“The long run is already right here,” science fiction author William Gibson as soon as stated. “It’s simply not evenly distributed but.” One one who’s seeking to convey information storage into the longer term and make it extensively distributed is David Flynn, who’s the CEO and founding father of Hammerspace in addition to a BigDATAwire Individual to Look ahead to 2025.
Even earlier than founding Hammerspace in 2018, Flynn had an eventful profession in IT, together with growing solid-state information storage platforms at Fusion-iO and dealing with Linux-based HPC methods. However now as Hammerspace positive aspects traction, Flynn is keen to construct the following technology of distributed file methods and hopefully resolve a few of the hardest information issues on this planet.
Right here’s our latest dialog with Flynn:
BigDATAwire: First, congratulations in your choice as a 2025 BigDATAwire Individual to Watch! Earlier than Hammerspace, you had been the CEO and founding father of Fusion-io, which SanDisk purchased in 2014. Earlier than that, you had been chief architect at Linux Networx, the place you designed a number of of the world’s largest supercomputers. How did these experiences lead you to discovered Hammerspace in 2018?
David Flynn: It’s a very fascinating trajectory, I feel, that led to the creation of Hammerspace. Early on in my profession, I used to be embedding alternate open-source software program like Linux into tiny methods like TV set-top bins, company sensible terminals and the like. After which I got here to design most of the world’s largest supercomputers within the high-performance computing trade that leveraged applied sciences like Linux clustering, InfiniBand, RDMA-based applied sciences.
These two extremes – small embedded methods versus large supercomputers – won’t appear to have a ton in widespread, however they share the necessity to extract absolutely the most efficiency from the {hardware}.
This led to the creation of Fusion-io, which pioneered the usage of flash for enterprise utility acceleration, which till that time was usually used for embedded methods in shopper electronics — for instance, the flash on units like iPods and early cell telephones. I noticed a chance to take that innovation from the buyer electronics world and translate into the info middle, which created a shift away from mechanical laborious drives in the direction of solid-state storage. The problem then grew to become that this transition in the direction of solid-state drives wanted extraordinarily quick efficiency; the info wanted to be bodily distributed throughout a set of servers or throughout third social gathering storage methods.
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The introduction of ultra-high-performance flash was instrumental in addressing this problem of decentralized information, and abstracting information from the underlying infrastructure. Most information in enterprises as we speak is unstructured, and it’s laborious for these organizations to seek out and extract the worth inside it.
This realization in the end led to the creation of Hammerspace, with the imaginative and prescient to make all enterprise information globally accessible, helpful, and indispensable, fully eliminating information entry delays for AI and high-performance computing.
BDW: We’re 20 years into the Large Knowledge increase now, however it feels as if we’re at an inflection level with regards to storage. What do you see as the primary drivers this time round, and the way is Hammerspace positioned to capitalize on them?
DF: To essentially thrive on this subsequent information cycle, we’ve bought to repair the damaged relationship between the info and the info infrastructure the place it’s saved. Enterprises have to assume past storage and relatively how they will remodel information entry and administration in fashionable AI environments.
Distributors are all competing to supply the efficiency and scale that’s wanted to assist AI workloads. Besides it’s not nearly accelerating information throughput to GPU servers – the core downside is that information pathways between exterior storage and GPU servers get bottlenecked by pointless and inefficient hops within the information path throughout the server node and on the community, whatever the exterior shared storage in use.
The answer right here, which is addressed by Hammerspace’s Tier 0, is using the native NVMe storage which is already included inside GPU servers to speed up AI workloads and enhance GPU utilization. By leveraging the present infrastructure and built-in Linux capabilities, we’re eradicating that bottleneck with out including complexity.
We do that by leveraging the intelligence that’s constructed into the Linux kernel which permits our clients to make the most of the present storage infrastructure they’re already utilizing, with out proprietary shopper software program or different level options. That is along with offering world multi-protocol file/object entry, information orchestration, information safety, and information providers throughout a world namespace.
BDW: You acknowledged on the HPC + AI on Wall Avenue 2023 occasion that we had been all duped by S3 and object storage to surrender the advantages of native entry inherent with NFS. Isn’t the battle towards S3 and object storage destined to fail, or do you see a resurgence in NFS?
(whiteMocca/Shutterstock)
DF: Let’s be clear—its not about object or file, nor, S3 or NFS. Storage interfaces wanted to evolve to perform scale. S3 happened and have become the default for cloud-scale storage for a superb purpose: older variations of NFS merely couldn’t scale or carry out on the ranges wanted for early HPC and AI workloads.
However that was then. Right this moment, NFSv4.2 with pNFS is a distinct animal—totally matured, built-in into the Linux kernel, and able to delivering large scale and native efficiency with out proprietary purchasers or complicated overhead. In actual fact, it’s grow to be a typical for organizations that demand excessive efficiency and environment friendly entry throughout giant, distributed environments.
So this isn’t about choosing sides in a file vs. object debate. That framing is outdated. The true breakthrough is enabling each file and object entry inside a single, standards-based information platform—the place information may be orchestrated, accessed natively, and served by means of whichever interface a given utility or AI mannequin requires.
S3 isn’t going away—many apps are written for it. However it’s not the one possibility for scalable information entry. With the rise of clever information orchestration, Tier 0 storage, and fashionable file protocols like pNFS, we are able to now ship efficiency and adaptability with out forcing a selection between paradigms.
The long run isn’t about combating S3—it’s about transcending the boundaries of each file and object storage with a unified information layer that speaks each languages natively, and places the info the place it must be, when it must be there.
BDW: How do you see the AI revolution of the 2020s impacting the earlier decade’s massive advance, which was separating compute and storage? Can we afford to convey massive GPU compute to the info, or are we destined to return to transferring information to compute?
DF: The separation of compute and storage made sense when bandwidth was low-cost, workloads had been batch-oriented, and efficiency wasn’t tied to GPU utilization. However within the AI period, the place idle GPUs imply wasted {dollars} and misplaced alternatives, that mannequin is beginning to crack.
The problem now isn’t nearly the place the compute or information lives—it’s about how briskly and intelligently you possibly can bridge the 2. At Hammerspace, we consider the reply is to not return to outdated habits, however to evolve past inflexible infrastructure with a world, clever information layer.
We make all information seen and accessible in a world file system—irrespective of the place it bodily resides. Whether or not your utility speaks S3, SMB, or NFS (together with fashionable pNFS), the info seems native. And that’s the place the magic occurs: our metadata-driven orchestration engine can transfer information with excessive granularity—file by file—to the place the compute is, with out disrupting entry or requiring rewrites.
So the true reply isn’t selecting between transferring compute to information or vice versa. The true reply is dynamic, policy-driven orchestration that locations information precisely the place it must be, simply in time, throughout any storage infrastructure, so AI and HPC workloads keep fed, quick, and environment friendly.
The AI revolution doesn’t undo the separation of compute and storage—it calls for we unify them with orchestration that’s smarter than both alone.
BDW: What are you able to inform us about your self outdoors of the skilled sphere – distinctive hobbies, favourite locations, and so on.? Is there something about you that your colleagues may be shocked to be taught?
DF: Exterior of labor, I spend as a lot time as I can with my children and household—often on skis or filth bikes. There’s nothing higher than getting out on a mountain or a path and simply having fun with the experience. It’s quick, technical, and a little bit chaotic—just about my very best weekend.
That stated, I’ve by no means actually separated work from play within the conventional sense. For me, writing software program and inventing new methods to unravel powerful issues is what I’ve at all times cherished to do. I’ve been constructing methods since I used to be a child, and that curiosity by no means actually went away. Even once I’m off the clock, I’m typically deep in code or sketching out the following thought.
Folks may be shocked to be taught that I genuinely benefit from the artistic course of behind tech—whether or not that’s low-level system design or rethinking how infrastructure ought to work within the AI period. Some people unwind with hobbies. I unwind by fixing laborious issues.
You’ll be able to learn the remainder of our conversations with BigDATAwire Folks to Watch 2025 honorees right here.
