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What іs Tiered Storage? A Detailed Overview

  • October 31, 2024
  • 12 min read
StarWind Pre-Sales Team Lead. Ivan has a deep knowledge of virtualization, strong background in storage technologies, and solution architecture.
StarWind Pre-Sales Team Lead. Ivan has a deep knowledge of virtualization, strong background in storage technologies, and solution architecture.

As data volumes continue to grow across industries, managing storage efficiently has become a critical challenge for organizations. Not all data has the same importance or access requirements, making it essential to prioritize storage resources intelligently. This is where tiered storage comes in — a method that aligns data storage with performance needs and cost-saving measures.

In this guide, we’ll explore the core concepts of tiered storage, examine various data classifications, and explain how these techniques can enhance your organization’s storage efficiency. Whether you’re managing critical, frequently accessed data or archiving infrequently used information, tiered storage offers a smart approach to maximize both speed and cost-effectiveness.

What is Tiered Storage (Storage Tiering)?

Tiered storage (also called “storage tiering”) – is a method of categorizing and storing data across various types of storage devices, with each tier tailored to the data’s importance, access frequency, and performance needs. By aligning the type of storage with the data’s value and activity, tiered storage ensures businesses maximize efficiency.

In practical terms, this means that data frequently accessed by users or applications (known as “hot data”) is kept on high-performance, more expensive storage media like SSD or NVMe drives. On the other hand, less critical, rarely accessed information (“cold data”) is shifted to more cost-effective storage like HDDs or even tape storage.

Tiered Storage in Action: Data Classification

To implement tiered storage effectively, it’s crucial to classify data based on its use and access requirements. The typical classification includes:

  • Hot Data: This represents high-importance, time-sensitive data. For example, live databases or critical applications that demand ultra-fast access.
  • Warm Data: Moderately accessed data, such as documents and media files, historical records or logs. While important, it does not need instant retrieval.
  • Cold Data: Archive or backup data that is rarely needed but must be kept for compliance or historical purposes.

By classifying data, businesses can optimize both speed and cost, ensuring that important data is always accessible while minimizing expenditure on inactive information.

Examples of Storage Tiers and Their Applications

In tiered storage systems, storage devices are typically categorized into distinct tiers based on their performance and cost characteristics. Some organizations use a three-tier system (Tier 1: “Hot,” Tier 2: “Warm,” and Tier 3: “Cold”), but for others, a more granular approach is necessary. Below is an example of a five-tier storage model:

Tier Description Examples Typical Applications
Tier 0 Highest performance RAM, NVMe, all-flash arrays Real-time analytics, high-frequency trading, in-memory databases
Tier 1 Hot data NVMe, SSD, hybrid flash arrays Virtual machines, customer databases, transactional applications
Tier 2, 3 Warm data High-performance HDDs, cloud storage Frequently accessed files, active projects, secondary databases
Tier 4 Cold data SATA HDDs, lower-tier cloud storage Archived project files, backups, infrequently accessed data
Tier 5 Archival data Tape storage, archival cloud storage Long-term backups, regulatory compliance, archival data

Automated Storage Tiering

Automated storage tiering takes the concept of tiered storage a step further by automating the movement of data across these various storage tiers. Using pre-defined policies or rules, storage tiering ensures that frequently accessed files remain on fast storage, while older, less critical data is automatically moved to more affordable storage options.

For example, virtual machines, customer databases, and other high-performance applications will reside on Tier 1 or Tier 2 storage, whereas older project files and system backups will be dynamically shifted to lower-cost tiers. This automated process optimizes storage resources without requiring manual intervention.

While automated storage tiering sounds appealing in theory, practical implementation has its challenges. Setting up a reliable storage tiering solution often requires either expensive proprietary SANs or highly skilled IT staff who can configure, manage, and troubleshoot the complex software. As a result, many IT admins today prefer using storage caching, as it offers a simpler and more reliable approach to optimizing storage performance.

Benefits of Storage Tiering

Utilizing tiered storage offers a range of strategic advantages when implemented effectively:

Cost Savings: With data stored on the most appropriate storage based on its usage, organizations avoid overspending on high-end storage for rarely accessed data.

Optimized Performance: High-priority data remains on the fastest, most expensive storage, ensuring critical applications experience minimal latency and improved response times. The less accessed data is offloaded to a less expensive storage, freeing up space for performance-demanding workloads.

Automation: A well-configured automated storage tiering solution can reduce manual management efforts by dynamically moving data according to predefined rules. This frees up IT resources to focus on other tasks, provided that the tiering system is carefully monitored to avoid performance degradation.

Drawbacks of Storage Tiering

While storage tiering is an appealing data optimization concept, it has its drawbacks:

Unstable Performance: Automated tiering can sometimes disrupt data locality, causing delays when frequently accessed data is moved to slower storage tiers, which may impact performance unpredictably, especially in real-time or high-demand applications.

High Capital Expenses: Setting up a reliable storage tiering solution often requires costly proprietary SANs or highly experienced IT staff to configure and manage complex tiering software.

Complexity in Troubleshooting: Data spread across multiple tiers can complicate tracking and troubleshooting, as it becomes harder to determine where specific data resides, making performance issues more challenging to resolve

Storage Tiering vs. Caching: Clarifying the Difference

It’s important not to confuse storage tiering with caching, though the two may appear similar. Storage tiering is focused on long-term data management, where data is stored on different devices based on its frequency of access. Caching, on the other hand, temporarily stores frequently accessed data in a high-speed medium like RAM, NVMe, or SSD to accelerate performance.

Caching is a short-term strategy to speed up access to actively used data, while tiering provides a long-term solution that optimizes data storage over time, based on established patterns.

What StarWind has to offer?

Storage tiering is a tried-and-true concept for balancing performance and cost, and StarWind Virtual SAN can be configured on top of Microsoft Storage Spaces to enable automated storage tiering in Hyper-V environments.

However, with SSDs becoming more affordable each year, we recommend building all-flash storage system for most workloads, eliminating the need to manage a mix of SSDs and HDDs. For large-scale backup or archival storage, adding a separate high-capacity HDD array is a cost-effective way to keep expenses low.

Conclusion

In today’s data-driven world, businesses need scalable, efficient storage solutions. Tiered storage enables organizations to match their storage infrastructure with the specific demands of their data, optimizing both performance and cost. Automated storage tiering enhances this approach further by dynamically moving data between tiers, reducing manual management and improving resource allocation.

However, implementing an effective storage tiering solution often requires significant investment in proprietary systems or specialized IT expertise. As a result, many IT admins prefer storage caching as a simpler, more reliable alternative for most use cases.

Ultimately, the choice between storage tiering and caching depends on your specific requirements, but both offer valuable strategies for keeping your storage infrastructure optimized and future-ready.

Hey! Found Ivan’s insights useful? Looking for a cost-effective, high-performance, and easy-to-use hyperconverged platform?
Taras Shved
Taras Shved StarWind HCI Appliance Product Manager
Look no further! StarWind HCI Appliance (HCA) is a plug-and-play solution that combines compute, storage, networking, and virtualization software into a single easy-to-use hyperconverged platform. It's designed to significantly trim your IT costs and save valuable time. Interested in learning more? Book your StarWind HCA demo now to see it in action!