Frost & Sullivan's Recent Research Finds Four Key Technologies to Foster the Programmable Semiconductor Market

Frost & Sullivan's Recent Research Finds Four Key Technologies to Foster the Programmable Semiconductor Market

Growth Opportunities for Programmable Semiconductor Technologies is the latest addition to Frost & Sullivan’s Technical Insights research and analyses available through the Frost & Sullivan Leadership Council, which helps organizations identify continuous growth flow opportunities to succeed in an unpredictable future.

FREMONT, CA: Frost & Sullivan’s recent analysis, Growth Opportunities for Programmable Semiconductor Technologies, find programmable semiconductors area major revenue contributor in the semiconductors space. The study analyzes the four critical technologies under programmable semiconductors, graphical processing units (GPUs), field-programmable gate arrays (FPGAs), microprocessing units (MPUs), and artificial intelligence accelerators (AI accelerators). And the factors influencing their development and adoption, applications across various industries, and future growth opportunities.

“MPUs are the most prominent programmable semiconductors. They have been used in central processing units (CPUs) in laptops and computers and have seen a sudden surge during the pandemic. As a key growth enabler in the industry, global MPU sales will reach $74.1 billion by 2024,” said Sushrutha Sadashiva, TechVision Senior Research Analyst at Frost & Sullivan. “However, AI accelerators are the emerging segment garnering global attention, owing to their ability to integrate with internet-of-things, smart devices, industry 4.0, and Big Data. The AI accelerator chip market is expected to be the fastest-growing, reaching $33.51 billion in 2024 from $10.14 billion in 2020, thanks to the rapid proliferation of high graphic content and complex applications in edge devices.”

Arjun Mehta, TechVision Senior Research Analyst at Frost & Sullivan, added: “With rising demand from PCs and the gaming industry, the global GPU market more than doubled from 2015 to 2019 and is forecast to hit $31.6 billion in 2024. In addition, while FPGA solutions will continue to be the smallest revenue contributor, the consumer electronics and automotive sectors are poised to trigger higher demand for FPGAs following the second half of 2021, with economic recovery in Asian and European markets.”

To tap into the potential of programmable semiconductors, market participants need to focus on the following sectors:

Aerospace, Defense, and Space (ADS): With the rapid adoption of cloud-based service providers, FPGAs and ASICs (application-specific integrated circuit) have witnessed a surge in demand. The ADS industry is expected to contribute to 10 percent of the global FPGA revenue. Key applications include military radio, surveillance systems, government data centers, high-resolution imagery missions, and remote sensing payload.

Automotive: As OEMs are increasingly adopting embedded solutions to enhance product offerings, MPUs are gaining momentum by adding processing capabilities to advanced driving systems.

Communication and Computation Industry: PGAs and ASICs are poised to play a vital role in addressing the complex, high-speed, high-performance networks required to power the next generation of 5G. Technology developers should emphasize building their technology capabilities and developing new product lines offering programmable semiconductor solutions for this industry.

Gaming and Entertainment: Emerging trends in the gaming and entertainment industry, such as virtual reality (VR) and cloud-based gaming, are poised to boost demand for GPU engines. Therefore, GPU technology developers must aggressively focus on forming partnerships with gaming console developers and VR solution providers to create this sector's products.

Retail: Cashier-less retail will provide a niche opportunity for GPUs as tech-savvy customers and millennials are increasingly willing to leverage technology to avoid long payment queues.