We intend to launch our first end-to-end commercial DNA Data Storage
solutions before the end of 2026: Biomemory outlines its DNA storage roadmap after Catalog deal

Date:
Sat, 07 Mar 2026 13:30:00 +0000

Description:
French DNA storage pioneer Biomemory has acquired rival Catalog, and told us where it sees the technology in the years ahead.

FULL STORY ======================================================================Copy link Facebook X Whatsapp Reddit Pinterest Flipboard Threads Email Share this article 0 Join the conversation Follow us Add us as a preferred source on Google Newsletter Tech Radar Get the TechRadar Newsletter Sign up for
breaking news, reviews, opinion, top tech deals, and more. Contact me with news and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors By submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over. You are
now subscribed Your newsletter sign-up was successful An account already exists for this email address, please log in. Subscribe to our newsletter DNA storage has always attracted a lot of interest due of its potential density and longevity - and researchers have long been exploring ways to encode digital information into DNA strands that can be stored and later read back using sequencing technology.

One of the leaders in this field, French startup Biomemory, recently
announced it has acquired the assets of Catalog Technologies, another firm working on DNA-based data storage, giving the former access to Catalogs printing, reading, and computing technologies, along with a large portfolio
of patents. Both companies rely on mapping digital data to biosafe DNA blocks instead of synthesizing DNA base by base. This can improve read speeds and reduce error rates, while also opening the door to search and computing functions directly within DNA data structures. You may like After nearly 10 years, Twist Bioscience spin-off plans Terabyte-scale DNA storage in 2026, intending to store 13TB of data in a 'single drop of water.' Betamax vs VHS: European startup competes with Cerabyte to be first Exabyte-scale zero-power archival data storage system but who will win? 10 storage technologies that want to replace hard drives Making DNA storage systems for data centers The combined platform also brings together different production techniques. Biomemory uses multi-layer 3D printing methods, while Catalog developed high-throughput printing systems aimed at producing large volumes of DNA data blocks.

Biomemory is the first company in the DNA Data Storage industry to have implemented a complete end-to-end industrialized process, said Olivier Lauvray, VP of Industrialization at Biomemory. It spans the digital file or object ingestion to DNA writing and storage with a data retention of 50 to
150 years, and has the capability to access and read stored digital content all along the retention lifetime.

The goal is to make DNA storage systems practical for data centers, where storage hardware needs to fit into standard rack-mounted equipment. I spoke
to Lauvray to find out more about Biomemorys plans. Back in 2021, Catalog talked about building a pocket-sized DNA computer before the end of the decade. Is that still the plan, or has that idea been put aside? Catalog was the pioneer, well ahead of the pack, in bringing searching and computing functions to the DNA realm. Biomemory has acquired all the foundational IP
and patents they established, and key experts from the former Catalog joined our team. Are you a pro? Subscribe to our newsletter Sign up to the TechRadar Pro newsletter to get all the top news, opinion, features and guidance your business needs to succeed! Contact me with news and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors By submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over.

Biomemorys objective is to leverage this IP portfolio and technological advances in the context of our upgraded roadmap. We intend to offer these value-added capabilities to our customers.

It is too early for us to speak about the speed of deployment or the size of
a resulting device, but we are pursuing this path, adding our industrialization and go-to-market approach to it. Microsoft's Richard Black told one of our peers that it stopped its involvement in DNA storage, saying it is just not meeting the orders of magnitude gain [we] thought [we] were gonna get, before adding, Proponents touted the extreme density, but it's not clear that that's in any way relevant. Is Microsoft wrong? Microsoft has been investigating DNA Data Storage quite early, with the natural expectation to serve their hyperscaler needs. The conclusion at the time was that it would take too much time to mature this technology for their needs. What to read next Project Silica rival plans to launch 500GB Proof-of-concept medium in 2026 but questions remain about speed, durability, and cost Microsoft's latest glass storage breakthrough promises to hold data for 10,000 years but will Project Silica shatter under the pressure? Groundbreaking "5D memory crystal" storage could last until the end of the universe - but will it be able to hold all of your pet photos?

They decided to invest and focus on the Silica project as an intermediate technology. After a few years, the DNA Data storage technologies have matured quite a lot. It is now reaching the industrialization stage, with players
such as Biomemory.

But it will still take some time to match the hyperscalers scalability requirements. Speaking for Biomemory, we estimate that robust
enterprise-grade rackable data storage appliances will be deployed at scale
in Data Centers around 2030 .

In the meantime, sizable commercial solutions will be supported with clusters of equipment operated by Biomemory or accredited partners, in a hybrid-cloud configuration. Can you give us an update on DNA storage technology at Biomemory? How far are we from a commercial device, and how does your
approach differ from rivals such as Microsoft and Twist Memory? Biomemory intends to launch its first end-to-end (write/store/read) commercial DNA Data Storage solutions before the end of 2026. Beyond the continuous improvement
of the writing and reading performance, our focus is on securing trust from customers with a rigorous end-to-end qualification process, demonstrating reliability, integrity, robustness and life-time sustainability.

This leads to the industrialization of the DNA Data storage technology, a condition for mass deployment of real commercial solutions.

To our knowledge, Microsoft's mid-term solution for cold-storage is relying
on Silica. This is a rather capex-intensive technology, and its deployment beyond the Microsoft internal use remains to be seen.

To our understanding, Twists technology (now led by its spin-off Atlas) is relying on base-by-base synthesis, using semiconductor chips as consumable component. Biomemory believes this has advantages but is not the best
approach for scalability and cost reduction, and is prone to
biosafety-related challenges.

Biomemory (like Catalog Technologies before) is using a fast block-by-block enzymatic DNA assembly technology, which is biosafe-by-design. The cost of consumables (opex) is planned to drop massively over time, and the cost of
the equipment too, aligning to the printing industry business models.

We also believe our unique DNA Card approach to reliably store the written
DNA for 50, 100 or 150 years with multiple readings and an access through a standard object storage IT interface, is the right approach which brings us closer to the IT-centric customers Biomemory aims to serve. Perhaps the most important question: Can you give us a rough timeline, expected capacity, performance estimates, and approximate pricing? Some significant technology industrialization challenges remain to enable the scalability of DNA Data Storage. For example, the timeline for industrializing next generation high-speed continuous DNA reading technologies.

This brings incertitude in the prediction of the launch date for the
next-next generation of products. But Biomemory is marching toward the goal
of deploying in 2030-2031 a rackable Write/Store/Search/Read appliance suitable for operations in 3rd party Data Centers.

This requires interoperability, full automation and high resilience, in a compact 19 42U form factor. In the meantime, to satisfy market demand, we
will grow our park of storage servers operated by Biomemory, in a
hybrid-cloud configuration.

We are storing the DNA in multi-well containers called DNA Cards. Each can contain a huge amount of DNA-written digital data, and we can continuously
add more DNA Cards in an appliance.

Therefore, the capacity can be extended without requiring more CapEx or footprint. This is different from the usual storage media. In parallel, among the 5 million Data Centers in the world, the private industry, hyperscalers
or government agencies do not have the same needs for cold-storage capacity, covering the whole range from PetaByte to Exabyte.

Biomemorys strategy is to serve the market segments that are aligned with the performance of its storage servers. This is naturally starting with private data centers with PB capabilities, and progressively addressing the demand toward Exabyte.

The writing and reading speeds are progressing rapidly but it is still difficult to predict when the single-rack Exabyte appliance will be commercially available.

In terms of cost ($/TB) for Biomemorys technology, this is mainly driven by the industrialization of the production of the consumables (DNA block and enzymes) used by the systems.

Our plan is to rapidly scale up our low-cost patented production technology, and our projections are showing we can reach few $/TB when mass-deploying our products in 3rd party data centers.

There is still a long road ahead, but we are progressing fast. DNA as a data storage media will unlikely reach high IOPS until we integrate the computing capability. This is an exciting long-term perspective and paradigm shift, and is one of our motivations for the acquisition of the assets from Catalog Technologies. Follow TechRadar on Google News and add us as a preferred
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