Tag: research infrastructure funding

  • bioRxiv vs arXiv: Two Funding Models Compared

    bioRxiv vs arXiv is fundamentally a contrast in governance age and funding model: bioRxiv now operates under openRxiv, an independent nonprofit launched in March 2025 with a $16 million Chan Zuckerberg Initiative grant, while arXiv left Cornell University on 1 July 2026 to become arXiv, Inc., a member-governed Delaware nonprofit. Both are open-access preprint repositories, but the organisations behind them have chosen different paths to long-term sustainability.

    A preprint server is a repository that distributes complete but not-yet-peer-reviewed research manuscripts, allowing authors to establish priority and gather feedback before formal journal publication. The choice between bioRxiv and arXiv is usually made on subject scope — but the more consequential difference, and the subject of this analysis, is who pays for each server and who is accountable for keeping it running.

    What is the core difference between bioRxiv and arXiv?

    bioRxiv is a preprint repository for the life sciences, co-founded by John Inglis and Richard Sever in November 2013 and originally hosted at Cold Spring Harbor Laboratory (CSHL). arXiv is the older, broader repository, launched in 1991 by physicist Paul Ginsparg to serve physics, mathematics, computer science, quantitative biology, statistics and economics.

    The subject-matter split is well documented elsewhere. What is less widely reported is that both organisations have, within the past sixteen months, exited the institutions that originally housed them and adopted new independent governance structures — bioRxiv (with its clinical-sciences sibling medRxiv) in March 2025, and arXiv on 1 July 2026. That timing makes a direct governance comparison newly possible.

    Who funds and governs bioRxiv today?

    bioRxiv and medRxiv are now operated by openRxiv, an independent nonprofit that launched in March 2025 after both servers transferred out of Cold Spring Harbor Laboratory. The spin-out was funded by a $16 million grant from the Chan Zuckerberg Initiative (CZI), with additional foundational support from CSHL, BMJ Group and Yale School of Medicine.

    openRxiv runs a researcher-led governance board rather than a single-institution reporting line. Its board is chaired by Scott Fraser, CZI’s vice-president of science grant programmes, and includes medRxiv co-founder Harlan Krumholz (Yale cardiologist), Princeton University president emeritus Shirley Tilghman, and CSHL president Bruce Stillman. This puts editorial and operational oversight in the hands of named scientists rather than a university administration.

    The scale bioRxiv now supports is substantial: the server has posted roughly 268,000 preprints from around 970,000 authors, adding approximately 4,000 new submissions a month, while medRxiv has posted around 64,000 preprints and adds roughly 1,000 monthly. Authors cannot post the same manuscript to both servers — submissions must be routed to bioRxiv for basic biology or medRxiv for clinical and public-health work.

    How is arXiv’s new independent nonprofit structured?

    arXiv formally left Cornell University on 1 July 2026 to become arXiv, Inc., a standalone Delaware nonprofit corporation. Under Delaware nonprofit law, arXiv, Inc. was established by two founding Members — the Simons Foundation and Cornell University — who appointed the initial Board of Directors and secured the organisation’s IRS 501(c)(3) tax-exempt status.

    The Board of Directors will hold up to twelve seats, with Cornell and Simons Foundation serving as founding Members for up to five years before the seat structure opens further. arXiv, Inc. launched with three years of operating funding already secured, and Simons Foundation has committed support for at least five years.

    Unlike openRxiv’s grant-anchored model, arXiv layers a community membership programme on top of philanthropic funding: participating institutions pay up to $10,000 a year, scaled to the volume of preprints they post, in exchange for a formal voice in governance and access to usage data. Recent gift and grant activity illustrates the scale of philanthropic backing involved — arXiv received a combined $10 million from the Simons Foundation and the National Science Foundation in 2023, and a further $7 million from Schmidt Sciences and NASA in November 2025 to fund cloud migration and codebase modernisation, according to Cornell Chronicle and the arXiv blog.

    bioRxiv vs arXiv: governance and funding at a glance

    Feature bioRxiv (via openRxiv) arXiv (arXiv, Inc.)
    Founded November 2013 1991
    Field focus Life sciences (medRxiv covers clinical/health) Physics, mathematics, computer science, quantitative biology, economics
    Prior institutional host Cold Spring Harbor Laboratory, until March 2025 Cornell University, until 1 July 2026
    Current governing body openRxiv (independent nonprofit, launched March 2025) arXiv, Inc. (independent Delaware nonprofit, launched 1 July 2026)
    Governance structure Researcher-led board chaired by CZI’s Scott Fraser Up to 12-member Board of Directors; Simons Foundation and Cornell as founding Members
    Anchor funder / grant $16m Chan Zuckerberg Initiative grant (2025) $10m Simons Foundation/NSF (2023); $7m Schmidt Sciences/NASA (2025)
    Funding model Philanthropic grant-backed nonprofit Community membership fees (up to $10,000/institution) plus philanthropic grants
    Scale ~268,000 preprints, ~4,000 new/month 185,692 new submissions in 2022; 5m+ monthly active users

    What sustainability lessons does this hold for research infrastructure?

    Both transitions solve the same underlying problem — a critical piece of scholarly infrastructure had outgrown dependence on a single host institution’s budget and administrative structure — but they reach different equilibria. openRxiv concentrates funding risk in a small number of major philanthropic grants and a named scientific board; arXiv, Inc. spreads risk across founding-Member philanthropy, a rotating board, and a paying community membership base that also confers governance voice.

    For research-administration audiences, the comparison matters beyond preprints. Standards bodies, taxonomies and shared research infrastructure face the identical sustainability question: who pays when the founding host can no longer carry the cost, and who is accountable once it leaves? arXiv’s membership-fee model gives institutional funders a formal stake in governance decisions, which can improve long-term buy-in but adds administrative overhead; openRxiv’s grant-concentrated model is faster to stand up but leaves the organisation more exposed to a single funder’s priorities.

    • Diversified funding (multiple grants plus membership fees) tends to reduce single-point-of-failure risk, at the cost of governance complexity.
    • A named, credentialed scientific board — as both openRxiv and arXiv, Inc. now have — signals accountability to funders and the research community alike.
    • A founding-institution “off-ramp” clause (Cornell and Simons Foundation’s five-year Member term) gives a transition period without permanent institutional lock-in.

    Neither model has a multi-year track record yet: openRxiv is little more than a year old, and arXiv, Inc. has been operating for two days at the time of writing. The next eighteen to thirty-six months, as both organisations report their first independent financial results, will be the real test of which governance structure proves more resilient.

    Common questions about bioRxiv and arXiv

    Is arXiv the same as bioRxiv?

    No. arXiv and bioRxiv are separate organisations with different founding dates, subject scopes and governance structures. arXiv (1991) covers physics, mathematics and computer science and is now run by the independent nonprofit arXiv, Inc.; bioRxiv (2013) covers life sciences and is run by the separate nonprofit openRxiv.

    Who owns bioRxiv?

    bioRxiv has no single owner; it is operated by openRxiv, an independent 501(c)(3) nonprofit that launched in March 2025 after transferring from Cold Spring Harbor Laboratory. The transition was backed by a $16 million grant from the Chan Zuckerberg Initiative and governed by a researcher-led board.

    Is bioRxiv considered a publication?

    No. bioRxiv describes itself as a repository for preprints — complete but unpublished manuscripts that have not undergone peer review. Two-thirds of bioRxiv preprints are later published in peer-reviewed journals, but the preprint itself is not treated as the final scholarly record.

    Is arXiv a respected journal?

    arXiv is not a journal at all — it is a moderated preprint repository. Submissions are checked by volunteer moderators for scope and appropriateness but are not peer-reviewed in the journal sense, even though arXiv is widely regarded as authoritative within physics, mathematics and computer science.

    Both organisations illustrate that community-run research infrastructure now increasingly separates itself from any single host institution, replacing it with dedicated nonprofit governance and diversified funding. Institutions engaged in research administration evaluating which model to support — or which to emulate for other shared infrastructure — should watch how each organisation reports its first full year of independent finances.

  • AI Growth Zones Explained: What They Mean for University Research Infrastructure

    The UK government’s AI Growth Zones programme is no longer just a policy paper — it is now five confirmed sites, a dedicated Delivery Unit, and a package of grid, planning and pricing incentives worth up to £100 billion in projected investment. For university leaders weighing whether to bid into a zone, partner with an anchor developer, or simply understand what “zone status” changes for regional compute access, the detail in the November 2025 Delivering AI Growth Zones policy paper matters more than the headline announcements.

    What Are AI Growth Zones?

    AI Growth Zones (AIGZs) are UK government-designated sites intended to fast-track the build-out of AI-enabled data centres and their supporting infrastructure. The concept originated in the AI Opportunities Action Plan, published in January 2025, which set a target of expanding the UK’s sovereign compute capacity at least twentyfold by 2030.

    To qualify, a site typically needs access to at least 500 megawatts (MW) of power, together with a credible route through planning. In return, government channels three main levers toward a designated zone:

    • Grid priority — reserved and reallocated connection capacity created under new mechanisms tied to the Planning and Infrastructure Bill.
    • Energy pricing support — a targeted electricity discount for zones that ease network constraints.
    • Planning acceleration — updated national planning guidance, added specialist capacity, and faster consenting for Nationally Significant Infrastructure Projects.

    Where Are the UK’s AI Growth Zones?

    Five zones have been confirmed since the pilot was announced in January 2025, spanning England, Wales and Scotland:

    Zone Status Anchor site / partner Notable feature
    Culham, Oxfordshire Pilot (announced Jan 2025) UK Atomic Energy Authority (UKAEA) campus Began at 100MW, scaling toward 500MW; testbed for public-private compute delivery
    North East England Confirmed Sept 2025 Cobalt Park and Blyth, Northumberland Anchor site for OpenAI’s Stargate UK project
    North Wales Confirmed Linked to Small Modular Reactor (SMR) development and local universities Nuclear-adjacent power supply strategy
    South Wales Confirmed Digital infrastructure corridor Builds on existing fibre and industrial land
    Lanarkshire, Scotland Confirmed Jan 2026 North Lanarkshire Scotland’s first AI Growth Zone; over 3,400 jobs projected plus community and skills funding

    More than 200 local and regional authorities registered interest when bidding opened in February 2025, and government has said further zones will be confirmed as bids progress — so this list is a snapshot, not a final map.

    Compute Siting, Energy Discounts and What Zone Status Delivers

    The Delivering AI Growth Zones policy paper (13 November 2025) is explicit that grid access, not land or planning alone, is the binding constraint on UK data centre build-out. Government has pledged reforms it says will cut time-to-power by up to five years for zone-sited projects.

    A targeted pricing support mechanism, subject to legislation, is due to apply from April 2027, with a review point in 2030. For a 500MW data centre, this recycles grid-constraint savings into a regional electricity discount:

    Region Electricity discount (per MWh)
    Scotland Up to £24
    Cumbria Up to £16
    North East England Up to £14

    Government estimates this could save a single 500MW site up to £80 million a year in electricity costs. Local authorities hosting a zone in England will also retain 100% of business rate growth for 25 years from April 2027 — worth an estimated £5–10 million per site annually once complete — administered through a new AI Growth Zone Delivery Unit inside the Department for Science, Innovation and Technology (DSIT), which acts as a single point of contact for investors and developers.

    None of this is guaranteed simply by being near a zone. The discounts and fast-tracked consenting attach to the data centre operator and the specific designated site — not automatically to every institution or business in the surrounding region.

    What This Means for Universities and Research Infrastructure

    Universities sit on both sides of the AI Growth Zone equation: as potential bid partners helping local authorities make the case for a site, and as institutions that stand to benefit — or not — from the compute, skills funding and jobs a confirmed zone brings.

    The bidding pattern to date has been consortium-led. When the University of York and North Yorkshire Council submitted a joint AI Growth Zone bid in 2025 alongside private-sector partners, it followed the model government has encouraged: local authority as lead applicant, university as research and skills anchor, private developer as capital and technical partner. Culham’s pilot zone similarly pairs a public research body, UKAEA, with a commercial data centre developer.

    It is worth being precise about what a zone actually funds for a university partner. Three separate funding lines apply:

    • Local AI adoption funding — up to an initial £5 million per confirmed AI Growth Zone, for local schemes covering R&D commercialisation and start-up scaling.
    • Skills infrastructure — the £187 million national TechFirst programme, short AI courses via the Growth and Skills Levy, and five new digital Technical Excellence Colleges.
    • Compute access itself — which is not automatically bundled with zone status. The commercial data centres built inside a zone serve the operator’s own customers unless a specific public-private agreement, as at Culham, reserves capacity for public research use.

    That last distinction matters and is frequently blurred in coverage of the scheme. AI Growth Zones are an industrial-siting and energy policy, designed to get commercial data centre capacity built faster in Britain. They are a different instrument from the National AI Research Resource (AIRR), the UKRI-backed programme that funds shared compute facilities specifically for academic and public-sector researchers, including Isambard-AI at the University of Bristol and Dawn at the University of Cambridge. A university in or near an AI Growth Zone gains proximity, jobs and skills funding, and potentially a negotiating position with an anchor developer — it does not automatically gain a share of that developer’s compute unless that access is separately contracted.

    For research administrators and institutional leaders, the practical questions when a zone is proposed or confirmed nearby are therefore: who leads the bid consortium; what specific compute, skills or R&D commitments the anchor developer has made in writing; and how any AIRR-funded facility relates to, or is entirely separate from, the zone’s commercial capacity.

    How do universities get involved in an AI Growth Zone bid?

    Universities typically join as consortium partners to a local authority-led bid, contributing research credibility and skills pipelines. The University of York and North Yorkshire Council bid followed this model, alongside private-sector capital and technical partners.

    Are AI Growth Zones the same as the National AI Research Resource?

    No. AI Growth Zones are an industrial-siting and energy policy for commercial data centres, while the National AI Research Resource is a separate UKRI-backed compute programme for academic researchers, including facilities at Bristol and Cambridge.

    Which UK regions currently have confirmed AI Growth Zone status?

    As of mid-2026, confirmed zones include Culham (Oxfordshire), North East England, North and South Wales, and Lanarkshire, Scotland. Further sites are expected as government works through more than 200 registered local-authority bids.

    What electricity discount do AI Growth Zone data centres receive?

    From April 2027, subject to legislation, eligible 500MW data centres can receive discounts of up to £24/MWh in Scotland, £16/MWh in Cumbria, and £14/MWh in the North East, with a review point in 2030.

    The Delivery Unit’s pipeline is still moving: further zone confirmations are expected through 2026 as more of the 200-plus registered bids are assessed. For institutions weighing a role — as bid partner, skills provider, or negotiating occupant — the operative lesson from Culham, the North East and Lanarkshire is the same: zone status changes the investment and energy case for a commercial data centre; it does not, by itself, change what compute a university can access. Read more on research infrastructure funding and governance in CASRAI’s research administration resources, and consult the CASRAI Dictionary for definitions of related research-computing and data-governance terms.