What is HPE SimpliVity?
HPE SimpliVity definition
At its most basic, hyperconverged infrastructure combines physical servers and storage with data services inside a single chassis or hyperconverged node. Whereas other brands converge only part of the infrastructure, HPE SimpliVity converges the entire IT stack in each node, consolidating as many as 10 devices and apps in a simple, powerful building block for virtualized environments. Architected to empower the VM administrator, HPE SimpliVity improves the management, protection, efficiency, and performance of virtualized workloads.
History of HPE SimpliVity
Prior to HPE’s acquisition, SimpliVity delivered hyperconverged infrastructure on a variety of industry-standard x86 platforms. These appliances were marketed as SimpliVity OmniCubes.
In 2017, Hewlett Packard Enterprise acquired SimpliVity and now offers HPE SimpliVity hyperconverged infrastructure—complete software-defined solutions that are designed, built, and supported by HPE.
Key HPE SimpliVity innovations
Legacy IT infrastructure, composed of silos of compute, storage, network, and data protection platforms, is not well suited for today’s workloads and on-demand applications. Since 2015, hyperconverged solutions have simplified the data center by combining compute and storage into one software-defined platform; however, true hyperconvergence needs to do more. With the growth of virtualization and increasing business demands, IT infrastructure is now comprised of a mind-boggling mix of components and applications for backup and deduplication, WAN optimization, storage caching, and more. These environments can be composed of a dozen hardware and software products from nearly as many vendors, with different management interfaces and training requirements.
HPE SimpliVity hyperconverged infrastructure combines the entire IT stack into a single hyperconverged node, providing the agility and economics of the cloud with enterprise-grade performance and data protection. The all-flash, scalable, pre-integrated building blocks support a variety of virtualized workloads and use cases, including data protection, data center consolidation, Tier-1 applications, virtual desktop infrastructure (VDI), and complete “data-center-in-a-box” deployments at the edge.
HPE SimpliVity features and innovations include:
- VM-centric management and mobility for guaranteed simplicity
- Inline deduplication, compression, and optimization are applied to all data at inception, for increased efficiency and application performance.
- Built-in data protection and resiliency features, including automation and orchestration tools to automate failover and failback for disaster recovery
- The ability to cluster and federate systems into a shared resource pool that delivers high availability, mobility, and efficient scaling of performance and capacity
To further boost performance and manageability, HPE SimpliVity solutions can be integrated with intelligent networking fabric, HPE Composable Fabric, which allocates bandwidth dynamically, based on application awareness and priority. HPE Composable Fabric technology automates network management operations with end-to-end visualization of the network from a single user interface.
Current HPE SimpliVity models
HPE SimpliVity 380: The industry’s most complete hyperconverged solution on the world’s best-selling server platform, the HPE ProLiant DL380 server. HPE SimpliVity 380 is the only hyperconverged system that can deliver 52:1 data storage efficiency and back up a 1 TB virtual machine in under 60 seconds.
HPE SimpliVity 2600: The same resilient software as HPE SimpliVity 380 in a rack-dense hyperconverged form factor. This software optimized model is an ideal choice for general virtualization, remote office, and VDI environments.
Główne zastosowania i strategie dla HCI
Dlaczego infrastruktura hiperkonwergentna zasługuje na zainteresowanie każdej organizacji? Ten poradnik jest poświęcony architekturze HCI i opisuje zastosowania, które odmieniają infrastrukturę IT, ograniczają koszty i upraszczają codzienne zadania.