• 'Just imagine what could get done' How this US startup is buildi

    From TechnologyDaily@1337:1/100 to All on Fri May 29 22:30:26 2026
    'Just imagine what could get done' How this US startup is building a 'cheap' fab-in-a-box to do for microchips what IBM did for PCs

    Date:
    Fri, 29 May 2026 21:15:00 +0000

    Description:
    InchFab developed compact semiconductor fabrication systems using smaller wafers to reduce manufacturing costs, simplify workforce training, and
    support specialized industries.

    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 Subscribe to our newsletter Small wafer fabs could dramatically reduce semiconductor manufacturing startup costs worldwide Compact chip factories may accelerate semiconductor workforce training across developing industries InchFab believes utilization matters more than wafer size in semiconductor economics The semiconductor industry traditionally depends upon gigantic fabrication plants costing billions of dollars and requiring years before meaningful chip production even begins.

    A United States startup called InchFab believes much smaller facilities could dramatically reduce those barriers by shrinking semiconductor manufacturing equipment itself. Founded by MIT graduate Mitchell Hsing alongside several collaborators, the company builds compact clean-room fabrication systems designed around smaller silicon wafers. Latest Videos From You may like Chinese scientists aim to save Moores Law by mass-growing 2D materials that 'outclass silicon' Silicon-based qubits have a clear advantage in race to million-qubit quantum computer Micron's $50 billion chip factory in Idaho
    will use billions of litres of water every year Smaller wafers reduce manufacturing costs Instead of constructing sprawling industrial campuses processing massive wafer volumes, InchFab compresses fabrication capability into modular systems roughly matching shipping container dimensions.

    The company claims those systems cost between $5 million and $15 million dollars, far below conventional semiconductor fabrication facilities
    requiring multibillion-dollar investments.

    Hsing explained that the company initially experimented with one-inch wafers because standard photolithography fields naturally aligned with those
    physical dimensions.

    That approach quickly encountered practical complications because one-inch wafers are difficult to source commercially and require manual cutting from larger substrates. 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
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    It later shifted toward two-inch wafers before ultimately settling around four-inch formats that balanced practicality with equipment miniaturisation advantages.

    According to Hsing, shrinking fabrication systems change the physics surrounding plasma processing because chamber surface area becomes increasingly dominant relative to internal volume.

    He noted that plasma-based systems contain protective sheath layers
    preventing chamber walls from degrading during operation. What to read next Elon Musk wants Texas 'Terafab' plant to produce one terawatt of computing power each year This tiny chip could turn skinny Aviators into smart glasses without a bulky battery How silicon photonics could reshape AI, computing,
    and data infrastructure

    Some engineering challenges reportedly become easier under reduced dimensions because pumps, valves, mass-flow controllers, and vacuum regulation systems require smaller operating volumes.

    Hsing stated that controlling compact plasma chambers simplifies several backend processes compared with maintaining stability inside large industrial semiconductor equipment operating continuously at scale. Compact FABs support several techniques InchFab claims its systems still perform many standard semiconductor manufacturing processes used throughout established fabrication environments worldwide.

    The company lists lithography, metrology, plasma-enhanced deposition, atomic-layer deposition, dry etching, and multiple wet processing techniques among supported fabrication capabilities.

    Hsing acknowledged that lithography remains the companys primary limitation because feature size and production speed still depend heavily upon exposure technology constraints.

    He explained that electron-beam methods can theoretically achieve extremely small geometries, although slower write speeds reduce practicality for large manufacturing volumes.

    Critics question whether smaller wafers can remain economically competitive against larger fabrication plants processing thousands of wafers monthly at
    an industrial scale.

    Hsing rejected that criticism directly, arguing that fabrication economics depend more heavily upon utilization rates and capital efficiency than wafer dimensions alone.

    Oftentimes we can be price competitive with an 8-inch foundry today, Hsing said while discussing specialized industrial and aerospace manufacturing requirements.

    The company currently serves customers operating in biomedical, sensing, aerospace, defense, photonics, and compound semiconductor sectors.

    All these fields require low production volumes and customized process flows, which are suitable for InchFab.

    InchFabs business also involves workforce training for countries attempting
    to establish domestic semiconductor manufacturing capability without waiting years for large facilities.

    Theres no better way, no cheaper way, to start it than with something like an InchFab, Hsing stated during discussions surrounding workforce development programs.

    Whether compact fabs genuinely democratize semiconductor manufacturing
    remains uncertain.

    Advanced chip production still depends heavily upon lithography performance and manufacturing consistency.

    Still, smaller fabrication systems could become increasingly attractive for specialized industries where flexibility, training, and lower capital matter more than scale

    Via IEEE Spectrum Follow TechRadar on Google News and add us as a preferred source to get our expert news, reviews, and opinion in your feeds.



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