Foundry 2.0: New White Paper and Video Interview with CEO Ajit Manocha

Today our friends over at VLSI Research released two thought-provoking commentaries on the evolution of the foundry industry.

The first is a video featuring GLOBALFOUNDRIES CEO Ajit Manocha being interviewed by G. Dan Hutcheson, VLSI’s chairman and CEO. In the video, which can be viewed on the weSRCH.com web site, these two industry veterans discuss the challenges facing the semiconductor industry and why a new foundry model is needed to enable continued innovation.

Today VLSI also released a new white paper by Hutcheson that delves into the historical development of the semiconductor foundry business model, how things went wrong in the 2000s, and why a new model of foundry partnership is needed—precisely the “Foundry 2.0” model that Manocha has called for since taking the helm at GLOBALFOUNDRIES. The white paper can be downloaded here (registration required).

After discussing the inception of the industry in the 1980s, Hutcheson reviews some of the key infrastructural shifts in the early 1990s that led to the rapid growth of the foundry segment—the most important of which was the rising cost of leading-edge semiconductor fabs. “The foundry movement hit high gear in the early nineties, when the cost of a fab was just passing the one-billion dollar mark,” Hutcheson writes. “The cost of a fab was roughly rising at about half the rate of Moore’s Law, or a doubling every two nodes. Moreover, it was not just the cost of building a new fab, because existing ones had to be upgraded every node for a chip maker to stay in the game. The incremental cost of keeping a fab up-to-date was a growing capital burden, which became another big barrier to entry.”

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But just as the foundry industry was beginning to hit its stride, the fast-moving semiconductor marketplace continued to evolve. “By 2000, the foundry business model had moved from an idea for companies who could not afford fabs to being front and center in the mainstream of manufacturing,” Hutcheson writes. “Many had come to believe the foundry was the future of manufacturing. But the nature of the business was changing as storm clouds formed on the horizon. These storm clouds grew darker as conflicting market and technology pressures were forcing change.” Hutcheson reviews these market and technology pressures, which include rising competition, increasing emphasis on cost, and the daunting challenges presented by new wafer sizes, transistors, and materials. All of these factors led to an erosion of trust between foundries and their customers and opened the door for some to speculate that the foundry model might be dead.

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To solve these problems, Hutcheson calls for a new working relationship that melds the seamless collaboration of an IDM with the flexibility of the fabless-foundry model. This “collaborative device manufacturing” approach must be structured to collaborate seamlessly, allowing the fabless company to innovate on the foundry’s platform as an extension of its own strategy starting early in a new process node’s development. “GLOBALFOUNDRIES, to a great extent, was perfectly positioned to address the emerging need for a new foundry model,” Hutcheson writes. “Its roots were as an IDM, having spun out from AMD in 2009. Having acquired Chartered, it also gained deep roots in the foundry 1.0 model, allowing it to bridge both worlds. Its CEO, Ajit Manocha, deeply understood the issues. . . . So it was no surprise that Manocha would be the first foundry CEO to address the issue, spelling out a new model he called Foundry 2.0.”

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Readers of this blog will be no stranger to the Foundry 2.0 concept, but Hutcheson brings a fresh interpretation as he describes the intricacies of the new business model and puts Foundry 2.0 in its proper historical context.

The Mobile Revolution: Taking it to the Next Level

By Srinivas Nori

Today our friends at ARM announced the launch of their newest processor targeted at the rapidly growing market for mid-range mobile devices. The ARM Cortex-A12 processor is expected to offer a significant performance uplift and direct upgrade path from the highly successful Cortex-A9 processor, while matching the energy-efficiency of its predecessor.

Most of the attention these days goes to the latest and greatest high-end superphones and tablets—and of course ARM has processors to serve this important segment—but the market for entry-level and mid-range smartphones is where the real growth is expected to occur in the coming years. For example, a recent report by ABI research projected that shipments of sub-$250 smartphones will grow from 259 million units in 2013 to 788 million units in 2018, at which point they will make up nearly half (46%) of the global smartphone market.

What do consumers want in an entry-level smartphone? They expect similar levels of performance and battery life as enabled by application processors for high-end smartphones, but in a more cost-effective system. Delivering this functionality is no small challenge, and it requires a tight partnership between SoC design and process technology to optimize performance, power, and cost.

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Timeline of GLOBALFOUNDRIES and ARM’s relationship

We have been collaborating for years to optimize ARM processors for GLOBALFOUNDRIES leading-edge process technology. Today, in conjunction with the launch of the Cortex-A12 processor, we announced new power, performance and cost optimized POP™ IP technology offerings for the ARM Cortex-A12 and ARM Cortex-A7 processors for our 28nm-SLP High-K Metal Gate (HKMG) process technology. You can read more here about this latest milestone in our multi-year collaboration with ARM. The upshot is that this combination of ARM’s processor IP and our leading-edge process technology will enable a new level of system performance and power efficiency with the optimum economics necessary to serve the market for mid-range mobile devices. GLOBALFOUNDRIES’ 28nm-SLP process technology and associated ARM POP IP for the Cortex-A12 processor enables up to 70 percent higher performance (measured single-thread performance) and up to 2x better power efficiency in comparison to a Cortex-A9 processor using 40nm process technology. Designers can achieve even higher performance by trading off for lower power efficiency, depending on their application needs.

But of course the technology industry continues its relentless march forward, and we have no plans to stop there. We are already collaborating to optimize ARM processor IP for our next-generation 14nm-XM technology. Our 14 nm-XM offering is based on a modular technology architecture that uses a 14nm FinFET device combined with elements of GLOBALFOUNDRIES’ proven 20 nm-LPM process, which will give SoC designers the benefits of FinFET technology with reduced risk and time-to-market. The XM stands for “eXtreme Mobility,” and it is truly optimized for mobile SoC designs.

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14XM Dual-Core Cortex-A9 PPA Proof Point. Similar results are expected for Cortex-A12

Back in February at the Common Platform Technology Forum, we announced results from the industry’s first implementation of a dual-core ARM® Cortex™-A9 processor using FinFET transistors. We found the following results for a Cortex-A9 processor implemented on 14nm-XM technology. Similar results are expected for Cortex-A12 processor implementations.

Here are the technical details:

  • High-performance, energy-efficient ARM processors implemented on 28nm-SLP typically use 12-track libraries. However at 14nm-XM FinFET technology, much higher performance and more energy-efficient ARM processors can be implemented using 9-track libraries resulting in further die-size reductions.
  • At constant power, the frequency achieved with 14nm-XM technology based implementation (using 9-track libraries) is expected to be 61% faster than the frequency achieved with 28nm-SLP technology based implementation (using 12-track libraries).
  • At constant frequency, the power consumed by 14nm-XM technology based implementation is expected to be 62% lower than the power consumed by 28nm-SLP technology based implementation.
  • The performance-power efficiency of 14nm-XM technology based implementation (expressed as DMIPs/milliwatts) is anticipated to be more than twice that of the 28nm-SLP technology based implementation, while using half the silicon area.

The mobile revolution has only just begun. We are excited to see where this dynamic industry will go next, and you can be sure we will continue collaborating with innovative partners like ARM to bring the next generation of connected devices to life.

Srinivas Nori is director, SoC innovation at GLOBALFOUNDRIES. In this role Srinivas owns the GLOBALFOUNDRIES strategy and realization for ARM ecosystem based solutions. Srinivas also oversees the exploration, identification, evaluation and collaborative offering of innovative SoC solutions.

Reshaping the Foundry Industry: Welcome to Foundry 2.0

CEO Ajit Manocha lays out winning strategy for nation’s comeback at Nikkei Electronics’ World Semiconductor Summit

GLOBALFOUNDRIES CEO Ajit Manocha spoke to a crowd of more than 200 high-ranking executives from the Japanese semiconductor industry last week at the Nikkei Electronics’ World Semiconductor Industry Summit 2013 in Tokyo. During Manocha’s presentation titled, “Reshaping the Foundry Industry: Welcome to Foundry 2.0,” he outlined the evolution and future of the foundry model, the technical and business drivers reshaping the landscape and what it will take for Japanese IDM companies to move forward. Manocha urged Japanese companies to embrace the fabless model and revise their perspective on previous paradigms.

GLOBALFOUNDRIES is committed to the idea that future success in the semiconductor industry is dependent on joint development at the technology definition level, early engagement at the architectural stage and leveraging a more integrated and cooperative ecosystem. The same theme was very present in Manocha’s speech as he emphasized that the idea that Japan’s resurgence into the semiconductor industry can be fueled collaborative device partnerships.

GLOBALFOUNDRIES recently demonstrated its commitment to collaboration at The Common Platform Technology Forum 2013, where we made a number of joint announcements with our partners. Among those collaborations include Rambus, Synopsys, Adapteva and Cyclos Semiconductor – all of which will mutually benefit GLOBALFOUNDRIES and our partners, but more importantly our customers.

You can watch Manocha’s full speech online on our YouTube channel. Important highlights include:

  • The old foundry model will no longer work with due to a slower rate of change, and inflexible methods and systems which are now required to become flexible (23:33)
  • Our vision for 2020 includes homogeneous alliances as well as heterogeneous alliances between foundries, the airline industry, banking industry, semiconductors and the biomedical field (24:53)
  • GLOBALFOUNDRIES’ acceleration of growth, viewed as a timeline (31:36):
    • From 2007 to 2012, we developed the 65-, 45-, 32- and 28nm designs
    • From 2013 to 2017, we have plans to break into the 20-, 14-, 10- and finally the 7nm design

Common Technology, Uncommon Solutions

common platformBy Mike Noonen

Collaboration has become a well-worn buzzword in our industry in recent years, and for good reason. The scale and complexity of the challenges we collectively face can only be addressed by working together across the entire semiconductor ecosystem. But while many companies are just giving lip service to the concept of collaboration, it has been a part of our DNA at GLOBALFOUNDRIES since our inception.

One of our most important partnerships is in the form of the Common Platform alliance, a groundbreaking collaboration with IBM and Samsung—two of the world’s foremost technology companies—to address the needs of semiconductor manufacturing by providing access to leading-edge CMOS process technologies and extensive enablement support and services. Together we are continuing to redefine the landscape of the semiconductor industry, and the fruits of this partnership will be on display next week at the 2013 Common Platform Technology Forum, which will be held on Tuesday, February 5 at the Santa Clara Convention Center.

The theme of this year’s forum is “Real Collaboration = Big Business.” While we will still be providing a deep look into the underlying technologies offered by the alliance, we also want to demonstrate the impressive business momentum that’s been achieved as a byproduct of this collaboration. 2012 was a particularly strong year, with members of the Common Platform seeing significant growth and taking over both the #2 and #3 spots in the worldwide foundry rankings. Research firm IC Insights recently released its projections for the top 20 leading semiconductor suppliers in 2012, and GLOBALFOUNDRIES jumped six spots to break into the top 20 for the first time. IC Insights projected our 2012 revenue to grow 31% over 2011, which would make us the fastest growing semiconductor company in the world. Similarly, IC Insights’ 2012 foundry rankings saw Samsung make a rapid rise to #3 in the foundry, with a near doubling of foundry revenue for two years in a row.

The forum also will showcase the latest technological advances being delivered to the world’s leading electronics companies. Attendees will see and hear firsthand how the combined expertise of our partners is addressing the most demanding IC design and manufacturing challenges. Our collaborative research and innovative technology development have resulted in an accelerated roadmap and rapid customer adoption, and we’ll touch upon these key highlights:

  • Leading-edge process technologies at 32/28-, 20-, 14-nanometer, and beyond
  • Advanced innovations such as FinFet, design & technology co-optimization, and double patterning
  • A peek into the future of next-generation device innovations being researched: silicon nanowires, carbon nanotubes, and 3D device structures
  • A showcase of our ecosystem partners and Common Platform design, enablement, and implementation offerings in our Partner Pavilion

During the morning session, attendees will have the opportunity to hear keynotes from senior leaders at IBM, Samsung, and GLOBALFOUNDRIES, as well as a special keynote from Dr. Dipesh Patel, Executive Vice President and General Manager of the Physical IP Division at ARM. Dr. Patel will talk about the importance of “partnering for innovation to drive diversity.” Mobile computing is fueling the market demand for diversity, innovation, and expansion of the semiconductor industry, but the challenges being faced by system and SoC designers to meet these requirements in terms of performance, power efficiency, and time-to-market continue to grow in light of advanced manufacturing technologies. Dr. Patel will discuss the importance of a strong ecosystem to deliver the right product on time for commercial success, and why “Real Collaboration” on advanced process technology is a necessary and critical ingredient to address these challenges.

If you aren’t able to attend Tuesday’s event in person, please consider tuning in online via the live webcast, which will also be archived after the event. Details can be found at this link: http://www.commonplatform.com/tf2013

Mike Noonen is Executive Vice President, Worldwide Marketing and Sales, for GLOBALFOUNDRIES. In this role, he is responsible for global customer relationships as well as all marketing, sales, customer engineering and quality functions.

GLOBALFOUNDRIES’ Alexie Lee Recognized for Excellence in Manufacturing

Earlier this week, the Manufacturing Institute, the Society of Manufacturing Engineers, University of Phoenix and Deloitte named GLOBALFOUNDRIES’ Alexie Lee one of the first recipients of their Women in Manufacturing STEP (Science, Technology, Engineering and Production) Awards. Honoring women who have demonstrated excellence and leadership in their careers, the announcement highlights Alexie’s achievements in manufacturing through her positive impact on both GLOBALFOUNDRIES and the industry as a whole.

Alexie Lee

In her role as General Counsel and Executive Vice President of Legal and Corporate Affairs, Alexie is responsible for litigation, intellectual property and corporate matters. Additionally, Alexie oversees worldwide corporate communications, government relations and corporate risk management and sustainability, while providing direction and counsel to the CEO, the Board of Directors and other top corporate leaders. GLOBALFOUDRIES’ growth from a one-facility operation to a company with 7 production facilities worldwide can be attributed in part to her actions and strong understanding of the importance of manufacturing to the entire economy. She adds, “I am excited about being involved in the most advanced of advanced manufacturing.  Not only is our industry vital to our nation’s strength, our products drive improvements, at times dramatic, in all our lives.”

GLOBALFOUNDRIES CEO, Ajit Manocha said, “Since helping to launch GLOBALFOUNDRIES in 2009, Alexie has exhibited a tremendous track record of execution and collaboration, helping to propel our company as one of the fastest-growing semiconductor companies in the world. Her leadership is helping GLOBALFOUNDRIES create thousands of new advanced manufacturing jobs in the U.S., and expand the high-tech manufacturing capabilities that will continue to pave the way for long-term economic growth in the U.S. We thank Alexie for her hard work and dedication and we are so proud to see her recognized with this prestigious award.”

The STEP Ahead initiative was launched to examine and promote the role of women in the manufacturing industry through recognition, research and best practices for attracting, advancing, and retaining strong female talent. A total of 122 women were honored this first year, representing a variety of companies at all levels of their manufacturing organization from the factory floor to the C-suite. Award organizers hope that by telling the stories of these women, they can help inspire the next-generation of talent to pursue careers in the industry.  The STEP Awards are also meant to empower honorees to lead in their companies, communities and networks on the importance of manufacturing and issues related to attracting, advancing and retaining strong manufacturing talent.

“The STEP Ahead initiative was founded to change perceptions of the manufacturing industry and create new opportunities for women in the sector,” said Latondra Newton, group vice president at Toyota Motor North America, Inc. and chairwoman of the STEP Ahead initiative. “This initiative is the call for action to transform the face of today’s manufacturing talent and ensure that women can contribute to the future of this industry.”

On February 5th, Alexie will join the other award recipients for a reception in Washington, D.C. where the STEP Awards program will highlight each honoree’s story, including their leadership and accomplishments in manufacturing.

GLOBALFOUNDRIES to Build Leading-Edge R&D Center on Fab 8 Campus

Aerial view of Fab 8 (rendering)

On January 8th, GLOBALFOUNDRIES announced it will soon begin construction on a new research and development facility at the Fab 8 campus.  Featuring more than a half million square feet of flexible space to support a range of technology development and manufacturing activities, the new Technology Development Center (TDC) will play a key role in the company’s strategy to develop innovative semiconductor solutions allowing customers to compete at the leading edge of technology.

TDC site plan

“As the industry shifts from the PC era to a market focused on mobile devices, we have seen increasingly strong interest from customers in migrating to advanced nodes on an accelerated schedule,” said GLOBALFOUNDRIES CEO Ajit Manocha. “To help facilitate this migration, we are making significant investments in strengthening our technology leadership, including growing our workforce and adding new capabilities to make Fab 8 the hub of our global technology operations.  The new TDC will help us bridge between the lab and the fab by taking research conducted with partners and further developing the technologies to make them ready for volume manufacturing.”

The TDC will house a variety of semiconductor development and manufacturing spaces to support the transition to new technology nodes, as well as the development of innovative capabilities to deliver value to customers beyond the traditional approach of shrinking transistors.

The overarching goal of the TDC is to provide a collaborative space to develop end-to-end solutions covering the full spectrum of silicon technology, from new interconnect and packaging technologies that enable three-dimensional (3D) stacking of chips to leading-edge photomasks for Extreme Ultraviolet (EUV) lithography and everything in between. The TDC will also house important post-production capabilities, including ETest, Bump and Probe, which are increasingly needed at the foundry location for fast yield feedback and to support customer business models.

The Fab 8 campus is an ideal home for the company’s leading-edge technology development activities.  The proximity of the IBM Joint Development Alliance activities in East Fishkill and the College of Nanoscale Science and Engineering (CNSE) at the University of Albany, combined with the growing presence of technology development personnel on the Fab 8 campus, have helped make New York’s “Tech Valley” a global center for next-generation technologies.

Renderings of Fab 8 campus with TDC renderings

“This significant expansion demonstrates that the investments we have made in nanotechnology research across New York State are producing the intended return— the creation of high-paying jobs and generation of economic growth that is essential to rebuilding our state,” said New York Governor Andrew M. Cuomo.  “New York has become the world’s hub for advanced semiconductor research and now, the Technology Development Center will further help ensure the innovations developed in New York, in collaboration with our research institutions, are manufactured in New York.”

Speaking about the announcement, CNSE Senior Vice President and CEO Dr. Alain Kaloyeros said, “The expansion of GLOBALFOUNDRIES’ advanced technology and manufacturing capabilities, supported by new investments and location of new high-tech research and development jobs at the College of Nanoscale Science and engineering, will fuel exciting opportunities for both residents and businesses across New York State, in accordance with Governor Cuomo ‘New York Open for Business’ strategy, and continue to pave the way for long-term economic growth and prosperity catalyzed by computer chip innovations.”

The company plans to begin construction in early 2013 with completion targeted for late 2014.  Since breaking ground on Fab 8 in 2009, GLOBALFOUNDRIES has created approximately 2,000 new direct jobs and that number is expected to grow by another 1,000 employees for a total of about 3,000 new jobs by the end of 2014.   

Quick Facts about the TDC

  • Three-level building with approximately 550,000 gross square feet of varying occupancy types
  • Approximately 90,000 square feet of flexible cleanroom space
  • Approximately 108,000 square feet of clean space to support a range of technology development and manufacturing activities
  • The additional investment in the TDC will increase the total capital investment for the Fab 8 campus to approximately $8.5 billion

For more information on the TDC, check out these resources and articles 

SIA Celebrates its 35th Anniversary

Last week GLOBALFOUNDRIES CEO Ajit Manocha joined special guest Dean Kamen, world-renowned inventor and innovator, and other leaders of the semiconductor industry in Silicon Valley to celebrate the 35th Anniversary of the Semiconductor Industry Association.  It’s amazing how much the industry has accomplished in innovation and technological advancement over the past three and a half decades.

Ajit addressed the 35th Annual SIA Award Dinner, kicking off his role as SIA Chairman and telling the crowd, “The coming year will be critical for our industry, as we face a range of policy and regulatory challenges and opportunities that will help determine our course for the next decade and beyond,”

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The new SIA administration is coming in at a very exciting time for the industry and Ajit has several goals that include or tax reform, the environment, export controls, research funding and cybersecurity.

Tax Reform

In order to provide a level playing field with competing countries, there needs to be reform to corporate tax policies. The SIA will work to establish a globally competitive tax rate, shift to a territorial system and support incentives for research and innovation. It cannot accept changes in the current system that will ultimately make the US semiconductor industry less competitive.

By helping to advance repatriation and ensuring that profits made from these funds brought back from overseas are taxed at a much lower rate, there is a window for the semiconductor industry to be seen as a leader in this discussion for all US manufacturers.

This is a topic Ajit is particularly passionate about and wants the industry to recognize its role in helping lawmakers understand the benefits this would bring to the country going forward.

Environment

The industry has already progressed in environmental policy, but there is more that can and should be done.

“We must promote environmental and other regulations that support the semiconductor industry’s unique flexibility needs in responding to rapidly changing technologies and markets,” Ajit explained.  “I have two children, and I believe it is extremely important to ensure our future generations feel better and safer in the environment they live in.”

Export Controls

As commercially available technologies begin to run up against current limitations on radiation hardness, it is imperative that the semiconductor industry continues to work with the administration and lawmakers to ensure that a new regime is developed to addresses both industry and national security issues.

Research Funding

Ajit’s career began as a research scientist in Bell Labs and he knows what enabled the United States to lead in innovation and advanced manufacturing thus far and believes we can no longer look at being the world’s leading innovator as an option.  “We need to take advantage of the window of opportunity during the first two years of this administration before politics again take over.”

Longer term funding for SIA priority research programs is critical to sustaining the pipeline of discoveries that fuel our industry and the economy.  This includes DARPA, NIST and NSF, as well as ASIC research performed at universities and national labs

Cybersecurity

This is one of the areas that keep administration officials up at night and this issue is emerging as one of critical importance to the semiconductor industry.

While this topic encompasses many subtopics, the semiconductor industry is uniquely positioned to provide guidance in areas of mutual concern. The potential impact of IP theft on industry, financial markets and the military can be devastating. The SIA will work with the administration and lawmakers to be a resource for preventing this very serious problem.

The SIA will keep a vigilant eye on the changing dynamics in Washington DC and what other opportunities present them.

“We have always been good at keeping an ear to the ground and will need to continue to do so.”