Do not go where the path may lead

By Denny McGuirk, SEMI president and CEO

“Do not go where the path may lead, go instead where there is no path and leave a trail.”  Attributed to Ralph Waldo Emerson, this could be the credo of our industry.  Moore’s Law has created $13 trillion of market value and we’ve been pioneering the way forward – since even before Gordon Moore made the famous “observation” that became Moore’s Law more than 50 years ago.  Our industry paved the road forward with advancements in design, materials, processing, equipment, and integration, traveling at the speed of exponential growth number in transistors per chip (doubling approximately every two years).

Today, globally, we’re shipping more than one trillion ICs per year!  Leading-edge chips boast more than 10 billion transistors at the advanced 10nm (gate length) technology node and are made with 3D FinFET architectures formed by 193nm wavelength immersion multi-patterning lithography.  It’s become a very challenging – and very expensive – road (a single lithography tool alone costs in the tens of millions of dollars).  The companies building the road ahead are bigger and fewer as massive bets now need to be placed on new fabs costing more than $5 billion and even $10 billion and where a new single chip design alone costs more than $150 million to bring into production.

What follows, in Part 1 of this two-part article, is a quick look back at the industry in 2016 and the road ahead in 2017 followed by what SEMI achieved in 2016 and where SEMI’s road will lead in 2017 to keep pace our industry charging forward where there is no path. Part 2 (next week’s Global Update) will focus on SEMI 2020 initiatives.

A look back at 2016: “Straight roads do not make skillful drivers”

2016 was definitely not a straight road; truly it was a wild ride – so, SEMI members have become extremely skilled drivers. The semiconductor manufacturing industry had a slow first half with pessimism building throughout the first quarter, but by April semiconductors bottomed and NAND investment and a slate of new China projects drove a strong second half.  For semiconductor equipment, SEMI’s statistics indicate global sales in 2015 were $36.5 billion and 2016 came in at $39.7 billion, ultimately ending up about 9 percent.  For reference semiconductor materials in 2015 was $24.0 billion and 2016 came in at $24.6 billion, up nearly 2.6 percent year-over year (YoY).

But, it turns out, that’s not half the story.  2016 was full of surprises.  At the geopolitical level, Brexit, an impeachment in South Korea, and a Trump win were wholly unanticipated and leave a lot of questions as to how that road ahead might look.  In technology, the Galaxy Note 7 mobile phone became an airline hazard announcement and stalwarts like Yahoo! faded into the background (now part of Verizon).  In part due to challenges of the road ahead (and because the cost of capital remained low) M&A fever continued in semiconductors with more than $100B in deals announced in 2016.

It was an astonishing year for combinations with huge deal announcements such as Qualcomm buying NXP for $47 billion and SoftBank buying ARM for $32 billion.  Meanwhile, mergers in the equipment and materials space continued, to name a few notables ASML’s acquisition of Hermes Microvision, DuPont and Dow announcing the intent to merge (announced December 2015, but still in the works), and Lam Research and KLA-Tencor ultimately calling off their deal due to complications of regulatory pushback.  The extended supply chain was mixing things up, too, with acquisitions like the announcement by Siemens to acquire Mentor Graphics.  It has been very active, overall.  This was the second year of semiconductor M&A deals valued at more than $100 billion, a signal that size and scale is critical to build the road ahead.

A look ahead: “Difficult roads often lead to beautiful destinations”

With all the talk about roads, it’s no surprise that the automotive segment is gathering momentum as a strong growth driver for the electronics supply chain.  Not only is there increasing electronics content in cars for comfort and infotainment, but also for assisted and autonomous driving and electric vehicles which are ushering in a new era of electronics consumption.

Along with automotive, IoT (Internet of Things), 5G, AR/VR (Augmented Reality and Virtual Reality), and AI (Artificial Intelligence) round out a set of powerful IC and electronics applications drivers (see figure).  Per an IHS Study, 5G alone may enable as much as $12.3 trillion in goods and services in 2035. Gartner’s most recent forecast is cause for optimism further down the electronics manufacturing supply chain.  Gartner see IC revenue growing from 2016’s $339.7 billion to 2017’s $364.1 billion up 7.2 percent and growing further in 2018 at $377.9 billion up 3.8 percent.  For semiconductor equipment, SEMI’s forecast indicates 2015 was $36.5 billion, 2016 will come in at $39.7 billion, and 2017 is projected to be $43.4 billion, pointing to both 2016 and 2017 experiencing approximately 9 percent YoY growth.

In 2017, China investment is projected to continue as a major driver, likely consuming over 16 percent of the total global equipment investment (second only to South Korea).  SEMI is currently tracking 20 new fab projects.  Investments come from both multinationals and local Chinese ventures.  A sign of the rise of China is China’s upward production share trend of its own IC consumption market (IC Insights): 8 percent in 2009, 13 percent in 2015, and 21 percent in 2020. Further down in the electronics supply chain, fab equipment related spending in China will rise to more than $10 billion per year by 2018 and remain at that level or above for subsequent years.

NAND will continue to be a major driver with 3D NAND investment leading the way.  Silicon in Package (SiP) and heterogeneous integration will increasingly be solutions to augment traditional feature scaling to fit more transistors into less space at lower costs.  Materials innovations will be relied upon to solve front-end and packaging challenges while standard materials will be the focus of increased efficiencies and cost reduction. 200mm fab capacity will grow and stimulate new 200mm investment with upside driven by power devices and MEMS segments.  Investment in foundry MEMS will grow by an estimated 285 percent (2015 to 2017).

“There are far better things ahead than any we leave behind”

SEMI, the global non-profit association connecting and representing the worldwide electronics manufacturing supply chain, has been growing with the industry for 47 years.  SEMI has evolved over the years, but it has remained as the central point to connect.  Whether connecting for business, connecting for collective action, or connecting to synchronize technology, SEMI connects for member growth and prosperity.

As a reminder, here are SEMI’s mission, vision, and 2020 strategic focus areas.

  • Mission — our focus for the next five years
    • SEMI provides industry stewardship and engages our members to advance the interests of the global electronics manufacturing supply chain.
  • Vision — what we stand for
    • SEMI promotes the development of the global electronics manufacturing supply chain and positively influences the growth and prosperity of its members.  SEMI advances the mutual business interests of its membership and promotes a free and open global marketplace.
  • Members’ Growth — 2020 strategic focus
    • SEMI enables member growth opportunities by evolving SEMI communities and building new communities across the global electronics manufacturing supply chain via cooperation, partnerships, and integration.
  • Members’ Prosperity — 2020 strategic focus
    • SEMI enables members to prosper by building extended supply chain collaboration forums providing opportunities to increase value while optimizing the supply chain for SEMI members.

Our industry is in the midst of a vast change.  To deal with the escalating complexity (making a semiconductor chip now uses the great majority of the periodic table of the elements) and capital cost, many companies have had to combine, consolidate, and increasingly collaborate along the length of the electronics manufacturing supply chain.

Some companies have broadened their businesses by investing in adjacent segments such as Flexible Hybrid Electronics (FHE), MEMS, Sensors, LEDs, PV, and Display.  Lines are blurring between segments – PCBs have morphed into flexible substrates, SiP is both a device and a system.  Electronics integrators are rapidly innovating and driving new form factors, new requirements, and new technologies which require wide cooperation across the length of the electronics manufacturing supply chain and across a breadth of segments.

The business is changing and SEMI’s members are changing.  When SEMI’s members change, SEMI must change, too – and SEMI has, and is.  SEMI developed a transformation plan, SEMI 2020, which I wrote about at the beginning of 2016.  We’re well on our way on this path and in next week’s e-newsletter Global Update, I’d like to update you on what we’ve accomplished and what’s to come.


Easily post a comment below using your Linkedin, Twitter, Google or Facebook account. Comments won't automatically be posted to your social media accounts unless you select to share.

One thought on “Do not go where the path may lead

  1. Michael Clayton

    Thanks. I remember being on the cassette standards group for the 125 mm standards after decades of pushing from half inch to 1.25 and 2.0 and 3.0 inch then 100, 125, 150, 200 and 300 mm diameter IC wafers (and carriers of all kinds as well as process and metrology tools of all kinds). SEMI kept us aligned and saved us billions in wasted efforts most of the time.

    IBM who dropped out of the actual manufacturing of IC’s in recent years pioneered much of the breakthroughs in metalization and planarization. Funny that the top DIODE makers never made it to domination of the TRANSISTOR manufacturing, and those leaders never made it to domination of the Integrated Circuit manufacturing (which was originally called “batch electronics” by the military who funded most of the IC startups in first few years.


Leave a Reply

Your email address will not be published. Required fields are marked *

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <s> <strike> <strong>



Astronics Test Systems announces new PXIe test instruments
01/24/2017Astronics Corporation, through its wholly-owned subsidiary Astronics Test Systems, introduced two new test instruments today. ...
Edwards launches new Smart Thermal Management System at SEMICON Europa 2016
10/25/2016Smart TMS helps semiconductor, flat panel display and solar manufacturers improve their process performance and safety by red...
Tektronix introduces Keithley S540 power semiconductor test system
10/19/2016Tektronix, Inc., a worldwide provider of measurement solutions, today introduced the Keithley S540 Power Semiconductor Test System, a ...