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North America-based manufacturers of semiconductor equipment posted $2.41 billion in billings worldwide in February 2018 (three-month average basis), according to the February Equipment Market Data Subscription (EMDS) Billings Report published today by SEMI.  The billings figure is 1.7 percent higher than the final January 2018 level of $2.37 billion, and is 22.2 percent higher than the February 2017 billings level of $1.97 billion.

“February billings remain at a level indicating another positive year for semiconductor equipment spending,” said Ajit Manocha, president and CEO of SEMI. “We expect 2018 to mark the fourth consecutive year of spending growth, which last occurred in the 1990s.”

The SEMI Billings report uses three-month moving averages of worldwide billings for North American-based semiconductor equipment manufacturers. Billings figures are in millions of U.S. dollars.
Billings
(3-mo. avg)
Year-Over-Year
September 2017
$2,054.8
37.6%
October 2017
$2,019.3
23.9%
November 2017
$2,052.3
27.2%
December 2017
$2,398.4
28.3%
January 2018 (final)
$2,370.1
27.5%
February 2018 (prelim)
$2,411.4
22.2%

Source: SEMI (www.semi.org), March 2018

Synopsys, Inc. (Nasdaq: SNPS) today announced it has acquired Silicon and Beyond Private Limited, a provider of high-speed SerDes technology used in data intensive applications such as machine learning, cloud computing, and networking. This acquisition demonstrates Synopsys’ continued focus on next-generation SerDes solutions, addressing the need for greater amounts of reliable data transfer between chips, backplane, and extended range optical interconnects. The acquisition also adds a team of R&D engineers with high-speed SerDes expertise to help designers meet their evolving design requirements.

The terms of the deal, which is not material to Synopsys financials, are not being disclosed.

“Silicon and Beyond’s high-speed SerDes technology enables designers to implement reliable, high-speed connectivity across long-reach channels in high-end computing applications,” said Joachim Kunkel, general manager of the Solutions Group at Synopsys. “This acquisition underscores Synopsys’ commitment to expanding our DesignWare IP portfolio to help designers meet the challenging bandwidth and power requirements of advanced data-intensive SoCs.”

Synopsys is a provider of high-quality, silicon-proven IP solutions for SoC designs. The broad DesignWare IP portfolio includes logic libraries, embedded memories, embedded test, analog IP, wired and wireless interface IP, security IP, embedded processors and subsystems.

 

Bringing together a technical program that encompasses ‘big integration’ of a number of critical industry trends – machine learning, IoT, artificial intelligence, wearable/implantable biomedical applications, big data, and cloud computing – the 2018 Symposia on VLSI Technology & Circuits will showcase a convergence of technologies needed for ‘smart living.’ As the microelectronics industry’s premiere international conference covering technology, circuits, and systems, the Symposia continues to define the evolution of innovations that will shape the future of our increasingly connected world.

The Symposia theme of “Technology, Circuits & Systems for Smart Living” connects the related plenary presentations, panel discussions, focus sessions, short courses, along with a new Friday Forum on machine learning to provide a unique synergy between advanced technology developments, innovative circuit design, and the applications that they enable – as part of our global society’s transition to a new frontier of smart, connected devices and systems that change the way humans interact with technology – and with each other.

“This year’s Technology program is focused on the critical building blocks needed to realize a truly integrated IoT,” said Mukesh Khare, Symposium on VLSI Technology general chair. “Advanced memory technologies for AI and machine learning, the next wave of advanced computing (supercomputing/cloud/neuromorphic), the cutting edge of CMOS scaling (beyond 5nm/nanowire devices), and the advanced low-power sensors needed to connect them all are just some of the highlights of the Technology program.”

“The Circuits program will examine how the next wave of computing systems need to be designed to realize the potential of AI, machine learning, SOC technology, wearable/implantable biomedical systems, and the IoT,” explained Gunther Lehmann, Symposium on VLSI Circuits general chair. “A demonstration session that showcases real-life applications is designed to enable conference participants to see these innovations first hand.”

The Symposia will also include a series of joint focus sessions that include invited and contributed papers on topics of mutual interest to both technology and circuit attendees. As part of the unique Symposia program, these joint Technology & Circuits focus sessions enable participants to engage in meaningful interaction with their colleagues in different disciplines. In addition, there will be a joint evening panel session by leading industry experts to address critical issues surrounding major industry developments.

Capping off the joint Symposia program will be a series of nine presentations comprising the Friday Forum on machine learning, a subject area that continues to evolve as an impactful driver of the integrated systems that are part of the Symposia’s “Smart Living” theme.

The annual Symposium on VLSI Technology & Circuits will be held at the Hilton Hawaiian Village in Honolulu, Hawaii from June 19-21, 2018, with Short Courses held on June 18 and a special Friday Forum dedicated to machine learning/AI topics on June 22. The two conferences have been held together since 1987, providing an opportunity for the world’s top device technologists, circuit and system designers to exchange leading edge research on microelectronics technology, with alternating venues between Hawaii and Japan. A single registration enables participants to attend both Symposia.

The Symposium on VLSI Technology is sponsored by the IEEE Electron Devices Society and the Japan Society of Applied Physics, in cooperation with the IEEE Solid State Circuits Society.

The Symposium on VLSI Circuits is sponsored by the IEEE Solid State Circuits Society and the Japan Society of Applied Physics, in cooperation with the Institute of Electronics, Information and Communication Engineers.

Samsung Electronics Co., Ltd. today announced more value added 8-inch (200mm) technology solutions for its foundry customers. On top of its existing eFlash, Power, display driver IC (DDI) and CMOS image sensor (CIS) offerings, RF/IoT and fingerprint technology solutions are now available through Samsung’s 8-inch foundry services.

Currently, customers are working closely with Samsung to utilize the company’s cutting-edge 8-inch technology offerings in various applications. All 8-inch offerings, ranging from 180nm to 65nm, are processed at Line 6, a highly automated facility in Giheung, Korea.

“Customers’ interests are very high given the industry’s needs for alternative 8-inch solutions,” said Ryan Lee, Vice President of Foundry Marketing at Samsung Electronics. “By expanding our technology offerings into the RF/IoT and fingerprint segments, we will enable our customers to take advantage of Samsung’s state-of-the-art 8-inch solutions in a broader range of applications.”

Samsung’s 8-inch process technology offerings now include the following solutions:

  • eFlash : 130nm, 65nm
  • Power: 130nm, 90nm (BCD+eFlash)
  • Display Driver IC : 180nm, 130nm, 90nm, 70nm
  • CMOS Image Sensor: 90nm
  • RF/IoT : 90nm (Ultra low leakage device)
  • Fingerprint Sensor: 180nm

The 8-inch foundry market has been one of the focal points since Samsung Foundry became a separate business last May. In this regard, Samsung has firmly established customer centric 8-inch service capabilities with great multi project wafer (MPW) programs as well as intellectual property (IP), and launched the Samsung Advanced Foundry Ecosystem (SAFE™) program this year.

By Ando Yoichiro, SEMI Japan

In Tokyo, Shanghai, Moscow, London, Paris or New York – wherever you are in the world –Japanese vehicles passing by on the roadways are a common sight. Three big reasons are their high quality, reliability and engineering. But Japan’s automakers are also legendary for their industry breakthroughs. A few highlights:

  • In 1981, Honda introduced the first commercially available map-based car navigation system. The carmaker’s Electro Gyro-Cator used a gyroscope to detect rotation and other movements of the car.
  • In 1990, Mazda equipped its COSMO Eunos with the world’s first built-in GPS-navigation system.
  • In 1997, Toyota launched the world’s first mass-produced hybrid car — Prius.
  • In 1997, Toyota unveiled the world’s first production laser adaptive cruise control on its Celsior.
  • In 2009, Mitsubishi rolled out the world’s first mass-produced electric car – i-MiEV.

Off the roadways and often unheralded, it is supply chain companies including Japanese semiconductor makers that were a key engine of these innovations as they continue their rich history of driving automotive advances. Here’s a closer look at some of the key players and why they matter.

Who Makes Automotive Semiconductors?

Unlike other semiconductors, automotive chips are manufactured not only by integrated device manufacturers (IDMs) but also by captive fabs and automotive components makers such as Toyota and Denso.

Denso, headquartered in Aichi prefecture, started in 1949 as a spin-off of Toyota’s electric components unit. Since 2009, the company has been the world’s largest automotive components supplier. Because Denso’s chips are mostly consumed internally, the company’s manufacturing revenue is not publicly available, but analysts estimate Denso’s chip business exceeds 200 billion JPY or USD $1.9 billion.

Denso fab (source: Denso)

Denso fab (source: Denso)

Denso manufactures semiconductor components at two locations. Its Kota plant in Aichi prefecture manufactures power and logic chips, and the company’s Iwate (Iwate prefecture) facility, acquired from Fujitsu in 2012, produces semiconductor wafers and sensors.

Denso is developing SiC wafers for its power chips and plans to manufacture SiC inverters by 2020. Recently, the company announced joint research on Ga2O3 for power devices with FLOSFIA, a tech startup spun off from Kyoto University. In 2017, Denso established a semiconductor IP design company, NSITEXE, in Tokyo to design semiconductor IP cores – the semiconductor components that are key to autonomous driving.

Toyota has been manufacturing semiconductor chips at its Hirose Plant since 1989. The semiconductor fab design and manufacturing technologies originated at Toshiba and moved to Toyota under a technology transfer agreement signed in 1987. In the power semiconductor arena, Toyota is jointly developing SiC devices with Denso and Toyota Central Research and Development Labs.

Other car and component makers like Honda, Nissan, Hitachi Automotive Systems, Aishin Seiki and Calsonic Kansei are also developing and designing semiconductor chips.

Microcontroller Units                                     

Microcontrollers (MCUs) were first employed in automobiles in the late 1970s to electronically control engines for higher fuel efficiency. Today, up to 80 MCUs are typically used in a car for powertrain controls (engine, fuel management and fuel injection), body controls (seat, door, window, air conditioning and lighting), safety controls (brake, EPS, suspensions, air bags and anti-collision) and infotainment.

In December 2015, the microcontroller unit (MCU) supply chain experienced a major consolidation with the nearly $12 billion acquisition of Freescale Semiconductor by NXP Semiconductors, catapulting NXP to the top of the MCU market. NXP and Freescale were ranked second and third in global market share, after Renesas Electronics, at the time.

Renesas held 40 percent global market share before its Ibaraki fab suffered severe earthquake damage in 2011 and hemorrhaged share after the loss of production capacity.  Renasas continues to recapture market share at a rapid clip, with a growth rate of 5.2 percent and 24.6 percent, respectively, in the first two quarters of 2017, and claims it still leads the global MCU market for automotive applications with 30 percent share (source: Diamond Online, August 2017).

Renesas was established as a joint venture of Hitachi and Mitsubishi and later merged with NEC Electronics. Consequently, Resesas’s MCUs, designed with Hitachi’s SH MCU cores, recently began a gradual shift to Arm cores. Renasas MCUs designed at 40nm or less nodes have been manufactured at TSMC, a Taiwan foundry, since 2012.

Renesas’s microcontrollers in a car (source: EE News Europe Automotive)

Renesas’s microcontrollers in a car
(source: EE News Europe Automotive)

CMOS Image Sensors

CMOS image sensors serve as eyes of cars, performing camera functions on-chip. Today, automobiles typically are fitted with about 10 CMOS image sensors, a number forecast to grow to almost 20 by 2020 (source: Monoist, 2016). The sensor was originally used as a backup monitor but deployments grew with the advent of Advanced Driver-Assistance Systems (ADAS). The CMOS image sensor market is estimated to reach $2.3 billion USD by 2021, according to IC Insights. Sony is the global CMOS image sensor market leader, and ON Semiconductor and OmniVision Technology are big players in this growing segment.

In 2016, Denso started using Sony’s CMOS image sensors to detect pedestrians during night driving. Sony manufactures CMOS sensors at Kumamoto TEC and Nagasaki TEC on Kyusyu Island. In 2017, Sony acquired Toshiba’s Oita plant to increase the capacity to respond to the growing demand for backside illumination CMOS image sensors for higher resolution images at a low-light environments.

Sony’s 7.42 megapixel CMOS image sensor for automotive cameras (source: Sony Corporation)

Sony’s 7.42 megapixel CMOS image sensor for automotive cameras
(source: Sony Corporation)

Power Devices

Power semiconductors provide electrical control functions such as rectification, voltage regulation (boost/step-down), and DA/AD conversion. The automotive industry’s migration from fossil fuel vehicles to hybrid and electric vehicles is driving strong demand for power devices. The leading power device makers are competing to develop higher performance devices on new materials such as SiC and GaN.

For the past five years, the Japan government has funded SiC power device research and development (R&D) projects and, in 2016, the National Institute of Advanced Industrial Science and Technology (AIST) and Sumitomo Electric Industries built a 150mm SiC wafer line at AIST’s Super Clean Room Facility in Tsukuba, Ibaraki. The facility supports volume manufacturing, reliability testing and quality assurance.

Rohm is driving the Japan SiC power device industry. Rohm manufactures SiC power devices on 75mm, 100mm and 150mm wafers. In 2009, Rohm acquired a German SiC wafer maker, SiCrystal, which started supplying 150mm wafers to Rohm in 2013. Rohm also acquired Renesas Electronics’s Shiga plant (200mm line) in 2016 to manufacture SiC power and other discrete devices.

Fuji Electric manufactures various power products including SiC power devices. Fully 30 percent of its products ship to the automotive industry. In 2013, the company built a new SiC line in its Matsumoto plant that includes both wafer process and packaging facilities. Fuji Electric now develops high-performance SiC devices on the latest 150mm SiC wafer technology.

Toyota and Denso round out the Japan SiC power device industry. Denso markets its 150mm SiC technology under the “REVOSIC” brand. In 2013, Toyota built a SiC R&D facility at its Hirose plant for future SiC captive manufacturing.

SiC power semiconductors to improve vehicle’s fuel efficiency by 10 percent (target) (source: Toyota Motor Corp.)

SiC power semiconductors to improve vehicle’s fuel efficiency by 10 percent (target)
(source: Toyota Motor Corp.)

SEMICON will Update You on Automotive Semiconductor Market

Heavy investments in the development of autonomous vehicles and the continuing expansion of the electric car market promise to bolster the automotive semiconductor market in the coming years and beyond. In light of Japan’s leading automotive chip manufacturing industry, SEMICON Japan and all other SEMICON shows in 2018 will spotlight this important segment.

Originally published on the SEMI blog.

SEMICON West, the flagship U.S. event for connecting the electronics manufacturing supply chain, has opened registration for the July 10-12, 2018, exposition at the Moscone Center in San Francisco, California. Building on a year of record-breaking industry growth, SEMICON West 2018 will highlight the engines of future industry expansion including smart transportation, smart manufacturing, smart medtech, smart data, big data, artificial intelligence, blockchain and the Internet of Things (IoT). Click here to register.

Themed BEYOND SMART, SEMICON West 2018 sets it sights on the growing impact of cognitive learning technologies and other industry disruptors with programs and new Smart Pavilions including Smart Manufacturing and Smart Transportation to showcase interactive technologies for immersive, virtual experiences. Each Pavilion will feature a Meet the Experts Theater with an intimate setting for attendees to engage informally with industry thought leaders.

Smart Workforce Pavilion: Connecting Next-Generation Talent with the Microelectronics Industry

The SEMI Smart Workforce Pavilion at SEMICON West 2018 leverages the largest microelectronic manufacturing event in North America to draw the next generation of innovators. Reliant on a highly skilled workforce, the industry today is saddled with thousands of job openings and fierce competition for workers, bringing renewed focus to strengthening its talent pipeline. Educational and engaging, the Pavilion connects the microelectronics industry with college students and entry-level professionals interested in career opportunities.

In the Workforce Pavilion “Meet the Experts” Theater, industry engineers will share insights and inspiration about their personal working experiences and career advisors will offer best practices. Recruiters from top companies will be available for on-the-spot interviews, while career coaches offer mentoring, tips on cover letter and resume writing, job-search guidance, and more. Visitors will learn more about the industry’s vital role in technological innovation in today’s connected world.

This year, SEMI will also host High Tech U (HTU) in conjunction with the SEMICON West Smart Workforce Pavilion. The highly-interactive program supported by Advantest, Edwards, KLA-Tencor and TEL exposes high school students to STEM education pathways and stimulates excitement about careers in the industry.

Free registration with three-day access and shuttle service to SEMICON West are available to all college students. Students are encouraged to register for the mentor program, attend keynotes and tour the exposition hall to see everything the industry has to offer.  To learn more, visit Smart Workforce Pavilion and College Track to preview how students can enter to win a $500 hiring bonus!

Three Ways to Experience the Expo

Attendees can tailor their SEMICON West experience to meet their specific interests. The All-In pass covers every program and event, while the Thought-Leadership and Expo-Only packages offer scaled pricing and program options. Attendees can also purchase select events and programs à la carte, including exclusive IEEE-sponsored sessions, the SEMI Market Symposium, and the STEM Rocks After-hours Party, a fundraising event to support the SEMI Foundation.

UnitySC, a developer of advanced inspection and metrology solutions, today announced it acquired 100% of the shares of HSEB Dresden, GmbH (HSEB), a supplier in optical inspection, review and metrology for high-value semiconductor applications. Following the acquisition, the new entity’s extended line of leading-edge process control solutions will provide a unique and essential inspection and metrology capability to semiconductor manufacturers. Together, the entity’s offerings span substrate, front-end-of-line (FEOL) manufacturing, wafer-level packaging, 3D ICs and power semiconductors. Further, bringing together the two companies will strengthen worldwide customer support for all platforms.

The combined product portfolio and future common platforms of UnitySC and HSEB will support manufacturing of devices used in mobility, automotive and internet of things applications. Combined, these markets are expected to reach a 14% CAGR, far outpacing the 8% growth forecast of the rest of the semiconductor industry. This will require the expansion and construction of new manufacturing facilities with novel equipment lines.

“Thanks to the proprietary technologies developed by both companies, this strategic acquisition further strengthens our capacity for development and innovation, enabling us to be the preferred partner to meet new customer requirements,” said Patrick Leteurtre, president of UnitySC. “Our product portfolio now spans the spectrum required for substrate control of new FEOL, advanced packaging applications such as fan-out wafer-level packaging, embedded dies and through silicon vias, resulting in a value-added market positioning that will further accelerate our growth.”

The new entity is distinguished by its strong semiconductor legacy and focus on technology development. More than 50% of its 140 employees are dedicated to R&D. Its extensive patent portfolio comprises 46 key patent families related to new semiconductor applications, and the management team is deeply rooted in the semiconductor industry. 

UnitySC and HSEB products are already in service in the top five foundries and the top 10 OSATs, supported by an experienced service team. The acknowledgment of its products as tools-of-record by customers working on next-generation processes has generated a growth rate of more than 50% in a market that generally does not exceed 10% CAGR.

At closing, UnitySC paid an undisclosed fixed price for 100% of the shares of HSEB. Jointly, the two entities achieved a turnover of $20 million in 2017, and recorded $22 million in bookings by the end of February 2018.

Everspin Technologies, Inc. (NASDAQ: MRAM), a developer and manufacturer of discrete and embedded magnetoresistive random access memory (MRAM), today announced it has entered into a multi-year worldwide licensing agreement with Alps Electric Co., LTD (Alps), a manufacturer of 3D magnetic sensors. Under the agreement, Alps and Everspin will mutually grant licenses to magnetoresistive-based 3D sensor patent portfolios for magnetoresistive sensor products. The terms of the agreement include an up-front license fee to Everspin as well as future royalties. Specific financial terms of the agreement are not being disclosed.

With an extensive portfolio of over 500 worldwide patents and applications covering its magnetoresistive technology, this agreement expands Everspin’s existing group of memory and sensor licensees. Everspin was recognized by IEEE in its Patent Power 2017 report as having one of the world’s top 20 most valuable patent portfolios for semiconductor manufacturing.

Kevin Conley, President and CEO of Everspin, stated, “Everspin’s magnetoresistive patent portfolio is valuable to a number of significant market applications beyond our core focus in magnetoresistive memory. This agreement demonstrates that value as well as our ability to monetize these assets and generate an additional revenue stream for Everspin.”

The 6th annual LED Expo Thailand 2018, which is aimed at bringing together LED & lighting industry with buyers, specialists and suppliers to the Challenger 1, IMPACT Exhibition Center in Bangkok, Thailand on May 10-12, 2018. This year’s exhibit space is almost sold out. Over 300 exhibitors from around the globe are set to showcase their innovations at the Expo. Adding more room for special focus on your futuristic innovations, the organisers this year have come up with the theme FUTURE of LED for a SMART LIVING offering you more focused audience. Don’t let the opportunity pass by; book space now to maximize your business.

The highlights of the show defining FUTURE OF LED for a SMART LIVING are:

SOLAR ZONE

This specific zone would be highlighting high-performance Solar LED products, services and technology for housing, commercial and industrial sectors to induce huge saving on electricity, besides encouraging the usage of renewable energy.

DEALERS AND DISTRIBUTORS ZONE / BUSINESS MATCHING

A specialized business matching program strictly for distributors and manufacturers, our dedicated buyer team will source out “wish list” of manufacturers and distributors to be pre-matched.

LoT (LED OF THINGS)

It is aimed at bringing forth innovations taking place in LED signage system with sound and light effects to keep the visitors engaged.

LED CAFÉ

A great resting place for all trade visitors after a long walk in the hall, LED Café will serve a variety of refreshments and mouth-watering delicacies. The café will be decorated with creative LED lighting.

LIGHTING & ENERGY SAVING CONSULTATION CENTRE

This would facilitate a free discussion between trade visitors and industry professionals for their current and future business project to save the cost and use suitable products.

THAILAND LED SUMMIT

Steered by the committee of experts, the conference attracts high-powered keynotes and serves stimulating discussions in an open environment. The topics will cover the trends in LED lighting technology, lighting standard, government support policies and design solution.

ARCHITECTURAL DESIGN VILLAGE

This special village would showcase amazing works of famous architects and designers besides displaying student projects in Thailand to increase the efficiency of every building.

BUYER PROGRAM

Created specifically to facilitate business matching at the show, the Buyer Program is an effective platform for the top qualified buyers from the procurement, purchasing and supply chain management divisions within the energy efficiency, LED as well as electronic sectors to meet with our exhibitors on a pre-scheduled, one-on-one basis.

Benefits of VIP Buyer Program:

  • Complimentary 1-2 night accommodation at Ibis IMPACT during 10-12 May 2018
  • Access to the Business Matching Zone (complimentary refreshments and WiFi)
  • Free Copy of Show Directory
  • Screening and selection will be done based on the eligibility criteria.
  • A list of matched exhibitors will be provided, including company profiles and the latest products / materials / machinery
  • Upon confirmation, business matching meetings will be scheduled to make your trip more smooth and efficient

 

Besides attending exhibition, the participants would also get the opportunity to attend International LED Summit and a workshop, which the organisers have decided to take to the next level with iLight Connect.

iLIGHT CONNECT: INTERNATIONAL LED SUMMIT

The Summit will focus on case studies, discussions over the latest trends, innovations and technology in both interior & exterior rifts. A panel discussion will hoist the influences and issues that designers, owners & operators come across when it comes to implementing the LED technology.

Discrete speakers will throw some light on the opportunities that LED provide us today which we did not have in past. The main focus will be on ‘Future of LED’ along with other contemporary issues such as smart lighting & loT. All these are grouped under four separate heads to be addressed under four different sessions:

  • IoT and the Future of Lighting
  • Smart Lighting – Opportunities and Constraints
  • Lighting Festivals – Beyond the Wow Factor
  • Hotel Value Creation Through Lighting Design

 

iLIGHT CONNECT: EDUCATIONAL WORKSHOP

The idea behind this workshop is to create awareness about the lighting design process among the participants to enable them construct their own lighting installations. Participants will choose if they wish to learn architectural or landscape lighting techniques:-

  • Architectural Lighting: Groups have the choice of building facade or public space
  • Landscape Lighting: Groups have the choice of trees, vegetation, pathways or lawn area within the existing landscape environment

Thailand: A Gateway to Opportunities in ASEAN Region!

  • Emerging Country: Thailand is the World’s 51st largest country by area, 20th largest country by population and the 32nd largest country in the world by economic size.
  • Hub of ASEAN: With strategic location among ASEAN, it is easy to access to the Greater Mekong sub-region (GMS). Hence Thailand has high potential to be the regional logistics hub.
  • Growing Economy: The Economic Intelligence centre of the SIAM Commercial BANK (SCB) has predicted that Thailand’s economy is expected to expand further in 2018, to around 3.5 percent.
  • Energy Trend: Thailand is moving full steam ahead towards the use of LED lighting. In 2016, the turnover in the LED bulb market has increased 33% with a total market value of the THB 4,960 million.
  • Policy Support: Thailand has long been a proponent of free & fair trade and its attractiveness as a production base for leading international companies is enhanced by a number of free trade agreements.

Broadcom Limited (NASDAQ: AVGO) (“Broadcom”) today announced that it has withdrawn and terminated its offer to acquire Qualcomm Incorporated (NASDAQ: QCOM) (“Qualcomm”) and has withdrawn its slate of independent director nominees for Qualcomm’s 2018 Annual Meeting of Stockholders. The Trump administration issued a Presidential Order this week to stop the acquisition.

Broadcom today issued the following statement:

“Although we are disappointed with this outcome, Broadcom will comply with the Order. Broadcom will continue to move forward with its redomiciliation process and will hold its Special Meeting of Stockholders as planned on March 23, 2018.

Broadcom’s Board of Directors and management team sincerely appreciate the significant support we received from the Qualcomm and Broadcom stockholders throughout this process.

Broadcom thanks the independent nominees who stood for election to the Qualcomm board, not only for their time and effort but also for their unwavering commitment to act in the best interests of Qualcomm stockholders.

Broadcom appreciates the following statement from U.S. Treasury Secretary and CFIUS chair Steven Mnuchin on March 12: “This decision is based on the facts and national security sensitivities related to this particular transaction only and is not intended to make any other statement about Broadcom or its employees, including its thousands of hard working and highly skilled U.S. employees.”