Challenge portfolio
ABOUT THE EIC PATHFINDER CHALLENGE PORTFOLIO
Current digital data storage technologies face sustainability challenges due to high energy consumption and the use of rare and toxic materials.
DNA-based storage offers a promising alternative with significantly higher information densities and millennia-long stability. While in vitro DNA archiving has proven successful, economic viability remains a challenge, especially for broader applications and data types. Despite technical hurdles, interest from large corporations and governments is growing, particularly in Europe, where there is potential for academic and commercial development.
The EIC Pathfinder Challenge seeks scalable and reliable approaches for using DNA as a data-storage medium. Solutions should enhance read, write, and/or edit operations, leveraging DNA’s density and stability. Alternative coding techniques and polymeric substrates are also considered, provided they offer similar benefits. Proposed techniques must improve throughput, DNA length, reliability, speed, and cost. Applications may extend beyond data storage, to data-processing, in vivo sensing, and/or fingerprinting.
OBJECTIVES OF THE CHALLENGE
New approaches for coding, decoding, modification or computational use of digital data in synthetic DNA or other sequence-controllable polymers with quantitative targets (theoretical and technological)
Proof-of-Concept of technical feasibility with indications of at least state of the art benefits and major operational characteristics (e.g. extreme densities, longevity, stability) and going well beyond for some of them (e.g. speed, cost, accuracy)
End-to-end scenarios of use, be it for data storage (archival, but also shorter term storage) or other purposes (like sensing, cryptography or computation) that exploit the benefits of the technology
PROJECTS WITHIN THE CHALLENGE PORTFOLIO
The EIC Pathfinder Challenge seeks scalable and reliable approaches for using DNA as a data-storage medium. Solutions should enhance read, write, and/or edit operations, leveraging DNA’s density and stability. Alternative coding techniques and polymeric substrates are also considered, provided they offer similar benefits. Proposed techniques must improve throughput, DNA length, reliability, speed, and cost. Applications may extend beyond data storage, to data-processing, in vivo sensing, and/or fingerprinting.
MIcrobe-synthesised DNA NAnostructures for DIsplay-controlled Storage Cartridges
Interoperable end-to-end platform of scalable and sustainable high-throughput technologies for DNA-based digital data storage
Computational, Chemical and Biotechnology Solutions to Improved DNA Data Storage: from In-Product Information and Cryptography to Long-Term Archiving
DNA-based Infrastructure for Storage and Computation
Interoperable end-to-end platform of scalable and sustainable high-throughput technologies for DNA-based digital data storage
TEXTA-DNA
High-throughput oligonucleotide synthesis and NGS for Digital TEXT Storage And retrieval in DNA encapsulated nanofibers
HYPERION
Proof of concept of affordable and scalable DNA data storage by developing a writing technology based on enzymatic DNA synthesis with a very dense semiconductor integrated circuit (CMOS chip)
NEO DNA
Next Generation Molecular Data Storage
WORKING GROUPS
In order to structure and intensify collaborative efforts of the Pathfinder Challenge portfolio projects, four working groups targeted at different outcomes and interest groups were created. These working groups include Technical synergies, Outreach and Public Engagement, Metrics as a foundation for Standards and Roadmapping, and Protection and Exploitation.
As part of the portfolio, DNAMIC will participate in each of the working groups to ensure efficient collaboration and development of synergies with other projects within the portfolio. DNAMIC partners will actively participate in all portfolio-related activities.
WG1
Technical synergies
WG2
Outreach and Public Engagement
WG3
Metrics as a foundation to Standarts and Roadmapping
WG4
Protection and Exploitation