VMware Software-Defined Storage. Martin Hosken
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Название: VMware Software-Defined Storage

Автор: Martin Hosken

Издательство: John Wiley & Sons Limited

Жанр: Зарубежная образовательная литература

Серия:

isbn: 9781119292784

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СКАЧАТЬ toolset, the so-called single pane of glass. These features, along with lowered costs, automation, and application-centric services, are the primary drivers for enterprise IT organizations and cloud service providers to begin to rethink their entire storage architectural approach.

      The next point to address is what software-defined storage isn’t, as it can sometimes be hard to wade through all the marketing hype typically generated by storage vendors. Just because a hardware vendor sells or bundles management software with their products, doesn’t make it a software-defined solution. Likewise, a data center full of different storage systems from a multitude of vendors, managed by a single common software platform, does not equate to a software-defined storage solution. As each of the underlining storage systems still has its legacy constructs, such as disk pools and LUNs, this is referred to as a federated storage solution and not software-defined. These two approaches are sometimes confused by storage vendors, as understandably, manufacturers always want to use the latest buzzwords in their marketing material.

      Despite everything that has been said up until now, software-defined storage isn’t just about software. At some point, you have to consider the underlying disk system that provides the storage capacity and performance. If you go out and purchase a lot of preused 5,400 RPM hard drives from eBay, you can’t then expect solid-state flash-like performance just because you’ve put a smart layer of software on top of it.

      Designing VMware Storage Environments

      Gathering requirements and documenting driving factors is a key objective for you, the architect. Understanding the customer’s business objectives, challenges, and requirements should always be the first task you undertake, before any design can be produced. From this activity, you can translate the outcomes into design factors, requirements, constraints, risks, and assumptions, which are all critical to the success of the vSphere storage design.

Architects use many approaches and methodologies to provide customers with a meaningful design that meets their current and future needs. Figure 1.2 illustrates one such method, which provides an elastic sequence of activities that can typically fulfill all stages of the design process. However, many organizations have their own approach, which may dictate this process and mandate specific deliverables and project methodologies.

Figure 1.2 Example of a design sequence methodology

      Technical Assessment and Requirements Gathering

The first step toward any design engagement is discovery, and the process of gathering the requirements for the environment in which the vSphere-based storage will be deployed. Many practices are available for gathering requirements, with each having value in different customer scenarios. As the architect, you must use the best technique to gain a complete picture from various stakeholders. This may include one-to-one meetings with IT organizational leaders and sponsors, facilitated sessions or workshops with the team responsible for managing the storage operations, and review of existing documents. Table 1.1 lists key questions that you need to ask stakeholder and operational teams.

Table 1.1 Requirements gathering

      After all design factors and business drivers have been reviewed and analyzed, it is essential to take into account the integration of all components into the design, before beginning the qualification effort needed to sort through the available products and determine which solution will meet the customer’s objectives. The integration of all components within a design can take place only if factors such as data architecture, business drivers, application architecture, and technologies are put together.

      The overall aim of all the questions is to quantify the objectives and business goals. For instance, these objectives and goals might include the following:

      Performance User numbers and application demands: Does the organization wish to implement a storage environment capable of handling an increase in user numbers and application storage demands, without sacrificing end-user experience?

      Total Cost of Ownership Does the organization wish to provide separate business units with a storage environment that provides significant cost relief?

      Scalability Does the organization wish to ensure capability and sustainability of the storage infrastructure for business continuity and future growth?

      Management Does the organization wish to provide a solution that simplifies the management of storage resources, and therefore requires improved tools to support this new approach?

      Business Continuity and Disaster Recovery Does the organization wish to provide a solution that can facilitate high levels of availability, disaster avoidance, and quick and reliable recovery from incidents?

      In addition to focusing on these goals, you need to collect information relating to the existing infrastructure and any new technical requirements that might exist. These technical requirements will come about as a result of the business objectives and the current state analysis of the environment. However, these are likely to include the following:

      • Application classification

      • Physical and virtual network constraints

      • Host server options

      • Virtual machines and workload deployment methodology

      • Network-attached storage (NAS) systems

      • Storage area network (SAN) systems

      Understanding the customer’s business goals is critical, but what makes it such a challenge is that no two projects are ever the same. Whether it is different hardware, operating systems, maintenance levels, physical or virtual servers, or number of volumes, the new design must be validated for each component within each customer’s specific infrastructure. In addition, just as every environment is different, no two workloads are the same either. For instance, peak times can vary from site to site and from customer to customer. These individual differentiators must be validated one by one, in order to determine the configuration required to meet the customer’s design objectives.

      Establishing Storage Design Factors

      Establishing storage design factors is key to any architecture. However, as previously stated, the elements will vary from one engagement to another. Nevertheless, and this is important, the design should focus on the business drivers and design factors, and not the product features or latest technology specification from the customer’s preferred storage hardware vendor. A customer-preferred storage device could well be the best product ever, but may not align with the customer use cases, regardless of what they’re being told by their supplier. Therefore, creating an architecture that focuses on the hardware specification and not the business goals is likely to introduce significant risks and ultimately fail as a design.

Although the business drivers and design factors for each customer will be different, with all having their own priorities and goals that need to be factored into the design, you likely will see many common design qualities, illustrated in Figure 1.3, time and time again.

Figure 1.3 Storage architecture business drivers and design factors

      Availability

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