Published By: HPE Intel
Published Date: Jan 11, 2016
The world of storage is being transformed by the maturing of flash arrays, an approach to storage that uses multiple, solid state flash memory drives instead of spinning hard disk drives. An all-flash array performs the same functions as traditional spinning disks but in a fraction of the time required and in more compact form factors. Given its superior performance in certain contexts, all-flash arrays are experiencing strong industry adoption. However, best practices and a true understanding of key success factors for all- flash storage are still emerging. This paper is intended to educate you on best practices based on real user experience drawn from ITCentralStation.com. We offer all-flash user advice in selecting and building the business case for a flash array storage solution.
Published By: HPE Intel
Published Date: Jan 11, 2016
You’re looking at flash storage because you see it’s taking the storage world by storm. You’re interested in accelerating business-critical applications, consolidating a virtual server or desktop deployment, trying to get ahead of your company’s data onslaught, or some combination of the above.
This easy-to-read guide was developed to help arm you with key considerations and questions to ask before investing in a flash storage array for your business, today and for the future.
The increasing demands of application and database workloads, growing numbers of virtual machines, and more powerful processors are driving demand for ever-faster storage systems. Increasingly, IT organizations are turning to solid-state storage to meet these demands, with hybrid and all-flash arrays taking the place of traditional disk storage for high performance workloads.
Download this white paper to learn how you can get the most from your storage environment.
You’re looking at flash storage because you see it’s taking the storage world by storm. You’re interested in accelerating business-critical applications, consolidating a virtual server or desktop deployment, trying to get ahead of your company’s data onslaught, or some combination of the above. This easy-to-read guide was developed to help arm you with key considerations and questions to ask before investing in a flash storage array for your business today, and for the future.
Published By: Dell EMC
Published Date: Nov 03, 2016
What place should solid-state storage assume in your IT architecture? And what are the best options for the average data center to maximize the value of flash? This paper explores the current state of the technology, its common applications, innovations in solid-state chip technology, choices in solid-state drives and dispels the four most common myths surrounding flash. Discover how you can cost-effectively leverage this rapidly maturing technology.
Solid-state arrays (aka Flash Storage) are improving at a rapid pace, while costs are of Flash Arrays are declining. Gartner has analyzed 19 Solid-State Array products across five high-impact use cases to quantify what's important to infrastructure and operations leaders.
Published By: Cleversafe
Published Date: Mar 29, 2013
Scalability has always been an important characteristic of enterprise storage systems, maybe the most important, since the rationale of consolidating storage assumes that the system can easily grow with aggregate demand.
This document includes general information about the Pure Storage architecture as it compares to SolidFire. Not intended to be exhaustive, it covers architectural elements where the solutions differ and impact overall suitability for the needs of the Next Generation Data Center (NGDC).
When comparing the architecture for Ceph and SolidFire, it is clear
that both are scale-out storage systems designed to use commodity
hardware, and the strengths of each make them complementary
solutions for datacenter design.
Flash success demands that critical questions be asked when choosing the right solution. Simplify your purchase cycle, lower costs and reduce the risk of technology acquisition.
Download the Gartner report today.
Are solid-state arrays (SSAs) worth the extra cost? This independent survey of SSA users found that their deployments provided a positive ROI after only 5.4 months, significantly faster than hard-disk drive (HDD) storage systems. Discover why Gartner strongly advises that SSAs be considered whenever HDD-based storage systems need to be replaced.
Read the report: Solid-State Array TCO Reality Check.
The technical and financial advantages of solid state drives are driving a rapid transition from hard disk-drive (HDD) and hybrid-flash array (HFA) storage systems to all-flash arrays (AFAs). The white paper identifies some of the key considerations for evaluating all-flash storage infrastructure for three major uses cases: standalone applications, virtualized applications, and next-generation cloud services.
Consolidating to a flash-optimized infrastructure results in 50% to 80% fewer drives being deployed. This, along with the need for high performance and agility, has propelled flash to have one of the highest growth rates within the storage industry. Learn how the combination of flash-optimized architectures and cloud have changed the storage requirements for mixed workloads that are common among most organizations.
Published By: Riverbed
Published Date: May 24, 2012
Thanks to new edge virtual server infrastructure (edge-VSI), organizations can now consolidate storage considered impossible to consolidate due to the response time requirements of branch-bound applications that rely on local storage.
Within the next 12 months, solid-state arrays will improve in performance by a factor of 10, and double in density and cost-effectiveness, therefore changing the dynamics of the storage market. This Magic Quadrant will help IT leaders better understand SSA vendors' positioning in the market.
NetApp Flash Pool is a storage cache option within the NetApp Virtual Storage Tier product family, available for NetApp FAS storage systems. A Flash Pool configures solid state drives (SSDs) and hard disk drives (HDDs) into a single storage pool, known as an “aggregate” in NetApp parlance, with the SSDs providing a fast response time cache for volumes that are provisioned on the Flash Pool aggregate.
This paper examines that there are all sorts of elements—differing applications, attitudes, budgets, outcomes for the business—that go into the decision of how much and what type of solid-state storage to use. And how this large range of use cases inherently means that users are going to need a portfolio of solid-state deployment options because no single product is going to solve everything for everyone. The paper then examines NetApp’s flash portfolio and belief that the right storage solution at all times balances performance, capacity, functionality and manageability: this means that for flash too, multiple approaches will become the standard for enterprises as they evolve their long-term IT strategies.
Database users are increasingly interested in using Flash-based solid-state drives (SSDs) to speed up application performance. For many database administrators (DBAs), increased database performance directly impacts their user experience and bottom lines. Accelerating a single MySQL instance may allow DBAs to avoid painful sharding exercises, with all their attendant administration, application changes, and high capital and ongoing costs. With the wide range of SSDs available today, choosing any one can be difficult. This paper aims to answer the question, “Is it better to use slower SATA SSDs in RAID or a faster PCIe SSD to scale up MySQL database performance?"
This brief explains SolidFire's solution to the modern data center's struggle that exists between applications and storage, and how it offers a distinct scale-up storage application that intelligently dictates system performance in real time.
The SolidFire Definitive Guide: Guaranteeing Storage Performance covers the critical aspects of Quality of Service (QoS) in the evolving storage landscape, it’s importance as a component of storage architecture design, and worthy considerations when choosing designs in storage architecture to accommodate for an optimum QoS experience.
A NetApp SolidFire pure storage architectural comparison brief. Covers each solution's architectural elements, where they differ and the impact on the overall suitability needs of a next generation data center.