Vision Processing Unit Market 2024 Comprehensive Research Study, Emerging Technologies and Global Forecast to 2024

Vision Processing Unit (VPU) refers to a dedicated processor which produces high quality of images with ambient light and also reduces the power consumption by freeing up the CPU and GPU space thereby improving the overall performance of the system in which it is implemented. The Vision Processing Unit (VPU) market is primarily driven by the increasing adoption of machine vision systems across wide range of industry verticals including consumer electronics, automotive, healthcare, and manufacturing among others. Additionally, the advent of Artificial Intelligence (AI) and machine learning technologies required to program the systems is expected to assist the growth of the market. Various robots having vision capabilities are increasingly being implemented across the manufacturing and automobile industries for various purposes which include inspection of the products, quality check, assisting in the various stages of production, and security and surveillance among others. Furthermore, the growing developments in the automobiles particularly, the autonomous vehicles is anticipated to impact the market positively. Machine Vision systems are used in the automobiles as a part of advanced driver assistance system (ADAS) which leads to improved safety while travelling. ADAS systems keep the driver aware while driving by giving inputs such as nearby vehicles, automatic braking systems, providing alerts pertaining to any objects, pedestrians, or vehicles nearby and so on. The implementation of vision processing units across all the above mentioned applications will result in high quality of images and ensure the better performance of the system. Vision processing units also are increasingly being used in smartphones for giving an exceptional photography experience to the user. It can be seen that a large number of smartphone manufacturers are launching dual camera models to give the user with a DSLR like image quality. The use of VPU in smartphones results in low consumption of power and increased battery life. VPUs are also used in wearable cameras which are used by adventure enthusiast, police personnel and security forces for surveillance, and in medical fields by the doctor to document the medical procedures being performed on the patient. Thus, the growing demand for low power consumption system on chip (SoC) circuits which find varied applications is expected to propel the growth of the market. However, the complexity associated with the programming of the system on which VPU is incorporated is likely to be a limiting factor for the market growth in the coming years. Nonetheless, Vision Processing Unit market is expected to witness several innovative and technologically advanced products in the coming years.

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vision processing unit market

Depending on application, the global VPU market has been segmented into smartphones, digital cameras, automobiles, wearable devices, drones, robots, and medical devices. In 2016, the smartphone segment was the highest revenue generating segment. Vision processing units are increasingly being used in smartphones to improve their photography capabilities and increase the functionality of the cameras which is fuelling the growth of the market. The smartphone segment is estimated to grow at CAGR of 16.95 % over the forecast period from 2017 to 2025.

Based on the end use verticals, the market has been divided into consumer electronics, automotive, industrial, and healthcare and others. In 2016, the consumer electronics segment was the topmost revenue generating segment owing to the increased implementation of VPUs in electronic devices such as smartphones, wearable devices, digital cameras, drones where low power consumption is a primary concern. Furthermore, the automotive segment is also expected to witness a healthy growth owing to the large scale adoption of electronics in the automobiles for infotainment, driver assistance systems, and the extensive developments taking place in autonomous vehicles. The consumer electronics segment is expected to grow at CAGR of 16.86% over the forecast period from 2017 to 2025.

In terms of global geography, the market has been divided into North America, Europe, Asia Pacific, Middle East & Africa and South America. In 2016, North America was the topmost revenue generating region followed by Europe. Asia Pacific region is expected to grow at highest CAGR from 2017 to 2025 owing to the bolstering growth in the automotive and electronics industry. Asia Pacific region is expected to grow at a CAGR of 19.08% over the forecast period.

The key trends prevalent in the Vision Processing Unit market are the strategic alliances of established as well as small players with their peers in the semiconductor segment in order to establish footprint in the vision processing and machine vision space and gain greater share globally. Many developments are taking place in the automobile industry for making the automobiles smarter which will drive the growth of Vision Processing Unit market. Also, major players in the electronics space are working for the innovation and development of technologically advanced products for better efficiency, operation and reliability of the systems in which they are implemented.

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The global vision processing unit market is expected to witness innovative products and M&A by major market players in order to establish footprint in the machine vision space and gain an increased market share. For instance, In August 2017, Movidius launched its new vision processing unit (VPU), Myriad X, which is the world’s first system-on-chip (SOC) with a reliable Neural Compute Engine to enhance the deep learning inferences at the edge.

The key players profiled in the global Vision Processing Unit market include Movidius, Inc., Synopsys, Inc., MediaTek, Inc., Imagination technologies Limited, Ceva Inc., VeriSilicon Ltd among others. In a bid to stay ahead of the competition, it can be seen that the key players are entering into mergers and acquisition deals with the peers as well as smaller players. For instance, CEVA Inc. signed a sales deal in January 2018 with ASR Microelectronics which is a prominent semiconductor firm to supply its licensed technologies. ASR Microelectronics will incorporate these technologies in its upcoming system-on-chip (SoC) products for smartphones and narrowband IoT (NB-IoT) edge devices.

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