Items Tagged: resiliency
Nutanix XCP For Demanding Enterprise Workloads: Making Infrastructure Invisible for Tier-1 Ent. Apps
Virtualization has matured and become widely adopted in the enterprise market. Approximately three in every five physical servers are deployed in a virtualized environment. After two waves of virtualization, it is safe to assume that a high percentage of business applications are running in virtualized environments. The applications last to deploy into the virtualized environment were considered the tier-1 apps. Examples of these include CRM and ERP environments running SAP NetWeaver, Oracle database and applications, and Microsoft SQL Server. In many 24X7 service industries, Microsoft Exchange and SharePoint are also considered tier-1 applications.
The initial approach to building virtualized environments that can handle these tier-1 applications was to build highly tuned infrastructure using best of breed three-tier architectures where compute, storage and networking were selected and customized for each type of workload. Newer shared storage systems have increasingly adopted virtualized all flash and hybrid architectures, which has allowed organizations to mix a few tier-1 workloads within the same traditional infrastructure and still meet stringent SLA requirements.
Enter now the new product category of enterprise-capable HyperConverged Infrastructure (HCI). With HCI, the traditional three-tier architecture has been collapsed into a single software-based system that is purpose-built for virtualization. In these solutions, the hypervisor, compute, storage, and advanced data services are integrated into an x86 industry-standard building block. These modern scale-out hyperconverged systems combine a flash-first software-defined storage architecture with VM-centric ease-of-use that far exceeds any three-tier approach on the market today. These attributes have made HCI very popular and one of the fastest growing product segments in the market today.
HCI products have been very popular with medium sized companies and specific workloads such as VDI or test and development. After a few years of hardening and maturity, are these products ready to tackle enterprise tier-1 applications? In this paper we will take a closer look at Nutanix Xtreme Computing Platform (XCP) and explore how its capabilities stack up to tier-1 application workload requirements.
Nutanix was a pioneer in HCI and is widely considered the market and visionary leader of this rapidly growing segment. Nutanix has recently announced the next step - a vision of the product beyond HCI. With this concept they plan to make the entire virtualized infrastructure invisible to IT consumers. This will encompass all three of the popular hypervisors: VMware, Hyper-V and their own Acropolis Hypervisor. Nutanix has enabled app mobility between different hypervisors, a unique concept across the converged system and HCI alike. This Solution Profile will focus on the Nutanix XCP platform and key capabilities that make it suitable for teir-1 enterprise applications. With the most recent release, we have found compelling features appropriate for most tier-1 application workloads. Combined with the value proposition of web-scale modular architecture this provides an easy pathway to data-center transformation that businesses of all sizes should take advantage of.
Adding small amounts of flash as cache or dedicated storage is certainly a good way to accelerate a key application or two, but enterprises are increasingly adopting shared all-flash arrays to increase performance for every primary workload in the data center.
- Premiered: 06/23/16
- Author: Mike Matchett
- Published: Enterprise Storage Forum
HPE StoreOnce Boldly Goes Where No Deduplication Has Gone Before
Deduplication is a foundational technology for efficient backup and recovery. Vendors may argue over product features – where to dedupe, how much capacity savings, how fast are its backup speeds -- but everyone knows how central dedupe is to backup success.
However, serious pressures are forcing changes to the backup infrastructure and dedupe technologies. Explosive data growth is changing the whole market landscape as IT struggles with bloated backup windows, higher storage expenses, and increased management overhead. These pain points are driving real progress: replacing backup silos with expanded data protection platforms. These comprehensive systems backup from multiple sources to distributed storage targets, with single console management for increased control.
Dedupe is a critical factor in this scenario, but not in its conventional form as a point solution. Traditional dedupe is suited to backup silos. Moving deduped data outside the system requires rehydrating, which impacts performance and capacity between the data center, ROBO, DR sites and the cloud. Dedupe must expand its feature set in order to serve next generation backup platforms.
A few vendors have introduced new dedupe technologies but most of them are still tied to specific physical backup storage systems and appliances. Of course there is nothing wrong with leveraging hardware and software to increase sales, but storage system-specific dedupe means that data must rehydrate whenever it moves beyond the system. This leaves the business with all the performance and capacity disadvantages the infrastructure had before.
Federating dedupe across systems goes a long way to solve that problem. HPE StoreOnce extends consistent dedupe across the infrastructure. Only HPE provides customers deployment flexibility to implement the same deduplication technology in four places: target appliance, backup/media server, application source and virtual machine. This enables data to move freely between physical and virtual platforms and source and target machines without the need to rehydrate.
This paper will describe the challenges of data protection in the face of huge data growth, why dedupe is critical to meeting the challenges and how HPE is achieving the vision of federated dedupe with StoreOnce.
To demonstrate value, IT must provide an easy-to-understand cost model to its business leaders. This has fostered IT showback projects. Yet showback isn't easy to achieve.
- Premiered: 01/09/17
- Author: Mike Matchett
- Published: TechTarget: Search Cloud Storage
HPE 3PAR Enables Highly Resilient All-Flash Data Centers: Latest Release Solidifies AFA Leadership
If you are an existing customer of HPE 3PAR, this latest release of 3PAR capabilities will leave you smiling. If you are looking for an All Flash Array (AFA) to transform your data center, now might be the time to take a closer at HPE 3PAR. Since AFAs first emerged on the scene at the turn of this decade, the products have gone through various waves of innovation to achieve the market acceptance it has today. In the first wave, it was all about raw performance for niche applications. In the second wave, it was about making flash more cost effective versus traditional disk-based arrays to broaden economic appeal. Now in the final wave, it is about giving these arrays all the enterprise features and ecosystem support to completely replace all legacy Tier 0/1 arrays still in production today.
HPE 3PAR StoreServ is one of the leading AFAs on the market today. HPE 3PAR uses a modern architectural design that includes multi-controller scalability, a highly-virtualized data layer with three levels of abstraction, system-wide striping, a highly-specialized ASIC and numerous flash innovations. HPE 3PAR engineers pioneered this very efficient architecture well before flash technology became mainstream and proved that this architecture approach has been timeless by demonstrating a seamless transition to support all-flash technology. During this same time, other vendors ran into architectural controller-bound bottlenecks for flash, making them reinvent existing products or completely start from scratch with new architectures.
HPE’s 3PAR timeless architecture has meant that features introduced years before are still relevant today and features introduced today are available to current 3PAR customers that purchased arrays previously. This continuous innovation of features available to old and new customers alike provides the ultimate in investment protection unmatched by most vendors in the industry today. In this Technology Brief, Taneja Group will explore some of the latest developments from HPE that build upon the rich feature set that already exists in the 3PAR architecture. These new features and simplicity enhancements will show that HPE continues to put customer’s investment protection first and continues to expand its capabilities around enterprise-grade business continuity and resilience. The combination of economic value of HPE 3PAR AFAs with years of proven mission critical features promises to accelerate the final wave of the much-anticipated All-Flash Data Center for Tier 0/1 workloads.
Effective user-centric data storage management eases copy data management and object storage uptake while enabling secondary storage services to evolve.
- Premiered: 03/07/17
- Author: Steve Ricketts
- Published: TechTarget: Search Storage
HPE StoreVirtual 3200: A Look at the Only Entry Array with Scale-out and Scale-up
Innovation in traditional external storage has recently taken a back seat to the current market darlings of All Flash Arrays and Software-defined Scale-out Storage. Can there be a better way to redesign the mainstream dual-controller array that has been a popular choice for entry-level shared storage for the last 20 years? Hewlett-Packard Enterprise (HPE) claims the answer is a resounding Yes.
HPE StoreVirtual 3200 (SV3200) is a new entry storage device that leverages HPE’s StoreVirtual Software-defined Storage (SDS) technology combined with an innovative use of low-cost ARM-based controller technology found in high-end smartphones and tablets. This approach allows HPE to leverage StoreVirtual technology to create an entry array that is more cost effective than using the same software on a set of commodity X86 servers. Optimizing the cost/performance ratio using ARM technology instead of excessive power hungry processing and memory using X86 computers unleashes an attractive SDS product unmatched in affordability. For the first time, an entry storage device can both Scale-up and Scale-out efficiently and also have the additional flexibility to be compatible with a full complement of hyper-converged and composable infrastructure (based on the same StoreVirtual technology). This unique capability gives businesses the ultimate flexibility and investment protection as they transition to a modern infrastructure based on software-defined technologies. The SV3200 is ideal for SMB on-premises storage and enterprise remote office deployments. In the future, it will also enable low-cost capacity expansion for HPE’s Hyper Converged and Composable infrastructure offerings.
Taneja Group evaluated the HPE SV3200 to validate the fit as an entry storage device. Ease-of-use, advanced data services, and supportability were just some of the key attributes we validated with hands-on testing. What we found was that the SV3200 is an extremely easy-to-use device that can be managed by IT generalists. This simplicity is good news for both new customers that cannot afford dedicated administrators and also for those HPE customers that are already accustomed to managing multiple HPE products that adhere to the same HPE OneView infrastructure management paradigm. We also validated that the advanced data services of this entry array match that of the field proven enterprise StoreVirtual products already in the market. The SV3200 can support advanced features such as linear scale-out and multi-site stretch cluster capability that enables advanced business continuity techniques rarely found in storage products of this class. What we found is that HPE has raised the bar for entry arrays, and we strongly recommend businesses that are looking at either SDS technology or entry storage strongly consider HPE’s SV3200 as a product that has the flexibility to provide the best of both. A starting price at under $10,000 makes it very affordable to start using this easy, powerful, and flexible array. Give it a closer look.