These inherent features were built into the protocol with high reliability, availability and scalability (RAS) in mind. Overall, these maintain per-lane performance, data integrity, flexible architectures and a native hot plugging ability to add or remove enterprise servers and storage for decades.

 

Scalability in External Storage Architectures

Flexibility for the future
What makes this support come all together is the flexibility that is built into SAS. SAS supports simultaneous SAS and SATA end devices, using the Serial SCSI Protocol (SSP) for SAS connections and Serial ATA Tunneling Protocol (STP)for SATA connections. Because SAS technology can support two transport protocols simultaneously, SAS has and will continue to span all storage types. This flexibility allows high-performance SAS SSDs with MultiLink connections for optimized throughput in demanding applications with SAS infrastructure.

Traditional enterprise SAS Hard Disk Drives (HDDs) are still effectively utilized in more practical medium IO-intensive, cost-sensitive applications. With rising use of cost-optimized SAS or SATA SSD alternatives, SSDs are increasingly used in these more IO-Intensive and cost-sensitive applications. SAS has effortlessly enabled that media transition as well. Better yet, SAS enables data centers that are filled with capacity-optimized SAS and SATA HDDs, which still maintain a nearly 10 times cost advantage over NAND Flash-based solutions.

New standards and technology enhancements have been introduced in HDDs to continue supporting the exponential growth in storage demands that cannot be effectively covered with SSD solutions. SMR and hybrid HDD solutions with dynamic configuration only available as a SCSI feature are recent introductions ideal for these capacity-demanding applications. Last but not least, SAS topologies still support backup technologies such as SAS or SATA Tape products, allowing access to historical data storage and continued use of the latest backup solutions based on tape, DVD or Blu-ray backup storage arrays, even in new 24G storage deployments.

SAS Innovations in HDD and SSD Technologies

  • SSHD (Solid State Hard Drive) – hybridization of performance and capacity
  • Storage Intelligence – SSD optimization, including garbage collection
  • TDMR (Two-Dimensional Magnetic Recording) – faster writes
  • Helium – capacity optimization
  • SMR (Shingled Magnetic Recording) – capacity optimization
  • MultiLink – bandwidth
  • Multiple Actuator – IOPs per TB
  • MAMR (Microwave-Assisted Magnetic Recording) – capacity optimization
  • HAMR (Heat-Assisted Magnetic Recording) – capacity optimization
  • Hybrid SMR – Configurable SMR vs. standard capacity; helps with SKU management

The ecosystem is on track for 24G SAS production readiness for the upcoming deployment of next-generation server platforms. Analyzers and test equipment have been available for some time now, with cables and connectors in existing and new form-factors ready for 24G SAS. Next-gen SAS controller and expander products are aligned with upcoming PCIe Gen4 platform launches. New 12G SAS and 6G SATA HDD/SSD capabilities to intersect with 24G SAS ecosystem include: MultiLink SAS™ SSDs and Dual-actuator HDDs for increased IOPs/Bandwidth, hybrid SMR for flexible and increased capacity, as well as HAMR / MAMR technologies for increased capacity. SAS continues to evolve through innovation, targeting enhanced performance and features and continuing inherent scalability and flexibility support in modern data center server and storage topologies.

Preserving the Past, Creating the FutureSAS – Preserving the Past, Creating the Future

SAS Lives On and Here’s Why

By: Rohit Gupta, Enterprise Segment Management, Western Digital

In the Zettabyte Age, data is the new lifeline. Data is transforming anything and everything at an unprecedented rate in the globally connected world. Businesses are constantly looking for new ways of collecting, storing, and transforming various forms of data to extract intelligence for better decisions, improve processes and efficiencies, develop technologies and innovative products, and ultimately maximize business profitability. Read More

24G SAS Feature Focus: Active PHY Transmitter Adjustment

[Editor’s Note: This is part of a series of upcoming blog posts discussing 24G SAS features.]

By: Rick Kutcipal (SCSI Trade Association), with contributions from Tim Symons (Microchip), November 12, 2019

The first 24G SAS plugfest was held the week of June 24, 2019, and products are expected to begin to trickle out into the marketplace in 2020. Production solutions typically follow 12-18 months after the first plugfest. These storage technologies are tied to OEM server and storage vendors, which release solutions at a regular annual cadence sometimes tied to next generation Intel or AMD processors. Servers almost always lead the way, as they push the performance envelope and keep pace with faster processors, faster networking and faster storage.

To address the growing performance requirements of modern data centers, 24G SAS doubles the effective bandwidth of the previous SAS generation, 12Gb/s SAS. To achieve this bandwidth, the physical layer experiences significant electrical demands that technologies such as forward error correction and Active PHY Transmitter Adjustment (APTA) specifically address. These enhancements are required to maintain the rigorous quality and reliability demands of IT professionals managing enterprise and data center operations. Read More