Tag Archives: letter-pulse-business

North America-based manufacturers of semiconductor equipment posted $2.18 billion in billings worldwide in August 2017 (three-month average basis), according to the August Equipment Market Data Subscription (EMDS) Billings Report published today by SEMI.

SEMI reports that the three-month average of worldwide billings of North American equipment manufacturers in August 2017 was $2.18 billion.The billings figure is 3.9 percent lower than the final July 2017 level of $2.27 billion, and is 27.7 percent higher than the August 2016 billings level of $1.71 billion.

“Equipment billings in August declined relative to July, signaling a pause in this year’s extraordinary growth,” said Ajit Manocha, president and CEO of SEMI. “Nonetheless monthly billings remain well above last year’s monthly levels.”

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
March 2017
$2,079.7
73.7%
April 2017
$2,136.4
46.3%
May 2017
$2,270.5
41.8%
June 2017
$2,300.3
34.1%
July 2017 (final)
$2,269.7
32.9%
August 2017 (prelim)
$2,181.8
27.7%

Source: SEMI (www.semi.org), September 2017

Synopsys, Inc. (Nasdaq: SNPS) today announced that GLOBALFOUNDRIES (GF) has certified the Synopsys Design Platform for the GF 22nm FD-SOI (22FDX) process, ensuring designers achieve optimized implementation and predictable signoff results using industry leading digital design tools. This certification leveraged the silicon-proven GF Foundry Reference Flow for the Synopsys Design Platform, architected to realize the full potential of GF’s 22FDX process. IEEE 1801 (UPF)-driven bias voltage support throughout the flow enables optimal power and performance tradeoff during design implementation.

“GF worked closely with Synopsys to complete the rigorous certification process of the Synopsys Design Platform on our 22FDX process platform,” said Jai Durgam, vice president, Customer Design Enablement at GLOBALFOUNDRIES. “The Synopsys tools support 22FDX capabilities such as voltage dependent spacing rules, continuous-diffusion aware placement and optimal bias tap cell insertion in IC Compiler II. Having a reference flow with certified tools enables our mutual customers to take advantage of the technology differentiation, which offers FinFET-like performance and energy efficiency at a cost comparable to 28-nm planar technologies.”

Key tools and features of the Synopsys Design Platform certified for the 22FDX process include:

  • IC Compiler II layout with physical implementation support for non-uniform library floorplanning, implant-aware placement, multi-rail routing, and advanced power mesh creation
  • IC Validator physical signoff tool for In-Design verification, enabling early and accurate timing-aware metal fill with support for high performance DRC- and LVS-aware short finder
  • StarRC  parasitic extraction for multi-rail signoff with support for multi-valued standard parasitic exchange format (SPEF)
  • PrimeTime® timing analysis and signoff including DMSA static timing and noise analysis, using AOCV and POCV technology

“Our broad collaboration with GLOBALFOUNDRIES has been focused on delivering the platform and IP needed for seamless adoption of the FD-SOI technology at 22 nanometers and smaller geometries,” said Michael Jackson, corporate vice president of marketing and business development for Synopsys’ Design Group. “Together, Synopsys’ full ecosystem solution and GLOBALFOUNDRIES’ FDX technology are enabling designers to take advantage of the performance and power benefits offered by this process.”

To certify their process platform with a real-world complex hierarchical design that requires the best performance in the smallest possible area and power budget, GF selected the DesignWare® EV61 Embedded Vision Processor with a convolutional neural network (CNN) engine configured for 880 MACs. DesignWare EV6x Vision Processor IP is a family of fully programmable and configurable vision processors that integrates scalar, vector DSP and CNN processing units for highly accurate and fast vision processing. Supported by a comprehensive software programing environment including the ARC® MetaWare EV Toolkit, the EV6x Vision Processors offer SoC designers a flexible, power-efficient embedded vision solution for a wide range of automotive, industrial and consumer applications.

SEMICON Europa 2017 will take place in Munich for the first time, co-located with productronica (14-17 November in Munich, Germany). SEMICON Europa will showcase the critical issues shaping the entire electronics manufacturing supply chain. Fourexecutive keynotes will share their thought leadership on current opportunities for Europe: Maria Marced, president, TSMC Europe; Stefan Finkbeiner, CEO, Bosch Sensortec; and Frank M. Rinderknecht, founder and CEO of Rinspeed Inc.

“Innovations in semiconductor manufacturing are at the heart of the value chain driving innovations enabling key future growth drivers in Mobile, Automotive, Medical, passive and intelligent computing as well as AR and VR,” stated Laith Altimime, president, SEMI Europe. SEMICON Europa programs, sessions, and speakers will illuminate this year’s theme “Empowering Innovation and Shaping the Value Chain.”  Highlights of SEMICON Europa include:

  • Fab Management Forum: Quality Challenges – Solutions for Tomorrow ─ Topics include:Future of digital vehicles and requirements for quality and availability of semiconductors with Daimler AG, an analysis of Human failure and mindset change by European School of Management and Technology (ESMT) Berlin, and how innovative sensor and analytics solutions enable new applications in the fab of tomorrow by KINEXON GmbH.
  • Advanced Packaging Conference: Electronics Packaging and Test for Future Mobility ─With Yole Développement on the dynamics of the advanced packaging ecosystem, Robert Bosch GmbH on automotive, Infineon Technologies on packaging for automotive ─ challenges and solutions, RoodMicrotec GmbH on wafer and final test in the new era of electronics, and STMicroelectronics on packaging challenges for robust miniaturization.
  •  Power Electronics Conference: From Materials to Systems,The Latest Innovations ─Covering power electronics applications for Automotive by Fraunhofer Institute for Integrated Systems and Device Technology IISB, a forecast of the next five years to reveal how technology development will shape the power electronics market by Yole Développement, and  Cambridge University on Silicon and Wide bandgap devices in power electronics.
  • New! Materials Conference: Connected World ─ New Material Challenges and Solutions ─Includes a keynote by Christophe Maleville, SOITEC, on how to better optimize performance, power budget and cost to meet applications requirements; plus presentations from Volkswagen AG on the need for new industry alliances in automotive, FUJIFILM on maximum utilization of chemically amplified resist, and Dow Chemical on the information age and connectivity enabled by advanced electronic materials. The free Webinar “Connected World: New Material Challenges and Solutions – Market Update and Outlook is planned on 27 September.
  • New! European Connect2Car Forum ─ A new Forum in collaboration with SAE International. Insights for automotive OEM and supplier executives, consumer electronics leaders, mobile application developers, and aftermarket entrepreneurs focusing on enhancing the driver experience and accelerating the deployment of connected and autonomous vehicle technologies.
  • New! 2017FLEX Europe “Be Flexible” ─ New collaboration between FLEX and Fraunhofer EMFT. Insights on innovative solutions for flexible and stretchable systems by Würth Elektronik GmbH,  technology and applications of chip-film patch for hybrid systems in foil by IMS CHIPS, new capabilities and applications of flexible components by E Ink Corporation, and insight on how potentials of System-in-Package technologies will affect the future by Bosch.

SEMI and Messe München Joint Press Conference will take place on 14 November at 11:00-12:00, at Messe München Press Conference Center.

Seoul Semiconductor Co., Ltd. announced on Sept. 19, 2017 that it has filed a patent infringement lawsuit, together with its affiliate, Seoul Viosys Co., Ltd., against Archipelago Lighting, Inc. in the U.S. District Court for the Central District of California.

In its complaint, Seoul asserts that Archipelago Lighting is selling various LED bulb products, including filament LED bulbs, that infringe on “twelve” (12) patents covering aspects of Seoul’s long-established Acrich technology. These Acrich patents include fundamental LED technologies, such as LED driver technology for high-voltage operation, MJT (Multi-Junction Technology), filament LED bulb structure, LED packaging, LED epitaxial growth, LED chip fabrication, etc.

In conventional LED products, one LED unit usually operates at a low voltage (3V) and high current. In order to increase brightness, one must connect many LED units through wire-bonding, but this can lead to other issues, such as an oversized, costly operating circuit, a substantial increase in manufacturing costs and defects caused by multiple wire-bonding connections.

Seoul’s Acrich technology resolves such problems by enabling the design of a high-voltage product with a high power output that relies on only a small number of LED units. Acrich technology does so by utilizing its innovative LED driver technology to enable high-voltage operation, as well as its unique MJT technology for mounting and integrating many LEDs within a small area. Seoul’s Acrich technology enables LED products to operate using AC power without requiring conversion to DC, minimizing power dissipation and reducing overall component count. This maximizes the available space in LED products, facilitating a simple circuit design and significantly reducing the size and cost of LED products. Acrich technology has become widely adopted for general lighting, as well as electronic products, including televisions.

For example, in the general lighting market, 12V/18V high-voltage products have become increasingly popular, and there has been a significant increase in the demand for 36V/48V products. To manufacture such high-voltage products, Acrich technology is necessary to support LED driver technology for high-voltage operations with MJT technology. The innovative benefits of Acrich technology have resulted in its being applied in street lights and commercial lights in countries throughout the world, including locations as diverse as Korea, the United States, China, Europe, Southeast Asia, Mongolia and Kazakhstan.

In electronic products, Acrich technology is being increasingly used for valuable product lines such as large-area television displays. Acrich technology enables a dramatic enhancement in the service life and efficiency of such displays by simplifying their internal system. It also dramatically reduces the size and thickness of the final product, rendering it more pleasing to consumers, by reducing the amount of internal space previously reserved for complicated electric circuits. In particular, Acrich enables full-array local dimming that enhances the contrast range of the latest ultra-thin UHD display products by providing the next generation of backlighting solutions for high-definition displays.

Acrich technology is also expanding its application to other product areas that require high LED light output, such as landscape lighting, vehicle headlamps and daylight running lamps as well as mobile phone flash units.

Seoul began to develop its unique Acrich technology in the mid-1990s and has continued to launch advanced, innovative Acrich products every year following its successful volume production in 2005. Based on its decades of investment in research and development, Seoul has established a large patent portfolio for Acrich technology, including rights to approximately 1,000 Acrich patents. However, with the recent increase in the demand for high-voltage LED products, several companies have begun to manufacture products that infringe on Seoul’s Acrich patents. In order to protect its hard-earned investment against such infringement, Seoul will actively enforce its patent rights against any infringers.

Dr. Ki-bum Nam, head of Seoul’s R&D Center and chief technology officer said, “We have extensively investigated copycat products infringing on Acrich technology with various LED TVs, general lighting and automotive lighting products. In order to protect Acrich technology, which has been developed with considerable resources over many decades, we will continuously take any and all legal action against infringers that disregard our valuable intellectual property.” Nam added: “Creating a fair market that respects intellectual property is important for all innovative entrepreneurs and businesses.”

GLOBALFOUNDRIES and Soitec today announced that they have entered into a five-year agreement to ensure the volume supply of state-of-the-art fully depleted silicon-on-insulator (FD-SOI) wafers. This agreement extends the current partnership to provide a solid foundation for both companies to strengthen the FD-SOI supply chain and help ensure high-volume manufacturing.

With the leadership from the two companies, FD-SOI has become the standard technology for cost-effective, low-power devices in high-volume consumer, IoT and automotive applications. The agreement, which is effective immediately, builds on the existing close relationship between the companies and guarantees wafer supply for GF’s 22nm FD-SOI (22FDX®) technology platform.

“GLOBALFOUNDRIES is delivering industry leading ultra-low power, performance-on-demand FD-SOI solutions with cost-sensitive manufacturing options,” said John Docherty, senior vice president of Global Operations at GF. “With Soitec as a long-term strategic partner, this agreement ensures a secure supply to meet the high-volume capacity needs of current and future customers.”

“This agreement represents a long-term commitment from a key strategic customer, further strengthening the FD-SOI supply chain and confirming high-volume adoption,” said Christophe Maleville, executive vice president, Digital Electronics Business Unit at Soitec . “Soitec is fully prepared to support GF on its long-term plan to implement and grow 22FDX. This strategic agreement, with very significant wafer volumes, reflects GF’s strong confidence in Soitec as we build the required capacity to serve the growing FD-SOI demand.”

FD-SOI semiconductor technology has been made possible by the mutual commitment of many companies to deliver breakthroughs at both the device and substrate levels. GF and Soitec collaborate very closely to ensure landmark FD-SOI performance advantages at the right cost in developing the foundry’s FDX platforms. The FD-SOI process technologies are based on ultra-thin SOI substrates manufactured with Soitec’s industry-standard Smart Cut(TM) technology to generate ultra-thin layers with high quality and uniformity.

Offering the best power, performance, area and cost (PPAC) optimization of advanced planar technologies in smart phones, automotive electronics, and Internet of Things (IoT) applications, FD-SOI is quickly becoming a new mainstream process technology for battery powered, wireless and connected devices. This agreement will secure effective demand support for the fast growing, global ecosystem which is fueled by the successful market adoption of GF’s 22FDX technology.

SEMI, the global electronics manufacturing supply chain association, and SAE International, the association driving knowledge and expertise across automotive and aerospace industries, announce a partnership to provide their members with insights and access to important markets. The partnership will include information-sharing, presentation opportunities, and branding and exposition opportunities for members from both organizations.

SEMI and SAE are creating forums for raising awareness of the challenges and opportunities in design and manufacturing for the automotive and electronics sectors. From the electronics manufacturing industry perspective, the smart transportation segment is rich with opportunity to improve the performance and digitalization of vehicles.

According to IHS Markit, the high-end car is on track to contain more than $6,000 worth of electronics in five years, driving to a $160 billion automotive electronics market in 2022 − a 7 percent CAGR through 2022. The design, sourcing, and manufacturing cycles are significantly different than traditional electronics markets (such as consumer) but the opportunities are significant.  From the transportation industry perspective, all roadmaps to improve performance emphasize that advancements in electronics systems are key.

“Electronics systems in vehicles continue to undergo significant changes year over year, driven by the changing electronics capabilities – even in subsystems areas such as infotainment and control.  The impact of new vehicle operational modes, such as autonomous driving, is all about gathering and processing information on an enormous scale.  The systems that do this are developing rapidly and our members want immediate visibility into these new materials, processing and electronic subsystems.  Improvements in processing, controlling, sensing, have impact across our vehicle supply chain,” notes Jim Forlenza, group director, SAE Events. “Our members look to us to multiply their interactions with the supply chain and our partnership with SEMI allows us to offer them this in several areas across the world.”

“This relationship provides a new platform for SEMI members to showcase products, services and engage new customers,” states Art Paredes, VP of Global Expositions at SEMI. “As SEMI members increasingly collaborate with end-product manufacturers to develop novel capabilities, automotive is the leading area for silicon solutions to enable the future of driving. Working directly with SAE’s members and ecosystem will speed the time to innovate for both memberships.”

From large events − including SAE’s annual World Congress Experience and SEMI’s annual SEMICON expositions around the world − to a host of smaller, focused workshops and speaking engagements throughout the year, members will have many opportunities to establish supplier-vendor-customer relationships.

Semiconductor Research Corporation (SRC), today announced that Samsung Electronics Company Ltd. (Samsung), one of the world’s largest chipmakers, has signed an agreement to join SRC’s research consortium. Samsung will participate in two SRC platforms – the New Science Team (NST) project and the Global Research Collaboration (GRC) program.

The NST project, a 5-year, $300M+ initiative commences in January 2018. NST consists of two complementary research programs: JUMP (Joint University Microelectronics Program) and nCORE (nanoelectronics Computing Research), supporting long-term research focused on high- performance, energy-efficient microelectronics for communications, computing and storage needs. Within the GRC program, comprised of nine design and process technology research disciplines, Samsung will participate in the Packaging and Logic & Memory Devices programs.

“It is an exciting time at SRC with the addition of Samsung to our premier group of semiconductor design, manufacturing, and advanced technology companies. SRC welcomes Samsung as we continue to bring together the world’s most brilliant minds to turn theories into reality,” said Ken Hansen, President and CEO of Semiconductor Research Corporation. “We now have the most innovative semiconductor companies collaborating to advance research for next-generation technology and to continue the promise of Moore’s Law economics, bringing increased performance and new product features to the consumer.”

“Collaborative research has been a key element of Samsung’s global strategy,” said Dr. HK Kang, Executive Vice President of Semiconductor Research and Development Center, Samsung Electronics. “The roadmap to future discoveries in technology is deeply rooted in the research coming from industry-sponsored university programs such as NST and GRC. We look forward to working with the SRC team to spark meaningful advancements in semiconductor technology as we explore future innovation.”

With the addition of Samsung, 7 of the top 10 global semiconductor companies are now members of SRC. Samsung represents the fifth non-U.S. headquartered company to join SRC within the last 18+ months.

Cadence Design Systems, Inc. (NASDAQ: CDNS) today announced that it has received three TSMC Partner of the Year awards at this year’s TSMC Open Innovation Platform (OIP) Ecosystem Forum. Cadence was presented with awards for the joint development of the 7nm FinFET Plus design infrastructure and the 12nm FinFET Compact (12FFC) design infrastructure and the joint delivery of the automotive design enablement platform.

The awards for the joint development of the 7nm FinFET Plus design infrastructure and 12FFC design infrastructure were awarded based on the early, in-depth collaboration between TSMC and Cadence on FinFET technology enablement and the development of the latest advanced-node solutions for next-generation system-on-chip (SoC) designs. Cadence secured the award for the joint delivery of the automotive design enablement platform based on collaboration and support of aging simulation and advanced electromagnetic (EM) rules for the 16FFC process.

“Cadence continues to partner with TSMC to deliver the innovation and deep technical expertise that is required to address evolving requirements for the latest process nodes, such as 7nm FinFET Plus and 12FFC, and within growth industries, such as automotive,” said Dr. Anirudh Devgan, executive vice president and general manager of the Digital & Signoff Group and the System & Verification Group at Cadence. “These awards from TSMC highlight Cadence’s dedication to delivering the innovative tools that our customers need for advanced SoC and automotive designs.”

“Throughout the history of our long, collaborative relationship with Cadence, they have consistently delivered high-quality results and continue to invest in the most advanced technologies as demonstrated by the latest developments in 7nm FinFET Plus, 12FFC and automotive design enablement,” said Suk Lee, senior director of the Design Infrastructure Marketing Division at TSMC. “The awards are indicative of our close collaboration with Cadence, and we look forward to continuing the development of advanced-node solutions for our mutual customers.”

Intel Corporation today announced that Andrew Wilson, CEO of Electronic Arts Inc., has been elected to Intel’s board of directors. Wilson’s election brings Intel’s board membership to 12.

“Andrew understands first-hand how technology and data create opportunity with his transformation of EA from offline packaged goods to a leader in online digital services,” said Intel Chairman Andy Bryant. “In addition to his experience leading and growing a global, technology-driven company, Andrew possesses a combination of creativity and business acumen that will further strengthen Intel’s board.”

Wilson, 43, joined Electronic Arts (“EA”) in May 2000, and has served as the company’s chief executive officer and a director of EA since September 2013. During his tenure as CEO, EA has launched groundbreaking new games and services, reached record player engagement levels across its global franchises, and transformed into one of the world’s leading digital entertainment companies. Prior to his appointment as CEO, Wilson held several leadership positions at EA, including executive vice president of EA SPORTS. He also serves as chairman of the board for the World Surf League.

The International Microelectronics And Packaging Society (IMAPS) will celebrate the 50th anniversary of its flagship technical conference – the IMAPS Symposium – from October 9 – 12, 2017, as microelectronics engineers and scientists gather at the Raleigh Convention Center near Research Triangle Park, North Carolina, USA to take part in the electronics industry’s largest technical conference dedicated to advanced microelectronics packaging technology. Researchers and exhibitors will showcase their work during a comprehensive conference program of technical papers, panels, special sessions, short courses/tutorials, and an exhibition that will spotlight premier work in the fields of microelectronics, semiconductor packaging and circuit design.

The 50th International Symposium on Microelectronics is an international technology forum for the presentation of applied research on microelectronics, consisting of more than 180 papers presented by researchers from corporations, universities and government labs worldwide, with five technical tracks: Chip Packaging Interactions; High Performance, Reliability, & Security; Advanced Packaging & Enabling Technologies; Advanced Packaging & System Integration; and Advanced Materials & Processes.

Keynote Presentations Lead Off the IMAPS Technical Program on Tuesday, October 10
Four keynote addresses from leading industry experts include:

“Packaging Challenges for the Next Generation of Mobile Devices,” by Ahmer Syed, Senior director of package engineering, Qualcomm Technologies

“Packaging without the Package – A More Holistic Moore’s Law,” by Subramanian (Subu) S. Iyer, distinguished chancellor’s professor in the Charles P. Reames Endowed Chair of the Electrical Engineering Department at the University of California at Los Angeles (UCLA) and Director of the Center for Heterogeneous Integration and Performance Scaling (CHIPS)

“Electronics Outside the Box: Building a Manufacturing Ecosystem for Flexible Hybrid Electronics,” by Benjamin Leever, senior materials engineer, Air Force Research Laboratory (AFRL) Soft Matter Materials Branch

“Transforming Electronic Interconnect,” by Tim Olson, founder & CTO, Deca Technologies

International Panel Session & Wine Reception on Wednesday, October 11
A panel session on “Global Perspectives on Packaging Requirements & Trends Towards 2025” will be moderated by Jan Vardaman, TechSearch International and Gabriel Pares, CEA-Leti. Panelist will include representatives from Asia (Yasumitsu Orii, NAGASE Group and Ton Schless, SIBCO), Europe (Steffen Kroehnert, Nanium and Eric Bridot, SAFRAN), and North America (David Jandzinski, Qorvo). The 90-minute panel session includes a wine reception.

Diversity Roundtable & Networking Discussions on Monday, October 9
Following the opening reception, IMAPS leaders will conduct a series of roundtable discussions designed to inspire conversations about overcoming diversity barriers, the strengths inherent in a diverse workforce, identifying and collaborating with a mentor, and more.

Posters & Pizza Session on Thursday, October 12
One of the fastest-growing segments of the IMAPS conference is the popular “Posters & Pizza” session held outside the exhibit hall, giving attendees the opportunity to interact one-on-one with presenters in a more informal setting.

Professional Development Courses (Short Courses & Tutorials) on Monday, October 9
Preceding the IMAPS Symposium technical program is a full day of professional development opportunities, presented as a series of 2-hour sessions in four tracks: Intro to Microelectronics Packaging; Next Generation Packaging Challenges; Baseline & Emerging Technologies; and Reliability. These short courses represent a unique opportunity, only available through IMAPS, for participants to personally interact with the instructors, and with each other in small groups from 10 – 30 people, led by industry experts in the field with ample time for questions and networking.

Student Opportunities at IMAPS
As part of its ongoing mission IMAPS invites students to participate in an informal networking event on Tuesday, October 10 with IMAPS industry leaders over lunch in the exhibit hall, giving them an chance to learn about career opportunities, navigating the hiring process, and other topics. In addition, the IMAPS Microelectronics Foundation sponsors a student paper competitionin conjunction with the Symposium that awards more than $3,500 in scholarships for outstanding student papers.

Social Events & an Introduction to the RTP/Raleigh Area’s Technology Community
In addition to the technical program, a variety of social events are planned around the IMAPS Symposia, including the Annual David C. Virissimo Memorial Fall Golf Classic, a charity golf outing scheduled for Monday, October 9 at NCSU’s Lonnie Poole Golf Course. Proceeds from the event benefit the IMAPS Microelectronics Foundation.

Monday evening’s welcome reception will feature NC-themed entertainment from a local bluegrass band, and participants will also be able to view historical photos and other memorabilia spanning 50 years of IMAPS history.

There is also a scheduled tour of the nearby Micross Advanced Interconnect Technology (AIT) facility, one of the premier wafer bumping and wafer level packaging facilities in the U.S., with more than 20 years experience providing leading edge interconnect and 3D integration technologies (TSV, Si interposers, 3D IC) to worldwide customers.

New to the Symposium this year is a unique opportunity for IMAPS attendees to experience the vibrant technology community in the greater RTP/Raleigh area. IMAPS has invited local non-profit organizations that comprise the area’s rapidly-growing technology ecosystem to participate in a special area adjacent to the exhibit hall during the day of October 10, providing an opportunity for IMAPS Symposium attendees to network and interact.

To register for the IMAPS 50th International Symposium on Microelectronics, please visit the online registration site for more information, or contact Brianne Lamm, IMAPS Marketing & Events Manager, at [email protected] or 980-299-9873.