For those who haven’t noticed the anti-contaminant “bunny suit” pictures floating around Ian's Twitter page, this past weekend Ian and I took part in a tour of GlobalFoundries Fab 8 in Malta, New York. Joining a small media and analyst contingent, we were led behind-the-scenes through the cleanroom and support facilities, and had a chance to speak with select GlobalFoundries executives and managers. There wasn’t a singular purpose or focal point of the tour, and in effect it was more like GlobalFoundries impressing upon us the visceral experience of witnessing their most advanced fab in active operation. This fab, Fab 8, is where GlobalFoundries will create 7nm, with EUV rumbling into motion for them and the rest of the industry.

It is hard to overstate how rare this opportunity was, and how fortunate we were, not only in getting such unadulterated access to a semiconductor foundry’s most advanced factory, but also in walking through the actual cleanroom, where the magic is done upon the silicon wafers. There were more formal discussions later in the day, but the centerpiece was clearly the site walk, which we’ll have to describe in words (as unsurprisingly we weren’t allowed to take pictures). For such a subjective showcase, an anecdotal reflection seems more fitting to illustrate the experience; after all, even AnandTech analyst-journalists still count as journalists, reporting on what they see. Though I should note that less fluffier articles are forthcoming: a thorough news piece, AnandTech Podcast 45, and Ian’s exclusive 1-on-1 interview with GlobalFoundries CTO Gary Patton.

It was only a couple months ago since GlobalFoundries approached us with the invitation, and as Ian and I both desperately wanted to go, we both went to the fab (short for semiconductor fabrication plant). For me, a relative newcomer to AnandTech’s ranks, it felt like I was allowed a peek inside Santa Claus’ toy factory while I was still a kid and could believe in such magical things. Growing up is realizing that fabs are sophisticated sinkholes of ever-increasing capital expenditure in the eternal quest to outsmart physics, so much so that where there used to be dozens of foundries and IDMs jostling at the cutting edge, there are now just four: TSMC, Intel, Samsung, and GlobalFoundries. Of them, only TSMC and GlobalFoundries are pure-play foundries, only taking orders from fabless chip designers rather than fabbing their own designs.

Like Ian and I have discussed in the podcast, we were guided through the sub-fab and cleanroom, free to badger our escorts with all sorts of questions. I started first with the sub-fab, named so as it occupies a huge space underneath the cleanroom; 6-to-1 was the cited ratio of sub-fab to cleanroom space. Responsible for supporting the tools and sustaining the super-clean environment above it, the sub-fab is really just a labyrinth of pipes and long corridors. Looking up to the ceiling, there are pipes. Looking to the side rooms, there are boilers, giant containers, and pipes. Looking to the middle, there are rows and rows of machinery – which have pipes leading upwards. All of these carry all sorts of chemicals, liquids, and slurries necessary to carve out billions of tiny electronic flecks on a wafer. Extending outdoors were more connections, some linking to Central Utility Buildings or ultra-pure water facilities, others to tanks of oxygen, hydrogen, and liquid nitrogen, all dedicated to supporting the fab.

Nate Oh in a bunny suit in the Fab 8 cleanroom

To enter the cleanroom, we meticulously donned the bunny suits in proper order: glove liners, hairnet and beard cover, mask, hood, gown, boots, goggles, and finally our cleanroom ID badges. Even for the gowns, we had to put them on strategically as not to let it touch the floor. The space naturally had filters and positive air pressure to keep out as many particles as possible, but the most noticeable thing when we entered was overhead, where cart-like ‘vehicles’ zipped along while hanging from tracks on the ceiling, slowing down in traffic and speeding up on the straightaways. Transporting the amusingly named FOUPs and FOSBs, the whole system seemed distinctly like an upside-down miniature Sim City of boxes.

Meanwhile, other fab workers diligently vacuumed up the floor. Workers dealing with copper walked around with their own red-collar bunny suits, delineated that way due to possible electromigration issues. Vendors had their own grey suits, like the ASML team we saw working on the giant EUV tools, one of which was still in components of exposed pipes and wires. The familiar industrial sights of Windows XP and trackball mice poked out of the rows of boxy ASML tools, illuminated by the dim yellow lights that were still present for much of the cleanroom. All-in-all, it seemed a lot like stepping into a tiny museum-like sci-fi city.

Ian Cutress in a bunny suit in the Fab 8 cleanroom gowning area

The operations engineer would tell us that this was the most automated fab in the world, where no one moves or touches the wafers at all. GlobalFoundries had built Fab 8 from the ground-up to be highly automated, and the ‘vehicles’ were the key part. For these automated machines, their locations on the tracks were monitored, and when encountering certain errors they chirped out the first bit of “Mary Had a Little Lamb,” which from a distance I honestly thought was a musical machine chorus of some kind. Each of the wafers being transported, 25 a time in one of the FOUPs, were shielded from the environment and also from light throughout the whole process. We finally got to see a wafer in one of the machines on the side, which stored defected wafers.

Here and there, the GlobalFoundries personnel kept referring to the analogy of an iceberg, where the cleanroom was just the most visible tip. And that theme of an outsized structure supporting one relatively small piece seems to be prevalent. I believe it was Fab 8 General Manager Tom Caulfield that called their industry a unique one because all their eggs are always in one or two process node baskets, something that GlobalFoundries brushed with in the case of 14nm. At present, they are continuing to push a dual roadmap with 12nm and 7nm FinFET on one side, and on the other, fully-depleted silicon-on-insulator (FD-SOI) for lower-cost applications. But Fab 8 is key to all of those, producing 14/12nm currently, ramping up 7nm optical, while developing EUV and researching 12nm FD-SOI. Both 7nm and FD-SOI are major junctures for them, and it will be interesting to see what they can make of it, particularly as they continue to make use of the IBM talent. And on that note, whatever the future holds for 14HP IBM process, as well as what follows on 7nm.

Even though the technology and actual manufacturing steps are known, it really is something else to see it in action, which goes double for a state-of-the-art fab. It’s strange to remember that I was actually in the cleanroom of GlobalFoundries’ Fab 8 actively churning out 14/12nm silicon, a scenario that would’ve sounded absurd a year ago because in many ways, I still think of myself as an AnandTech reader rather than an AnandTech editor. Not to mention meeting other analysts and journalists that I previously knew only as a reader of their written work.

As someone who lives very much downstate, it’s a bit funny that a little gem like this exists in upstate New York, in the sense that there are only a handful of 16/14nm fabs in the world. But I’ve definitely been lucky to visit Fab 8 like this, especially as a newcomer. I’d just like to hope that it won’t be the last fab I’ll visit.



View All Comments

  • notashill - Thursday, February 8, 2018 - link

    Really neat to see this, it's where all the desktop Ryzen chips are made so I have a chip from this fab. Fab 8 and 10 are the only GF locations currently producing 14nm and they're both in New York. Packaging occurs in either Malaysia or China though, for Ryzen chips at least. I've gotten one of each between my original purchase and RMA. Reply
  • krumme - Friday, February 9, 2018 - link

    Well written article especially as we cant have a pictures ! Keep up the good work team AT. Reply
  • sheh - Saturday, February 10, 2018 - link

    Depending on the definition of "cutting edge", there are two more foundries: UMC and SMIC. Reply
  • Thunder 57 - Saturday, February 10, 2018 - link

    Anyone else find it odd they include 20nm in that photo? AFAIK they never did produce 20nm. Reply
  • FunBunny2 - Saturday, February 10, 2018 - link

    this Fab, writ large, creates a conundrum: if the Stuff we make involves no labor, how can that subsist? 1 - no humans have any money to buy stuff 2 - such mass production only works if the number of units is infinitely large to disperse the capital cost. any ideas? do we all have to become real estate moguls? Reply
  • serendip - Sunday, February 11, 2018 - link

    Capital begets more capital, as Thomas Piketty pointed out. The wealthy get wealthier from returns on capital while workers - 99% of us - get less and less for our efforts. Some day the consumer economy will hit a brick wall when consumers can no longer consume at the rate required by capital. Who will buy these chips then? Reply
  • rolandswan - Monday, February 26, 2018 - link

    You clarified the very important topic, I want some information regarding it basically provides web hosting service. Reply
  • rolandswan - Monday, February 26, 2018 - link

    I like the way you describe this valuable idea it wants some tips related this topic

Log in

Don't have an account? Sign up now