36-3, Jalan Metro Pudu, Frasers Business Park, Kuala Lumpur 55100

+6012-2180925

sales@springsem.com

About us

Welcome to Spring Semiconductor Sdn Bhd, your premier partner in integrated circuit (IC) design services, proudly serving the dynamic markets of Singapore and Malaysia. Specializing in IP Development, FPGA Prototyping, and comprehensive IC Design services, we are dedicated to pushing the frontiers of innovation and delivering cuting-edge solutions tailored to your needs. Our team of experienced engineers and industry veterans, work collaboratively to ensure that every project meets the highest standards of performance and quality. Partner with us to accelerate your time-to-market, enhance product functionality, and achieve unparalleled success in the competitive world of semiconductors. 

Spring Semiconductor Portfolio

Spring believes in innovation through shared technology — where tools, knowledge, and infrastructure are not locked away, but multiplied through collaboration. By lowering barriers and building common platforms, Spring enables engineers, startups, and institutions to move faster, learn deeper, and create silicon with real-world impact.


SpringMind

SpringMind provides end-to-end IC and SoC design services, from architecture and RTL to verification and physical design.
It enables companies and institutions to transform ideas into manufacturable silicon efficiently. SpringMind forms the engineering foundation of all Spring platforms.

SpringBlade

SpringBlade delivers FPGA-based SoC prototyping systems for pre-silicon validation and system emulation. Its modular hardware and Hardware-as-a-Service model support education, R&D, and industrial teams. SpringBlade shortens development cycles while reducing the cost of innovation.

SpringSchool

SpringSchool develops semiconductor talent through practical, hands-on training programs. Courses are designed to be HRDC-claimable and aligned with real industry workflows. SpringSchool ensures knowledge is transferred, retained, and multiplied.

SpringVolt

SpringVolt focuses on next-generation power electronics using Gallium Nitride (GaN). Its work targets high-efficiency, high-performance power solutions for modern applications. SpringVolt supports the growing demand for energy-efficient systems.

SpringMesh 

SpringMesh provides Multi-Project Wafer access to lower the cost of tape-out. It enables startups and universities to reach first silicon faster.SpringMesh bridges design, learning, and manufacturing.

SpringHaven

SpringHaven serves as the collaborative home for the Spring ecosystem. It connects industry, academia, talent, and partners through shared initiatives.SpringHaven sustains long-term growth beyond individual products.


Upcoming in 2026

SpringSecure

SpringSecure addresses silicon trust through hardware-level security technologies. It focuses on IP protection, secure identity, and anti-tamper mechanisms. SpringSecure enables trusted and resilient semiconductor systems.

SpringWave

SpringWave focuses on RF and mixed-signal wireless technologies. It supports connectivity, sensing, and RF front-end innovation. SpringWave forms the wireless foundation for future communication systems.


Did you already know...

Semiconductors and AI

Semiconductors are the backbone of modern technology, playing a crucial role in the development and deployment of artificial intelligence (AI). These tiny, efficient devices form the essential components of AI hardware, enabling high-speed data processing, massive parallel computations, and energy-efficient performance. Advances in semiconductor technology have significantly accelerated AI capabilities, from enabling powerful machine learning algorithms to enhancing the efficiency of neural networks. As AI continues to evolve, the symbiotic relationship between semiconductors and AI will drive innovations across various industries, paving the way for smarter, more autonomous systems.

Malaysia plots US$5.3 billion roadmap to build advanced chip ecosystem

Malaysia has a brand new plan to become a major player in the global semiconductor industry! Here's a breakdown of their strategy:

  • The Big Goal:  The plan, called the National Semiconductor Strategy (NSS), aims to transform Malaysia into a global powerhouse for chip production over the next decade.
  • Attracting Investment: The government is offering attractive incentives to bring in foreign semiconductor companies. They're looking for at least RM500 billion ($107 billion) in investment, with a focus on attracting companies involved in advanced chip design, manufacturing, and packaging.
  • Building Local Expertise:  The NSS doesn't just focus on big companies. It also aims to develop a skilled Malaysian workforce by training and upskilling 60,000 engineers in the field. They want to nurture at least 10 successful Malaysian companies in chip design and advanced packaging.
  • Becoming a Hub:  Malaysia hopes to establish itself as a global R&D hub for semiconductors. This means attracting world-class research institutions and fostering collaboration between universities, companies, and research centers.
  • Moving Up the Chain: The current focus in Malaysia is on assembly and testing of chips. The NSS aims to move the industry up the value chain by attracting companies involved in wafer fabrication, a more complex and high-tech process

Gallium Nitride: A Strategic Opportunity for the Semiconductor Industry

Gallium Nitride (GaN) is a wide bandgap semiconductor material that has gained significant attention in recent years due to its superior properties compared to traditional silicon-based semiconductors. GaN offers higher efficiency, faster switching speeds, and the ability to operate at higher temperatures and voltages. These characteristics make GaN an ideal material for a wide range of applications, including power electronics, RF devices, and optoelectronics


Electric Vehicles (EVs): The automotive industry is increasingly adopting GaN-based power electronics for EVs. GaN devices offer higher efficiency and power density, which are critical for improving the performance and range of EVs. The growing adoption of EVs, coupled with government incentives and regulations promoting clean energy, is expected to drive significant growth in the GaN market.


Renewable Energy: The renewable energy sector is another key growth area for GaN. GaN-based power converters and inverters are used in solar and wind energy systems to improve efficiency and reduce energy losses. As the world shifts towards renewable energy sources, the demand for GaN in this sector is expected to grow significantly.

Xilinx / Altera FPGAs

Xilinx and Altera FPGAs (Field Programmable Gate Arrays) are renowned for their versatility, high performance, and ability to be reprogrammed to execute a wide range of tasks, making them a vital tool in the semiconductor industry. These advanced devices offer unparalleled flexibility, allowing developers to tailor hardware functions to specific applications, from data centers and telecommunications to automotive and aerospace. FPGAs excel in handling complex computations and parallel processing, which are essential for accelerating workloads in artificial intelligence, machine learning, and data analytics. By providing a scalable and adaptable platform, FPGAs enable innovative solutions and rapid development cycles, driving technological advancements across various sectors.

Malaysia’s First One-Stop IC Manufacturing Gateway

Coming Soon in May'26