Creating an All-flash Datacentre: The Final Nail in the Coffin for Legacy Hard Disk

Creating-an-All-flash-Datacentre-The-Final-Nail-in-the-Coffin-for-Legacy-Hard-Disk

Simplicity and innovation are the foundations on which John ‘Coz’ Colgrove started Pure Storage in 2009. He wanted to keep these principles while achieving a vision to take flash storage mainstream and create an all-flash data centre. 

Innovative vision

Today there are well-known advantages of Flash over legacy disk-based storage. However, back then, the main barriers to implementing were the purchase cost, the cost of operating it, and working out how to integrate it into the data lifecycle.

Fast Forward a few years, and Flash has become the obvious choice for any performance- or latency-sensitive workload. Since flash memory was introduced to enterprise storage, it’s been taking on and replacing hard disk tiers one by one. The market conditions mean that the move to an all-flash data centre has now changed from vision to reality.

There are many reasons why the time for all-flash is today, from dealing with data growth and the cross-over between the cost of flash and disk to the clear sustainability savings. These are some reasons why Flash will wipe out disks for good:  

Growth in unstructured data

Running out of capacity or having no additional resources is a nightmare for every IT manager. Getting value and insight from every bit of their data is nirvana. Unstructured data is expected to grow by 10x before 2030, continuing its exponential growth. Organisations are going to have to consider how they make use of it all, and flash changes the dynamic for big data analytics, data lakes, content repositories, and even backup & recovery.

Cost of NAND

The price-per-bit for NAND flash is declining much faster than nearline hard drives. While today the cost-per-bit of a hard drive is still lower than the densest flash, there are several key trends to pay attention to in 2023. First, all the major tier 1 flash manufacturers are demonstrating significant density increases this year, with over 200 layers of stacked 3D NAND in some cases. This increase in density will translate into better cost efficiency and further improvements in data centre power and space savings. Second, if analyst predictions hold, NAND prices overall are expected to decline through most of 2023, continuing a trend that began in late 2022. 

Flash as an environmental choice

Datacentre infrastructure represents over one per cent of global energy consumption, and this share is growing. Organisations are examining their carbon emissions much more closely, and many need to look at ways to reduce their carbon footprint. Flash has a vital contribution to this reduction in energy use.

  • Unstructured data is complex and power-hungry, and the disk is inefficient and space-hungry. Put them together, and you have mounting issues for data centres, bottom lines, and the environment.
  • Power utilisation may not have previously been a key driver behind moving data sets. Still, with the rising unpredictability of energy availability, plus an increased focus on reducing emissions, this becomes an investment in the future we can’t afford to make.
  • As a result of rising energy costs, energy consumption by information technology has become not just a concern from an environmental standpoint but now also a significant economic one.
  • Energy efficiency has become a leading factor in enabling flash technology to achieve a lower TCO than disk in the future.

Higher Performance

For some organisations, the cost will trump performance in decision-making criteria. In these key ways, the performance advantage of flash over disk can translate into cost benefits.

  • First, because disk performance is low, even in workloads with modest performance requirements, organisations often end up with stranded capacity. While spinning drives may hold 20TB, if the performance of the system taps out at 16TB, they will not derive as effective a cost-per-bit. Unlike hard drives, Flash doesn’t have this issue because performance stays predictable even as utilisation increases.
  • Second, any storage environment needs to deliver on resiliency and will have a redundancy strategy to ensure that data loss is not a risk.  With flash devices, faster rebuild times mean fewer bits need to be dedicated to resiliency structures, which equates to better effective cost efficiency.
  • Third, for backup and recovery following a ransomware incident, the disk can take an inordinate amount of time to restore data. With flash-based systems, faster restore performance means getting your business back online sooner than legacy disk-based architectures.
  • Fourth, going hand in hand with better resiliency is better reliability. Flash is more reliable than mechanical disk drives; devices fail less often, leading to fewer replacements and, therefore, lower costs, less time replacing failed components, lower risk and no skyrocketing maintenance costs at years 4, 5, and beyond.

The path to all-flash 

Many organisations are already on the journey to all-flash; they have deployed flash-based storage platforms for their performance-sensitive workloads where speed delivers business value; these use cases include databases, private cloud deployments and, increasingly, modern analytics environments. Those organisations that have deployed modern all-flash platforms are reaping the benefits of performance, server efficiency, massively simplified operations, energy efficiency, and associated greenhouse gas reductions.

Here are some key considerations for organisations that want to start a migration to an all-flash data centre. There needs to be a robust strategy which supports business goals and will determine elements including: 

  • Analysis of the business needs and how all-flash will support these. 
  • Consideration of total cost of ownership and expected return on investment. 
  • Consideration of the wider business landscape, including regulations, data protection and location.
  • Time is needed to scope and test a solution.
  • The time needed for data migration, including considering the end of life for existing legacy equipment. 

Additionally, the ability to consume all-flash for petabyte-scale unstructured workloads through a subscription model allows users to grow as business needs demand. A flexible cloud-like Storage-as-a-Service (STaaS) model should include stringent Service Level Agreements on administrative support, day-to-day management and energy consumption. This brings even more operational efficiency — further widening the gap to legacy platforms. Migrations can be complex, but with the right vendor and partner support, they can be painless. A proof of concept will allow organisations to see the tech in action, validate the benefits and determine the right solution.

A vision realised: flash is the choice for environmental, workload and cost reasons

The simple truth is that no one today continues to buy spinning drives because they’re better, but only because they’re cheaper. In almost every way, flash memory is superior to spinning magnetic rust, and while the flash is already better, those advantages are increasing. Flash has become a viable option for everyday workloads, offering enterprises a better way to manage data growth efficiently, reliably and sustainably.

Flash was lagging behind Disk in terms of cost, but now the road to the disk/flash crossover point is upon us. This, combined with the power, space, and cooling savings, higher performance, and better reliability of flash, will soon result in hard drives becoming the less cost-effective option. The dream of an all-flash data centre is now a reality for forward-looking, modern organisations.