We Are Building the Adaptable, Intelligent World.
Xilinx is the inventor of the FPGA, programmable SoCs, and now, the ACAP. Our highly flexible, programmable silicon, enabled by a suite of advanced software and tools, drives rapid innovation across a wide span of industries and technologies – from consumer to cars to the cloud. Xilinx delivers the most dynamic processing technology in the industry, enabling rapid innovation with its adaptable, intelligent computing.
From the beginning, we have always believed in providing inventors with products and platforms that are infinitely adaptable. From self-driving cars, to world-record genome processing, to AI and big data, to the world’s first 5G networks, we empower the world’s builders and visionaries whose ideas solve every day problems and improve people’s lives.
With over 4,400 patents and 60 industry first, Xilinx is known for its historic achievements including the introduction of the first FPGA and the inception of the fabless model.
Xilinx technology is found in a broad range of ever smarter applications including Mars probes, wired and wireless networking infrastructure, high definition video cameras and displays, and industrial manufacturing and automation equipment.
We are at the core of key innovations in:
Our commitment to deliver cutting edge technology and enable customers to create state-of-the-art electronics is made possible by our innovative workforce. The Xilinx workforce is embodied by people who are driven, collaborative, and out-of-the-box thinkers who thrive in solving difficult changes and delighting our customers.
As a regional headquarters, Xilinx Asia Pacific plays a key role in fueling business growth and global achievements. Although we are a technology company, the heart and soul of our success is firmly anchored in the great talent we attract.
We make it a priority to ensure our team has fulfilling work, opportunities to develop, and opportunities to connect with teammates at site events.
“Xilinx has provided the perfect entry platform for my career in engineering, a hi-tech organization with top-class engineers to work with.” – Jingyao, Entry Level Professional
“Xilinx brings to Singapore the forefront of practical research in implementable IoT ideas led by our active engagement with our customers.” – EuGene, Design Engineering
“Join a top global innovation company in a fast growing and dynamic region.” – David, Product Engineering
“My internship experience has exceeded my greatest expectations. I have had a very enriching experience working with top-class engineers.” – Aloysius, Design Engineering
“There’s never a dull moment working here at Xilinx. The ability to lead and mentor a young vibrant team of smart millennials has been enriching and challenging.” – Clarine, Operations Product Planning
“It’s an honor to work for Xilinx-Great,Great,Great Company. Xilinx provides a perfect platform to learn, contribute and excel in career.” – Mahafiz, Operations Product Planning
“My internship with Xilinx Research lab introduces me to the attitude and philosophy I need for thriving in the scientific community and not to forget the life-long mentorships I build during this time.” – Jain, Research Engineering
Adaptive Compute Acceleration Platform (ACAP)
FPGAs & 3D ICs
SoCs, MPSoCs & RFSoCs
Boards, Kits and Modules
Audio Video and Image Processing
DSP and Math
Interface and Interconnect
Memory and Controllers
Please visit the Xilinx website for the full product list.
Xilinx Versal – Industry’s First Adaptive Compute Acceleration Platform (ACAP)
Introducing Versal ACAP, a fully software-programmable, heterogeneous compute platform that combines Scalar Engines, Adaptable Engines, and Intelligent Engines to achieve dramatic performance improvements of up to 20X over today’s fastest FPGA implementations and over 100X over today’s fastest CPU implementations—for Data Center, wired network, 5G wireless, and automotive driver assist applications.
An ACAP is ideally suited to accelerate a broad set of applications in the emerging era of big data and artificial intelligence. These include: video transcoding, database, data compression, search, AI inference, genomics, machine vision, computational storage and network acceleration. Software and hardware developers will be able to design ACAP-based products for end point, edge and cloud applications.
Xilinx Evaluation Boards & Kits
From concept to production, Xilinx FPGA and SoC boards, System-on-Modules, and Alveo Data Center accelerator cards provide you with hardware platforms to speed your development time, enhance your productivity, and accelerate your time to market. Whether you need an evaluation board to begin development or want to speed time-to-market and lower risk with production data center accelerator cards or System-on-Modules, Xilinx and its ecosystem partners offer the industry’s most comprehensive set of hardware platforms to help speed your time-to-revenue.
FPGAs & 3D ICs
FPGA Leadership across Multiple Process Nodes
Xilinx offers a comprehensive multi-node portfolio to address requirements across a wide set of applications. Whether you are designing a state-of-the art, high-performance networking application requiring the highest capacity, bandwidth, and performance, or looking for a low-cost, small footprint FPGA to take your software-defined technology to the next level, Xilinx FPGAs and 3D ICs provide you with system integration while optimizing for performance/watt.
SoCs, MPSoCs & RFSoCs
Xilinx’s SoC portfolio integrates the software programmability of a processor with the hardware programmability of an FPGA, providing you with unrivaled levels of system performance, flexibility, and scalability. The portfolio gives your designs overall system benefits of power reduction and lower cost with fast time to market. Unlike traditional SoC processing solutions, the flexible programmable logic provides you with optimization and differentiation, allowing you to add the peripherals and accelerators you need to adapt to a broad base of applications.
Xilinx VITIS – Enabling All Developers from Edge to Cloud
The Vitis unified software platform includes:
Senior Vice President, Head of Sustainable Solutions
SembCorp Industries Ltd
Ms Jen Tan is Senior Vice President, Head of Sustainable Solutions at Sembcorp Industries. She is responsible for business development, project development and execution as well as operations and maintenance of solar projects in Singapore and Southeast Asia. Under her leadership, Jen has successfully grown the business to become one of the largest solar players in Singapore.
Jen has over 11 years of experience in the solar industry. Before joining Sembcorp, she was Vice President of APAC Sales and Energy Solutions in REC Solar Pte Ltd responsible for driving business growth in the region. In her time at REC, she was part of the pioneer team in starting up the REC manufacturing facility in Tuas. Prior to that, Jen was in the semiconductor industry for nearly a decade, focusing primarily on planning.
Jen holds a BA degree in Economics and Statistics from the National University of Singapore, and is currently pursuing an Executive MBA with National University of Singapore.
Topic: Sustainability is our business: Powering the energy transition in the electronics & semiconductor sector
Businesses are adopting more sustainable practices. From using renewables as part of their energy source, to deploying water optimisation solutions and low-carbon technologies. As sustainability is our business, Sembcorp is recruiting talents to meet our customers’ sustainability targets. Join us and be part of this green movement.
Senior Technologist & Technical Marketing Manager
Lam Research Singapore Pte Ltd
Lee Chee Ping is the Senior Technologist and Technical Marketing Manager for Lam Research, focusing on the advanced packaging and heterogeneous integration segment. He has more than 16 years of semiconductor industry experience in thin-film deposition processes, supporting customers across Asia.
Over the last 10 years, he has built in-depth knowledge and experience in the advanced packaging market and technology. He began with process management role, developing OSAT process support teams in Asia region and now, focuses on advanced packaging product marketing.
Lee Chee Ping received his M.Sc in Financial Engineering and B.Engr. in Chemical Engineering from National University of Singapore. He also has a M. Engr in Technology Management from the University of South Australia.
Topic:Semiconductor Industry – the Blue Ocean in a New World Economy
The recent COVID-19 pandemic has accelerated shift to a new world economy, one which is virtual and being ‘connected’, enabled significantly by technology. Semiconductor contents are now prevalent in today’s consumer lifestyle products, such as the indispensable mobile phones, the internet of things in house appliances and the smart automotive equipped with multitudes of safety sensors. On the other hand, industry players are leveraging advances in robotics, sensors and semiconductor enabled artificial intelligence to deliver better products and personalized services at competitive cost.
This, in turn, further transformed the semiconductor industry into a vastly expanded blue ocean, for aspiring, talented career seekers. The presentation aims to provide brief overview of the semiconductor market and its relevance in today and tomorrow’s world. It will also introduce Lam Research, a leading capital equipment supplier in the semiconductor industry, and share its perspective on skills needed in the industry.
Deputy Head / Scientist
Institute of Microelectronics, A*STAR
Lennon graduated BS summa cum laude from Columbia in 2009 and with PhD from Stanford in EE in 2016. Since his PhD graduation, he has been working as a scientist in Sensors, Actuators, and Microsystems. His current focus is on photonics and MEMS for chemical and optical sensors, while as deputy head, he oversees the different directions in SAM to develop new technologies for the industry and public needs.
Topic: Sensors, Actuators, & Microsystems
The Sensors, Actuators, & Microsystems team focuses on developing novel transducers at the heart of many electronic systems today, bridging the electronic and the real world. Semiconductor microfabrication techniques are leveraged for engineering high performance, microscale devices that can be batch fabricated at low-cost. Some of the key themes in the group are: acoustic sensors, piezoelectrics, as well as gas and chemical sensors.