27-28 August 2025
Suwon
President and Chief Executive Officer
Michael D. Slessor has served as our Chief Executive Officer of FormFactor, Inc. since 2014, and as a Director since 2013. Mike served as President from 2013 to 2014, and as Senior Vice President and General Manager, MicroProbe Product Group from 2012 to 2013. Before joining FormFactor, he was President and Chief Executive Officer of MicroProbe from 2008 through the 2012 closing of FormFactor’s acquisition of MicroProbe. Prior to joining MicroProbe, he held various management, product-marketing, and applications-engineering positions in the semiconductor industry, primarily with KLA.
Mike received his Ph.D. in Aeronautics and Physics from the California Institute of Technology and his B.A.Sc. in Engineering Physics from the University of British Columbia.
FormFactor is a leading provider of essential test and measurement technologies along the full IC life cycle – from characterization, modeling, reliability, and design debug, to qualification and production test. Semiconductor companies rely upon FormFactor’s products and services to accelerate profitability.
FormFactor’s leading-edge probe stations, probes, probe cards, advanced thermal subsystems, quantum cryogenic systems and integrated systems deliver precision accuracy and superior performance both in the lab and during production manufacturing.
Visit www.formfactor.com or follow us on LinkedIn.
Head of Strategic Initiatives and Growth
Dr. Bonnie Tsim is Head of Strategic Initiatives at ATLANT 3D and holds a PhD in Theoretical Physics on the electronic properties of twistronic graphene from the University of Manchester. With expertise across deep-tech strategy, advanced materials, and international ecosystem building, she has led AI strategy and digital transformation at Turner & Townsend and convened global stakeholders in exponential technologies such as quantum and semiconductors at MATTER.
ATLANT 3D has mastered control of matter at the atomic scale, ushering in a new era in manufacturing. For research teams and manufacturers working at the frontiers of technology, we’ve created what was once thought unattainable: a system that builds materials and devices, atom by atom, with unprecedented precision and speed.
While others are constrained by traditional manufacturing limits, our breakthrough technology makes it possible to create the seemingly impossible, from next-generation quantum computers to devices that can operate in the harsh conditions of space. By replacing complex, resource-heavy processes with precise atomic-scale fabrication, we’re transforming technology while making manufacturing sustainable. We’re providing innovative teams the power to build technologies today that will define tomorrow’s world, using fewer resources to achieve greater possibilities.
Based in Copenhagen and London, with operations in the US, ATLANT 3D partners with research institutions and industrial companies to expand the boundaries of technological possibility.
ATLANT 3D is redefining microfabrication with its patented Direct Atomic Layer Processing (DALP®) technology. Our NANOFABRICATOR™ platform enables localized atomic layer processing for rapid material discovery, prototyping, and scalable device fabrication—bridging the gap from lab to fab.
Beyond hardware, we offer Pilot Projects and Joint Development Services to validate new materials and device architectures. A-HUB, our Microfabrication-as-a-Service (MaaS) centre, provides R&D teams with atomic-scale precision without the need for costly infrastructure.
From concept to fabrication, ATLANT 3D partners with academia and industry to drive next-generation innovations beyond conventional limits.
Co-Founder
Catherine is the Co-Founder of Kelvin Cooling, which builds high-efficiency nano-film evaporation cooling solutions for data centers. She has a background in data engineering and product development and is passionate about turning advanced thermal technologies into scalable, real-world solutions. Catherine leads business operations, bridging deep-tech innovation with practical execution. She has had the opportunity to collaborate with researchers at UC Berkeley for further test validations. Catherine is deeply driven by sustainability and the need for energy-efficient cooling in next-gen computing. She also works closely with company partners and advisors to support customer discovery, fundraising, and strategic growth.
SVP & General Manager, Advanced Packaging
Bassel Haddad is Sr Vice President and General Manager of Advanced Packaging at SkyWater Technology. He leads all aspects of SkyWater’s advanced packaging business including technology development, engineering, marketing and Florida fab operations. He is responsible for building and scaling the business serving both the defense and commercial market sectors. He is focused on strengthening collaborations with the advanced packaging ecosystem, such as equipment and material vendors, government partners and research institutes & consortia, while driving the growth trajectory of the business.
Before joining SkyWater, Haddad was with Intel since 2011 holding various engineering and business leadership roles. Most recently, he was the Vice President and General Manager of edge device and AI products, in the network and edge group. In this role, he managed a multi-billion dollar P&L, and leading innovations in edge AI and Internet of Things, or IoT. Earlier in his career, he held roles in platform architecture, silicon development, systems and software engineering, delivering leadership products to various end markets.
Haddad holds a Bachelor’s and Master’s degree in electrical engineering from Technion – Israel Institute of Technology. He is the inventor of five USPTO-issued patents in the areas of digital communication and systems architecture.
SkyWater (NASDAQ: SKYT) is a U.S.-based semiconductor manufacturer and a DMEA-accredited Category 1A Trusted Supplier. SkyWater’s Technology as a Service model streamlines the path to production for customers with development services, volume production and heterogeneous integration solutions in its U.S. facilities. This pioneering model enables innovators to co-create the next wave of technology within diverse categories including mixed-signal CMOS, ROICs, rad-hard ICs, MEMS, superconducting ICs, photonics and advanced packaging. SkyWater serves the growing markets of aerospace & defense, automotive, biomedical, industrial and quantum computing. For more information, visit: www.skywatertechnology.com.
Co-founder and CEO
Dave Lazovsky is the Co-founder and CEO of Celestial AI, the creators of the Photonic FabricTM. Celestial AI, founded in April 2020, has developed the optical interconnectivity technology platform for AI computing.
Prior to founding Celestial AI, Mr. Lazovsky was a Venture Partner at Khosla Ventures. He has 30 years of experience in the semiconductor industry and over two decades of experience building andleading successful start-ups.
In 2004 Mr. Lazovsky founded Intermolecular, a semiconductor and clean energy R&D and Intellectual Property licensing company. He served as the company’s Chief Executive Officer,President and as a member of the board of directors from September 2004 through October 2014. As President and CEO, Mr. Lazovsky led all aspects of the business through its lifecycle from early-stage start-up to public company. Intermolecular (IMI) went public on the NASDAQ in 2011.
He currently has over 80 issued and pending U.S. patents.
AI is touching our lives and driving breakthroughs in healthcare, finance, autonomous systems, and countless other domains. Its ability to process vast data, derive insights, and automate complex tasks unlocks new levels of efficiency and innovation. However, the exponential growth of AI workloads demands greater computational power and more efficient data movement. Traditional electronic interconnects are struggling to keep up, necessitating a paradigm shift in AI infrastructure.
The answer is like night and day.
Celestial AI’s Photonic Fabric is a revolutionary technology that scales AI compute within package and package-to-package across multiple racks. It forms the foundation for an optical scale-up network, overcoming the physical limitations of electronic interconnects. Offering terabytes of low-latency bandwidth, in-network computing, and high-performance memory, Photonic Fabric heralds a new dawn in AI infrastructure.
Switching to optical interconnects enables larger multi-die packages and bigger scale-up domains, creating a leap into the next decade. Photonic Fabric-based products transform AI data centers, scaling thousands of XPUs across racks, enabling larger models, better reasoning, and more efficient inference. By reducing total cost of ownership, this innovation unlocks new use cases and more profitable GenAI business models.
With an aggressive roadmap, a robust ecosystem of partners, and a tier-one supply chain, Celestial AI isn’t just reimagining AI data centers, it’s delivering an AI-driven, sustainable future. At its core, AI isn’t just about algorithms or hardware, it’s about people. Unlocking creativity, solving humanity’s biggest challenges, and making the impossible possible. The future of AI is here. Intelligence, illuminated.
Executive Director
Quick Tsai (Shiann-Tsong Tsai) received a Bachelor’s degree in Physics in Taiwan and a Master’s degree in Electrical Engineering from Syracuse University in 2001. He began his career at UTAC Taiwan, where he worked for nine years as the R&D and Engineering Department Manager. During this time, he pioneered the pressure oven devoid process in die attachment, which laid the foundation for the widespread application of pressure oven technology in assembly processes today.
In 2011, he joined MediaTek as the Technical Manager for Package Technology, where he worked for thirteen years. He led initiatives in multi-tier Cu wire bonding packaging technology, enhancing the performance, cost reduction, and efficiency of semiconductor devices.
He then moved to Whalechip Technology, serving as a consultant and board member for six years. Whalechip Technology, a TSMC partner, accomplished the world’s first computing device using Wafer on Wafer technology.
Currently, he is the Executive Director at Amazing Cool Technology, where he drives Covetics material innovation and mass production in various areas, including semiconductors. Throughout his career, he has helped companies obtain several patents in numerous area.
ACOOL uses a patented process to produce graphene-modified copper, which is a new material after graphene and copper form a covalent-metallic bond.
The world‘s only mass-producible graphene copper material, all properties exceed those of oxygen-free copper, we named ACOOL COPPER, that are transcendent.
It is formed by graphene and copper. It has dozens of excellent characteristics such as improved mechanical properties, electrical conductivity, thermal conductivity, corrosion resistance, oxidation resistance, EMI resistance, bending resistance, fusible current resistance, high voltage and low leakage, and low temperature coefficient.
VP Product Development, Semiconductor Test Division
Roy Chorev is the vice president of product development for the semiconductor test division at Teradyne, where he is responsible for product development for Teradyne’s semiconductor test products. With more than twenty years of experience in the automated test equipment industry, he has held a number of roles in software development, systems engineering and product marketing at Teradyne. Roy holds a Bachelor of Arts in computer science from McGill University and Master of Business Administration from Babson College.
Teradyne (NASDAQ:TER) brings high-quality innovations such as smart devices, life-saving medical equipment and data storage systems to market, faster. Its advanced test solutions for semiconductors, electronic systems, wireless devices and more ensure that products perform as they were designed. They solve complex test and automation challenges and enable businesses to achieve higher production volumes, higher quality and higher ROI. Its Industrial Automation offerings include collaborative and mobile robots that help manufacturers of all sizes improve productivity and lower costs. In 2021, Teradyne had revenue of $3.7 billion and today employs over 6,500 people worldwide. For more information, visit teradyne.com.
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Teradyne delivers manufacturing automation across industries, applications and the world. Teradyne solves complex test and automation challenges and enables businesses to achieve higher production volumes, higher quality and higher ROI. Teradyne designs, develops, and manufactures automatic test equipment used to test semiconductors, wireless products, data storage and complex electronics systems in a number of industries, including consumer electronics, wireless, automotive, industrial, computing, communications, and aerospace and defense. The industrial automation portfolio includes collaborative robotic arms, autonomous mobile robots (“AMRs”) and advanced robotic control software used by global manufacturing, logistics and industrial customers to improve quality, increase manufacturing and material handling efficiency, and decrease manufacturing and logistics costs. The automatic test equipment products include:
Vice President of Global Supply Chain Management
Shiva Esturi is the Vice President of Global Supply Chain Management at Micron Technology, Inc. In this role, Shiva is responsible for overseeing the end-to-end orchestration of the supply chain to achieve customer service levels, time-to-market, and cost-to-serve objectives. Throughout his career, Shiva has made significant contributions to the field, authoring several publications and frequently lecturing at universities and conferences. He is also an active member of multiple industry advisory boards, where he shares his expertise and insights to help shape the future of supply chain management.
Micron is a world leader in innovative memory solutions that transform how the world uses information. For over 40 years, our company has been instrumental to the world’s most significant technology advancements, delivering optimal memory and storage systems for a broad range of applications.
Distinguished Engineer
Matt Traverso is a Distinguished Engineer for Marvell Technology with a focus on next generation optical interconnect solutions based on silicon photonics. He has led the development of multiple high volume optical module products at 100Gbps and beyond. Matt has been active in the development and definition of optical communications standards and optical form factors since 2000 including as the original editor of the CFP MSA (Multi-Source Agreement). He has dozens of journal publications and has over 30 patents awarded and pending. He graduated from Stanford University in Materials Science & Engineering.
We believe that infrastructure powers progress. That execution is as essential as innovation. That better collaboration builds better technology. At Marvell, We go all in with you.
Focused and determined, we unite behind your goals as our own. We leverage our unrivaled portfolio of infrastructure technology to identify the best solution for your unique needs. And we sit shoulder-to-shoulder with your teams to build it. Agile in our thinking, and our partnerships, we look for unexpected connections that deliver a competitive edge and reveal new opportunities. At Marvell, we’re driven by the belief that how we do things matters just as much as what we do. Because, with a foundation built on partnership, anything is possible.
CVP, Product Engineering Operations
Todd Foulds is the Corporate Vice President of Product Engineering Operations at AMD with nearly 30 years of experience in the semiconductor industry. His team’s responsibilities cover Product Management, Product & Test engineering, Hardware & Infrastructure development, and Engineering Lab operations. Prior to joining AMD, Todd was a technical consultant at Hewlett Packard/Agilent Technologies in the ATE Test & Measurement division. Todd holds a Bachelor of Science degree in Electrical Engineering from Texas A&M University.
For 50 years, AMD has driven in high-performance computing, graphics, and visualization technologies – the building blocks for gaming, immersive platforms, and the datacenter. Hundreds of millions of consumers, leading Fortune 500 businesses and cutting-edge scientific research facilities around the world rely on AMD technology daily to improve how they live, work and play. AMD employees around the world are focused on building great products that push the boundaries of what is possible. For more information about how AMD is enabling today and inspiring tomorrow, visit AMD (NASDAQ:AMD) on their website, blog, Facebook and Twitter pages.
Founder
Hamid Sadjadpour received the Ph.D. degree from University of Southern California. In 1995, he joined the AT&T Shannon Research Laboratory, as a Technical Staff Member and later as a Principal Member of Technical Staff. In 2001, he joined the University of California at Santa Cruz where he is currently a Professor. He has over 240 publications and 25 patents. He is a co-recipient of the best paper awards at the 2007 International Symposium on Performance Evaluation of Computer and Telecommunication Systems, 2008 Military Communications conference, 2010 European Wireless Conference, and 2017 Conference on Cloud and Big Data Computing.
Practical OTP Encryption Inc. was founded by Professor Hamid Sadjadpour from the University of California, Santa Cruz (UCSC). The company’s innovative encryption technology stems from extensive research conducted at UCSC with support from the Army Research Office. Practical OTP Encryption specializes in advanced information-theoretic solutions designed to provide corporations, financial institutions, and government organizations with unmatched, unconditional data security. Its mission is to safeguard sensitive information stored in public clouds or transmitted over networks against state adversaries and cybercriminals, even those with unlimited computational resources. Unlike conventional encryption methods, Practical OTP Encryption ensures immunity from future scientific breakthroughs, offering protection against harvest-now-decrypt-later attacks. Its unique solution is highly adaptable, seamlessly integrating with devices of any size, making it an ideal choice for addressing the dynamic challenges of modern cybersecurity. Practical OTP Encryption is committed to redefining data security with its groundbreaking, future-proof technology.
President and CTO
With decades of experience in the semiconductor capital equipment industry, Samer has extensive experience in leading technology M&A, R&D, business strategies development, implementation, and competitive strategy. He excels in product innovation and development that is designed to align to both market and customer requirements.
Before joining AEM, Samer was the Executive Vice President at Advantest and Astronics Test Systems. In his 14-year tenure at Cohu, Samer served in senior management roles, including Delta Design Systems president.
Samer is a prolific innovator with 30+ registered patents in areas of advanced thermal management, photoresist processing, factory automation, and vision alignment and inspection.
AEM: Unleashing the Power of Tomorrow – Leader in High-Performance Processor Testing for the AI Era
AEM is a global leader in intelligent system test and handling solutions for semiconductor and electronics companies serving the advanced computing, 5G, and AI markets. Our mission is to provide the most comprehensive semiconductor and electronics test solutions based on the best-in-class technologies, processes, and customer support.
AEM is the pioneer of massively parallel, fully automated test solutions. Our expertise has been developed over the past two decades where AEM now has the largest fleet of such high parallel systems in the world serving the advanced performance compute market.
AEM has a global presence across Asia, Europe, and the Americas, with R&D centers located in Singapore, Malaysia, France, Finland and the US. AEM has manufacturing plants in Singapore, Malaysia (Penang), Indonesia (Batam), Vietnam (Ho Chi Minh City), and Finland (Lieto), and a global network of field engineering support and sales offices.
AEM: Unleashing the Power of Tomorrow – Leader in High-Performance Processor Testing for the AI Era
AEM is a global leader in intelligent system test and handling solutions for semiconductor and electronics companies serving the advanced computing, 5G, and AI markets.
AEM’s technology pillars stem from the substantial investments made in R&D to sustain our leadership in three critical verticals: Industry leading Active Thermal Control, Advanced Factory Automation, and Application-Optimized Test Instrumentation.
AEM’s Solutions:
Industry Leading Active Thermal Control: Common active thermal collaterals integrated into various test insertion solutions ranging from the engineering lab to high volume manufacturing to enable rapid time to market and yield improvements.
Advanced Factory Automation: Factory 4.0 automation for low to massively parallel test insertions optimized for maximum throughput and lowest cost of test.
Test Instrumentation: Highly optimized test instrumentation, coupled with active thermal control and automation, that challenges the current cost-prohibitive traditional ATE test methodology.
VP & GM
Dr. Near Margalit has held several executive positions in the optical connectivety industry. He founded Zaffire Inc., a metro DWDM Optical Networking company before moving on to lead Source Photonics as CEO from 2002-2013, growing the company to one of the premier optical transceiver vendors. He was the CTO and Head of Product Development for Intel’s Silicon Photonics for the commercial introduction of Silicon Photonics in 2015-2016. From 2018 to present he has been with the Optical Systems Division of Broadcom where he is currently the VP and General Manager of the division. He holds a Ph.D in Optoelectronics from UC Santa Barbara and a B.S. in Applied Physics from CalTech.
Broadcom Inc. designs, develops, and markets digital and analog semiconductors. The Company offers wireless RF components, storage adapters, controllers, networking processors, switches, fiber optic modules, motion control encoders, and optical sensors. Broadcom markets its products worldwide.
Director, LinkX Products
Ashkan Seyedi received a dual bachelor’s in electrical and computer engineering from the University of Missouri-Columbia and a Ph.D. from University of Southern California working on photonic crystal devices, high-speed nanowire photodetectors, efficient white LEDs, and solar cells. With a decade of industry experience at Intel, Hewlett Packard Enterprise and now NVidia, Dr. Seyedi has been working on developing high-bandwidth, efficient optical interconnects for exascale, and high-performance computing applications.
Since its founding in 1993, NVIDIA (NASDAQ: NVDA) has been a pioneer in accelerated computing. The company’s invention of the GPU in 1999 sparked the growth of the PC gaming market, redefined computer graphics, ignited the era of modern AI and is fueling the creation of the metaverse. NVIDIA is now a full-stack computing company with data-center-scale offerings that are reshaping industry.
Head of DSRA-PKG
Dr. Vincent (WooPoung) Kim is the Corporate EVP, Head of Packaging at Samsung Device Solutions Research America based in San Jose, California. Dr. Kim is responsible for leading the packaging division at Samsung Device Solutions Research America, dedicated to meeting industry’s needs for advanced chip packaging in high-performance systems. Prior to joining Samsung, he served as a System Architect for Signal Integrity and Power Integrity at Apple, where he played a crucial role in developing consumer computers. Before his tenure at Apple, Dr. Kim worked as an SI Manager in Snapdragon packaging at Qualcomm. Prior to that, he was a Co-Design Engineer in the Wireless Business Unit of Texas Instruments, where he specialized in optimizing the electrical design of OMAP packages and systems. Dr. Kim also gained valuable experience as an SI Engineer at Rambus, where he designed and analyzed memory systems.
Dr. Kim received his Ph.D degree in Electrical and Computer Engineering (ECE) at Georgia Tech in 2004, and his M.S. & B.A. degrees from KAIST, Korea in 1999 and 1997.
Samsung Electronics Co., Ltd. engages in the manufacturing and selling of electronics and computer peripherals. The company operates through following business divisions: Consumer Electronics, Information Technology & Mobile Communications and Device Solutions. The Consumer Electronics business division provides cable television, monitor, printer, air-conditioners, refrigerators, washing machines and medical devices. The Information Technology & Mobile Communications business division offers handheld products, communication systems, computers and digital cameras. The Device Solutions business division comprises of memory, system large scale integrated circuit and foundry. The company was founded on January 13, 1969 and is headquartered in Suwon, South Korea.
Chief Operating Officer
Najwa Khazal is the Chief Operating Officer for Busch Group USA and a global business leader with 20+ years of experience across America, China, EMEA, India, and Mexico. She specializes in supply chain management, program management, and digital transformation for $3B organizations in industries such as aerospace, automotive, energy, medical, and more. Najwa excels in leading complex, multimillion-dollar projects from concept to commercialization, while driving cost optimization and sustainable performance. A passionate educator with 12+ years of teaching international business, she is trilingual and recognized for her exceptional leadership, strategic execution, and commitment to operational excellence across global markets.
Pfeiffer Vacuum+Fab Solutions delivers best-in-class vacuum and semiconductor fabrication solutions for a wide range of industries, including semiconductor manufacturing, analytics, research, and other high-tech applications. We combine advanced vacuum technologies, such as pumps, leak detection systems, and measurement instruments, with specialized fab solutions to support critical processes with maximum precision and reliability.
As part of the Busch Group, one of the world’s largest manufacturers of vacuum pumps, vacuum systems, blowers, compressors, and gas abatement systems, we have access to a global network of expertise and innovation. The Busch Group brings together three industry-leading brands: Busch Vacuum Solutions, Pfeiffer Vacuum+Fab Solutions, and centrotherm clean solutions.
With over 8,000 employees in 44 countries, the Busch Group is committed to delivering superior service and cutting-edge technologies worldwide. The group operates 23 production plants across key regions, including China, Germany, the USA, Vietnam, and others, ensuring global reach with local support.
VP imec.IC-link / imec silicon solutions
Philippe Absil received his Ph.D. degree from the Department of Electrical Engineering, University of Maryland, College Park, MD, USA, in 2000. His doctoral work contributed to the early demonstrations of optical semiconductor microring resonators. In the early 2000s, he developed the passive photonics platform technology for Little Optics, Inc., Annapolis Junction, MD USA. From 2013 till 2024 he was VP R&D and the head of the 3-D and Optical I/O Technologies Department at imec and has been responsible for the silicon photonics technology platform development since 2010. Before that he spent seven years managing the advanced CMOS scaling program at imec.Now, Philippe is Vice President of imec.IC-link, Silicon Solutions, that offers unique technology services, leveraging imec’s state-of-the-art semiconductor fabrication infrastructure.
Imec is a world-leading research and innovation center in nanoelectronics and digital technologies. Imec leverages its state-of-the-art R&D infrastructure and its team of more than 5,500 employees and top researchers, for R&D in advanced semiconductor and system scaling, silicon photonics, artificial intelligence, beyond 5G communications and sensing technologies, and in application domains such as health and life sciences, mobility, industry 4.0, agrofood, smart cities, sustainable energy, education, … Imec unites world-industry leaders across the semiconductor value chain, Flanders-based and international tech, pharma, medical and ICT companies, start-ups, and academia and knowledge centers. Imec is headquartered in Leuven (Belgium), and has research sites across Belgium, in the Netherlands and the USA, and representation in 3 continents. In 2021, imec’s revenue (P&L) totaled 732 million euro.
Further information on imec can be found at www.imec-int.com.
Co Founder & CEO
Srini Chinamilli is the Co-founder and CEO of Tessolve. He has more than 25 years of experience in semiconductor Test and Product engineering and held management and technical positions at Cirrus Logic and Centillium communications prior to co-founding Tessolve. Under his leadership, Tessolve has evolved to be the largest standalone semiconductor engineering solutions company, with over 3200 employees across 10 countries worldwide.
Tessolve is a leading semiconductor & systems engineering services company founded in 2004. With a global presence and over 3,200 employees, they support major technology companies. Tessolve offers a wide range of services including ASIC design, chip design, test engineering, complex PCB design, and embedded systems design. Their focus on emerging areas like AI, hyperscalars, semiconductor design and testing, avionics and automotive solutions helps clients bring high-quality products to market faster and more cost-effectively.
CEO
Mark is Chief Executive Officer and Co-Founder of Ayar Labs. His prior roles at Ayar Labs include Chief Technology Officer and Senior Vice President of Engineering. He is recognized as a pioneer in photonics technologies and, prior to founding the company, led the team that designed the optics in the world’s first processor to communicate using light. He and his co-founders invented breakthrough technology at MIT and UC Berkeley from 2010-2015 which led to the formation of Ayar Labs. He holds a PhD from University of Colorado.
Ayar Labs is disrupting the traditional performance, cost, and efficiency curves of the semiconductor and computing industries by driving a 1000x improvement in interconnect bandwidth density at 10x lower power. Ayar Labs’ patented approach uses industry standard cost-effective silicon processing techniques to develop high speed, high density, low power optical based interconnect “chiplets” and lasers to replace traditional electrical based I/O. The company was founded in 2015 and is funded by a number of domestic and international venture capital firms as well as strategic investors. For more information, visit www.ayarlabs.com.
Address: 695 River Oaks Parkway, San Jose, CA 95134
Phone: 650-963-7200
Email: info@ayarlabs.com
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