U.S. semiconductor investment https://cascadesystems.net Electronic Contract Manufacturing Tue, 14 Feb 2023 01:33:16 +0000 en-US hourly 1 https://wordpress.org/?v=6.4.4 https://cascadesystems.net/wp-content/uploads/2023/07/cropped-cst_icon_white_bg.png U.S. semiconductor investment https://cascadesystems.net 32 32 180530448 CST President & Chief Executive Officer, Shantanu Gupta, moderates Intel Alumni Panel entitled “The Intel 386 Processor – A watershed moment in computing.” https://cascadesystems.net/cst-president-chief-executive-officer-shantanu-gupta-moderates-intel-alumni-panel-entitled-the-intel-386-processor-a-watershed-moment-in-computing/?utm_source=rss&utm_medium=rss&utm_campaign=cst-president-chief-executive-officer-shantanu-gupta-moderates-intel-alumni-panel-entitled-the-intel-386-processor-a-watershed-moment-in-computing https://cascadesystems.net/cst-president-chief-executive-officer-shantanu-gupta-moderates-intel-alumni-panel-entitled-the-intel-386-processor-a-watershed-moment-in-computing/#respond Tue, 14 Feb 2023 01:33:16 +0000 https://cascadesystems.net/?p=1201 Last month, I had the high honor and genuine pleasure to serve as the moderator of an online panel discussion held by the Intel Alumni Network. Held on January 11 and recorded for posterity – see the link below — the event was accurately titled “The Intel 386 Processor – A watershed moment in computing.” […]

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Intel 386 panel discussion - January 2023, hosted by Intel Alumni Network

Last month, I had the high honor and genuine pleasure to serve as the moderator of an online panel discussion held by the Intel Alumni Network. Held on January 11 and recorded for posterity – see the link below — the event was accurately titled “The Intel 386 Processor – A watershed moment in computing.”

As you’ll see, the panel provided fascinating behind-the-scenes perspectives from some of the top innovators assigned to what was then considered Intel’s “Job 1” in the early 1980s, designated as such by legendary then-CEO Andy Grove who rightly staked the company’s future on pivoting away from the commoditized memory business toward the infinite promise of microprocessors.

Included on the panel were John Crawford, Claude Leglise, Joseph “Chip” Krauskopf, and current Intel CEO Pat Gelsinger (see their bios below), all of whom clearly enjoyed sharing stories, insights, lessons learned, and friendly reminiscences about the challenges, objectives & strategies, innovations, and camaraderie that characterized the development of Intel’s 386 microprocessor. (It is not an exaggeration to say Intel’s 386 played a seminal role in catalyzing the PC industry in the mid-1980s, which in turn enabled the subsequent ubiquity of microprocessors in countless consumer, business, and industrial electronics we rely on and take for granted today!)

As you dive into the panel discussion – honestly, I think any and all lovers of technology will find it interesting – you may wish to take note of several threads I’ve touched on in recent months here in CST’s blog, among them:

  • The importance of educating and providing opportunities for the next generation of technological innovators. As you’ll see, the panelists and their team-mates were largely recent graduates with freshly minted degrees in computer science or other engineering disciplines. Given both a high-stakes objective and a long leash by Intel’s upper management – and blessed with brilliant minds, determination, and a scrappy, can-do attitude – the 386 team and initiative is a perfect case history for why our industry, indeed our nation, should aggressively invest in STEM education.
  • Given the intensity of the effort, long hours, risk taking, and multi-person focus on a single goal – a remarkable espirit de corps emerged on the 386 project. I’ve seen and written about the value of teamwork at CST and seen it first hand during my own time at Intel. Yet another reminder how strong teams can achieve incredible results!
  • Several of my recent blog posts touched on how critical it is that the United States invests in creating a fully formed semiconductor ecosystem – or, more precisely, recreating the infrastructure we’d begun to develop before the off-shoring craze of the 1990s. When you consider the vast and far-reaching impact that Intel’s 386 had on the PC market following its introduction, it’s no great leap to imagine all we might once again achieve by fostering and investing in the semiconductor-based technology innovation engine right here in America.
  • Last but not least, the very exercise of looking back at the early days of the microprocessor is instructive in that it serves as a tangible reminder that we, too, are entering a whole new, but in some ways remarkably similar, technology revolution. AI, IoT, autonomous transportation, augmented and virtual reality, cloud and edge computing, smart cities, astounding technological advances in green and clean-energy, a new era in space exploration… In my heart, this time feels very much like the extraordinary frontier we were entering with the 386. Let us learn, take some of our cues, and take inspiration from those exciting, not-so-distant days.

I hope you enjoy watching and listening to this discussion as much as I enjoyed leading it!

–  Shantanu R. Gupta,
President & CEO, Cascade Systems Technology


Panel member biographies:

Claude Leglise started working at Intel straight out of graduate school in 1982 as a Product Marketing Engineer for the 8086/8088 processors. A year later in 1983, he was promoted to marketing manager for the 286 and 386 families, where he was responsible for the successful launch of the 386. As the marketing director for all microprocessors, he led the public launches of several new products, including the 386SX, 486, and i860. After spending 23 years at Intel, Claude switched careers and became a venture capitalist. He has one US patent to his name.

Chip Krauskopf joined Intel and the 386 project in 1983 with a BS in Computer Engineering and an MSEE. He was part of the team responsible for the design of the Segmentation Unit of the 386, which solved the infamous “64K limit” problem for software programmers and earned him an Intel Individual Achievement Award. He later managed the design automation for the 486 and spent 20 years at Intel before moving on to work for startups. Chip has 6 US patents to his name, 5 of which were awarded for his contributions to the 386 project, and has received 4 Intel Achievement Awards.

John Crawford started his career at Intel as a software developer for 8086 programming tools for 4 years before being assigned to the 386 project as its first employee. He served as the Architect, defining the instruction set, and led the development of the microcode and test programs. He went on to lead similar roles on the 486 and Pentium processors. John is now retired and was named an Intel Fellow and member of the National Academy of Engineering. He holds 52 patents and was awarded the ACM/IEEE Eckert-Mauchly Award.

Pat Gelsinger is the CEO of Intel, the world’s largest chipmaker. He joined the company in 1979 and has held a variety of leadership positions in engineering and product groups. Prior to his current role, Gelsinger was the CEO of cloud computing company VMWare. Under his leadership, Intel is focusing on growth and innovation in both its core business and new areas such as artificial intelligence and the Internet of Things. As CEO of Intel, Pat Gelsinger has made several significant contributions and launched important initiatives to drive the company’s growth and competitiveness, including:

  • Investment in advanced manufacturing, including a multi-billion-dollar plan to build two new fabs in the United States and expand existing facilities.
  • Focus on AI and data-centric innovation, including the acquisition of Habana Labs, a leading AI chipmaker.
  • Partnership with other tech companies to accelerate Intel’s growth and innovation in key areas such as 5G networks, cloud computing, and IoT.
  • Reinvigorating Intel’s core PC business, responding to increased competition and supply chain disruptions with several new products and initiatives.

Shantanu Gupta (panel moderator) spent 28 years working at Intel in a variety of roles, including server CPU design development, marketing, and business development for existing and new markets. He joined Intel after finishing graduate school and initially worked on the Intel 960 processor before joining the design team for the Pentium Pro (P6), Intel’s first server processor before Xeon. He has nine patents in the field of processor architecture and design from his work on the Pentium Pro (P6). Today, he is the CEO of Cascade Systems Technology, an EMS company located in Hillsboro, Oregon.

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The time is right to regain our domestic semiconductor edge! https://cascadesystems.net/the-time-is-right-to-regain-our-domestic-semiconductor-edge/?utm_source=rss&utm_medium=rss&utm_campaign=the-time-is-right-to-regain-our-domestic-semiconductor-edge https://cascadesystems.net/the-time-is-right-to-regain-our-domestic-semiconductor-edge/#respond Wed, 15 Dec 2021 12:10:26 +0000 https://cascadesystems.net/?p=968 In June’s blog, I wrote about my support for the then-$3 trillion infrastructure initiative being promoted by President Biden and promised to share a couple of thoughts on the portion of that proposal aimed at strengthening our nation’s semiconductor sector (then valued at $50 billion). While few but the most ardent fans of political gamesmanship […]

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In June’s blog, I wrote about my support for the then-$3 trillion infrastructure initiative being promoted by President Biden and promised to share a couple of thoughts on the portion of that proposal aimed at strengthening our nation’s semiconductor sector (then valued at $50 billion).

While few but the most ardent fans of political gamesmanship enjoyed watching the bill-making process in D.C. over the intervening months, the final Bipartisan Infrastructure Law (formally the Infrastructure Investment and Jobs Act) was signed by President Biden on November 15. Now valued at a total of $1.2 trillion in infrastructure investment, this version unfortunately doesn’t appear to specifically call out semiconductor investments like the original version did – though it’s monster-sized investment in next-gen public transportation, smart energy grids, electric vehicles, water systems, broadband, and other segments of the economy will most definitely require plenty of computing power and indirectly spur growth of the semiconductor and the related technologies sector.

That being said, the $200 billion United States Innovation & Competition Act (USICA) bill passed by the Senate (June 8, 2021) did specially call for $52 billion to expand our semiconductor capacity – and remains viable, even if it has been sidelined by the larger infrastructure push and, right behind it, President Biden’s Build Back Better plan. (You can see a nice summary of USICA’s pros and cons here.)

Fingers crossed on that, as the saying goes!

Why all this fuss about the importance of bringing offshore semiconductor infrastructure and capacity back to the U.S.?

First and foremost – and as the pandemic made abundantly clear — there are the supply-chain problems that arise from not having our own robust semiconductor industry here in the U.S. On this, CEO of Intel, Pat Gelsinger, offered an excellent summary in his late-April op-ed in the Financial Times (shared via a post on LinkedIn). You can also see Pat discuss them at length with Senator Mark Kelly of Arizona and Fast Company’s Stephanie Mehta, last week at the Aspen Ideas Festival. Or check out his most recent comments (C/Net) on his plan to keep Intel competitive in this regard.

As important, if not more so, is the fact that not fully participating in the global semiconductor race from a firm position right here in the U.S. will be tantamount to ceding leadership in a whole range of absolutely vital sectors.

More to the point, I fervently believe that semiconductor leadership is actually critical to the future of this country and our remaining a world superpower. Consider that future AI computing platforms will all run on advanced silicon – and that future AI algorithms and compute solutions will, in turn, drive future breakthroughs in medicine (e.g. mRNA based treatments/Vaccines), mobile communication, cloud-computing, all of our best chances at stemming the literal rising tides of climate change (e.g. autonomous cars, smart cities, advanced clean energy systems), and much more. If the U.S. is not leading these industries, we’ll surely fall from our hard-earned perch at the top of the world’s technology flowchart.

Beyond the loss of economic prowess and competitiveness associated with all of that, next consider how honing and keeping our semiconductor edge is also a matter with serious national security ramifications. That’s because our government, security and cyber-security infrastructure, and military strength are all-but-entirely technology- (and therefore chip-) based, as are the defensive and offensive tools we rely on to protect our borders and promote democracy worldwide, e.g. avionic/drones, guided weapons, missile defense systems, mobile combat equipment, and much more. Put more bluntly: Given rising geopolitical tensions and stakes, imagine the preponderance of our national security infrastructure, advanced weaponry, radar systems, and all manner of military vehicles being based indefinitely on semiconductor content sourced outside from a land afar. Would that secure our position as a superpower?

And, finally, speaking of democracy, remember the adage that ‘nature abhors a vacuum.’ In geopolitical terms, that means that if America does not lead the way in semiconductor innovation — and at least build and maintain a respectable amount of capacity for chip manufacturing on this continent – some other power most certainly will.

What can participants in the tech industry do to help?

As I mentioned in my previous blog, there are a few things each of us can do besides sit passively on the sidelines, hoping policy makers in our nation’s capital ‘get this right.’

  • First, whether you are an OEM, PCBA/Circuit Board assembly provider like Cascade Systems Technology, or a raw-materials provider – you can consciously buy more content here in U.S., by gradually ratcheting down over-reliance on suppliers from afar.
  • Relatedly, the electronics industry can and should take note of, take pride in, and proactively support the many semiconductor-savvy, innovative and advanced-PCBA design and production resources already here in the U.S. (I count Cascade Systems Technology among these proven American “landing zones” for silicon, as we are an experienced team that is willing, eager, and committed to helping OEMs extract every bit of functionality and magic from their silicon.) In other words, even if you currently rely on chips from abroad, you can still source the rest of your “solution stack” right here in the U.S.
  • Next, and as I mentioned in my previous blog on the infrastructure bill, we can all take an active role in supporting the legislation now in the works – specifically the USICA I mention above: Write or call your representative to tell them you back President Biden’s and Congress’s efforts to bring chip-making home with the help of public dollar. To that end, here’s a link to the House of Representative site to ID/reach out to your Representative; and here is the equivalent for the U.S. Senate.
  • Lastly, if you are able, make investments in the U.S.-based semiconductor and technology sector, whether that means bringing more of your circuit board or box assemblies to your local CM; supporting technology education in schools and colleges; encouraging the youth of this country to seek careers in technology; forming strategic alliances with U.S. or at least free-world chip suppliers; or employing other here-at-home investment strategies.

Think all this is just so much hyperbole?

Tell that to the nations who could not compete in the great age of sail power for lack of old-growth trees for shipbuilding. Or to countries who effectively missed the original industrial revolution due to a dearth of affordable and easily accessible steel, oil, coal, and water. Or to nations who are struggling, to this day, with raising their citizens’ standard of living for lack of reliable power grids and education systems – the ‘raw materials’ of the early stages of the information age…

In the same way, semiconductors and related technologies today represent the foundation of our future prosperity — but we must play this right, and yes, we can!

–  Shantanu R. Gupta,
CEO, Cascade Systems Technology

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