|
Forecast
Period
|
2025-2029
|
|
Market
Size (2023)
|
USD
165.11 Million
|
|
Market
Size (2029)
|
USD
330.6 Million
|
|
CAGR
(2024-2029)
|
12.10
%
|
|
Fastest
Growing Segment
|
Aerospace
|
|
Largest
Market
|
North
America
|
Market Overview
Global
Vpx Sbc Market was valued at USD 165.11 Million in 2023 and is anticipated to
project robust growth in the forecast period with a CAGR of 12.10% through 2029. The increasing demand for home entertainment, rising
popularity of streaming services, increasing affordability of smart home
projectors are the factors driving the market growth with the high CAGR. Highly
competitive, the VPX SBC market appears fragmented due to the presence of
several well-established players. Mergers & acquisitions, innovation, and
brand reinforcement remain prevailing key trends for the leading players as
these strategies support their growth and expansion plans. They deliver
reliable, leading-edge products that can support standard and custom embedded
computing solutions.
These market players invest
substantially in R&D to develop an extensive portfolio of commercial and
ruggedized SBCs. These companies focus on developing their product portfolios
with the latest technologies. They follow organic and inorganic growth approaches,
engaging in product development. The market competition is likely to intensify
due to new product launches and new entrants in the market.
Key Market Drivers
Increasing
Demand for High-Performance Computing
The
increasing demand for high-performance computing (HPC) is a significant driver
in the global VPX Single Board Computer (SBC) market. HPC systems are essential
for processing large datasets and performing complex calculations, crucial in
fields such as scientific research, financial modeling, and climate simulation.
VPX SBCs are designed to meet the rigorous demands of HPC applications by
providing robust processing power, high-speed data transfer capabilities, and
superior connectivity. The modular and scalable nature of VPX SBCs makes them
ideal for HPC systems, allowing for easy upgrades and customization to meet
specific computational needs.
As
industries and research institutions push the boundaries of computational
science, the need for reliable and powerful computing platforms grows. VPX
SBCs, with their ability to integrate multiple processors and support
high-bandwidth communication protocols, are well-suited to handle these tasks.
Moreover, the adoption of artificial intelligence (AI) and machine learning
(ML) technologies in various sectors further fuels the demand for HPC
solutions. AI and ML applications require substantial processing power and data
handling capabilities, which VPX SBCs can provide efficiently.
Additionally,
government and defense sectors are investing heavily in HPC for
mission-critical applications, including cryptography, surveillance, and
defense simulations. These applications demand the highest levels of
performance and reliability, which VPX SBCs are engineered to deliver. The
growth of smart infrastructure and the Internet of Things (IoT) also
contributes to the HPC demand, as these technologies require real-time data
processing and analytics.
Advancements
in Defense and Aerospace Applications
The
advancements in defense and aerospace applications are a pivotal driver for the
global VPX Single Board Computer (SBC) market. These sectors require robust,
reliable, and high-performance computing solutions to support a wide range of
critical operations, from real-time data processing in unmanned systems to
advanced navigation and communication systems in aircraft. VPX SBCs are
particularly well-suited for these applications due to their rugged design,
high computational power, and ability to withstand harsh environments.
Defense
and aerospace applications demand systems that can operate under extreme
conditions, such as high temperatures, shock, and vibration. VPX SBCs are
designed with ruggedization features that ensure they can perform reliably in
such challenging environments. This makes them ideal for use in military
vehicles, aircraft, and other defense systems where failure is not an option.
Moreover,
the increasing complexity of defense and aerospace missions requires advanced
computing capabilities. For instance, modern military systems use sophisticated
sensors and require real-time data processing and analysis to make rapid and
accurate decisions. VPX SBCs, with their high-speed processing and data
transfer capabilities, are capable of handling these demanding tasks
efficiently. The ability to integrate multiple processing units and
high-bandwidth communication interfaces further enhances their suitability for
these applications.
Additionally,
the trend towards network-centric warfare and the need for interoperability
between various defense systems drive the demand for flexible and scalable
computing platforms like VPX SBCs. These systems must be capable of seamless
communication and integration with other components in the defense network,
ensuring coordinated and efficient operations.
In
aerospace, the development of more advanced and autonomous systems, such as
drones and next-generation aircraft, also boosts the demand for
high-performance computing solutions. VPX SBCs provide the necessary
computational power and reliability to support the advanced functionalities of
these systems, from real-time navigation and control to data acquisition and processing.
Growing
Adoption of AI and Machine Learning
The
growing adoption of artificial intelligence (AI) and machine learning (ML) is a
major driver for the global VPX Single Board Computer (SBC) market. AI and ML
applications require substantial computational power, real-time data
processing, and efficient data handling capabilities, all of which are
strengths of VPX SBCs. These applications span across various industries,
including healthcare, finance, automotive, and manufacturing, leading to a
broad and increasing demand for advanced computing solutions.
In
healthcare, AI and ML are used for diagnostics, personalized medicine, and
predictive analytics. These applications need robust computing platforms to
process large volumes of medical data, run complex algorithms, and deliver
results in real-time. VPX SBCs, with their high processing power and data
throughput capabilities, are ideal for such demanding tasks, enabling faster
and more accurate medical analyses and outcomes.
The
financial sector also leverages AI and ML for algorithmic trading, fraud
detection, and risk management. These applications require low-latency,
high-speed processing to analyze massive datasets and make real-time decisions.
VPX SBCs provide the necessary computational performance and reliability,
ensuring that financial institutions can maintain competitive advantages and
safeguard against risks effectively.
In
the automotive industry, AI and ML drive innovations in autonomous driving,
advanced driver-assistance systems (ADAS), and predictive maintenance.
Autonomous vehicles and ADAS require real-time processing of sensor data to
make immediate decisions, ensuring safety and efficiency on the road. VPX SBCs
offer the high-performance computing needed to support these advanced systems,
facilitating the development and deployment of safer, smarter vehicles.
Manufacturing
industries are increasingly adopting AI and ML for automation, predictive
maintenance, and quality control. These applications enhance productivity,
reduce downtime, and improve product quality. VPX SBCs enable the integration
of AI and ML into manufacturing processes by providing the computational power
necessary to analyze production data in real-time and optimize operations.
Furthermore,
the integration of AI and ML into IoT devices enhances their capabilities,
leading to the concept of AIoT (AI + IoT). This trend further boosts the demand
for high-performance computing solutions like VPX SBCs, which can handle the
intensive data processing and analytics required for AIoT applications.
Increasing
Investments in Industrial Automation
The
increasing investments in industrial automation are a significant driver for
the global VPX Single Board Computer (SBC) market. Industrial automation
involves the use of advanced control systems, robotics, and AI to enhance the
efficiency, reliability, and productivity of manufacturing processes. VPX SBCs
play a crucial role in this transformation by providing the high-performance
computing power necessary to support these sophisticated systems.
Manufacturers
are increasingly adopting automation technologies to stay competitive in a
rapidly evolving market. Automated systems can perform repetitive tasks with
higher precision and consistency than human labor, reducing errors and
increasing output quality. VPX SBCs, with their powerful processors and
real-time data processing capabilities, enable these automated systems to
operate efficiently and effectively.
The
integration of robotics in manufacturing is a key aspect of industrial
automation. Robots require robust computing platforms to process sensor data,
execute complex algorithms, and perform precise movements. VPX SBCs provide the
necessary computational power and reliability to support advanced robotic
applications, from assembly and welding to inspection and packaging.
Furthermore,
the use of AI and machine learning in industrial automation allows for
predictive maintenance, quality control, and process optimization. AI-driven
systems can analyze production data in real-time, predict equipment failures
before they occur, and optimize production parameters to improve efficiency.
VPX SBCs enable these AI applications by offering high-speed data processing
and real-time analytics capabilities.
The
push for Industry 4.0, which emphasizes the integration of cyber-physical
systems, IoT, and cloud computing in manufacturing, also drives the demand for
VPX SBCs. These advanced computing platforms support the connectivity, data
exchange, and real-time processing required for smart manufacturing
environments. VPX SBCs facilitate the seamless integration of various
automation technologies, enhancing the overall efficiency and productivity of
manufacturing processes.
Moreover,
government initiatives and investments in smart manufacturing and digital
transformation further fuel the growth of industrial automation. These
initiatives aim to enhance the global competitiveness of manufacturing
industries, driving the adoption of advanced technologies like VPX SBCs.
Rising
Demand for Reliable and Rugged Computing Solutions
The
rising demand for reliable and rugged computing solutions is a major driver in
the global VPX Single Board Computer (SBC) market. Various industries,
including military, aerospace, transportation, and energy, operate in
environments that require computing systems to withstand harsh conditions such
as extreme temperatures, shock, vibration, and humidity. VPX SBCs are
specifically designed to meet these demanding requirements, offering robustness
and reliability that are critical for mission-critical applications.
In
the military and defense sectors, rugged computing solutions are essential for
field operations, where equipment must endure the rigors of combat
environments. VPX SBCs provide the necessary durability and performance to
support applications such as command and control, surveillance, and
communication systems. Their ability to operate reliably under extreme
conditions ensures that military operations can proceed without interruption,
even in the most challenging environments.
The
aerospace industry also demands rugged computing solutions for applications in
aircraft, satellites, and unmanned aerial vehicles (UAVs). These systems must
perform reliably at high altitudes, in varying temperatures, and under
significant mechanical stress. VPX SBCs, with their rugged design and
high-performance capabilities, are ideal for aerospace applications, ensuring
the safety and efficiency of flight operations and data processing.
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Key Market Challenges
Technological
Advancements and Obsolescence
The
rapid pace of technological advancements poses a significant challenge for the
global VPX Single Board Computer (SBC) market. As newer and more advanced
technologies emerge, older VPX SBCs quickly become obsolete. This rapid
obsolescence creates a constant pressure on manufacturers to innovate and
update their product lines to stay competitive. The cycle of innovation is
costly and time-consuming, often requiring substantial investment in research
and development. Furthermore, the need to maintain compatibility with existing
systems while integrating new technologies adds another layer of complexity.
Customers, especially in defense and aerospace sectors, often require long-term
product support and compatibility, making the transition to newer technologies
a delicate balancing act. The challenge is not just to develop cutting-edge
products but also to manage the lifecycle of existing products efficiently,
ensuring that they do not become prematurely obsolete. This dynamic environment
necessitates a strategic approach to product development and lifecycle
management, which can strain resources and impact profitability.
Supply
Chain Disruptions
Supply
chain disruptions are a significant challenge for the global VPX SBC market,
especially in the context of global events such as the COVID-19 pandemic. The
production of VPX SBCs relies on a complex network of suppliers for components
such as semiconductors, connectors, and other electronic parts. Any disruption
in the supply chain can lead to delays in production and increased costs. The
semiconductor shortage, for instance, has severely impacted the availability of
critical components, leading to longer lead times and higher prices.
Additionally, geopolitical tensions and trade restrictions can further
complicate the supply chain, causing uncertainty and instability. Companies
must invest in robust supply chain management practices, including diversifying
suppliers and increasing inventory levels, to mitigate these risks. However,
these measures can increase operational costs and affect overall profitability.
The challenge lies in balancing cost efficiency with the need for supply chain
resilience, ensuring that production schedules are maintained without
compromising on quality or increasing costs excessively.
Stringent
Regulatory and Compliance Requirements
The
VPX SBC market is heavily regulated, particularly in sectors such as defense,
aerospace, and telecommunications. Compliance with stringent regulatory
requirements is a major challenge for manufacturers. These regulations are
designed to ensure the safety, reliability, and performance of VPX SBCs, given
their critical applications. For instance, defense-related VPX SBCs must comply
with military standards such as MIL-STD-810 for environmental conditions and
MIL-STD-461 for electromagnetic compatibility. Achieving and maintaining
compliance with these standards requires rigorous testing, certification, and
documentation processes, which can be both time-consuming and costly.
Additionally, regulatory requirements can vary significantly across different
regions, necessitating a thorough understanding of local regulations and the
ability to adapt products accordingly. Non-compliance can lead to severe
penalties, product recalls, and loss of reputation. Therefore, companies must
invest in comprehensive compliance programs and ensure that their products meet
all relevant standards, adding to the overall cost and complexity of bringing
VPX SBCs to market.
High
Development and Production Costs
The
development and production of VPX SBCs involve substantial costs, which pose a
significant challenge for market players. Designing a VPX SBC requires advanced
engineering skills and sophisticated software tools, both of which are
expensive. The use of high-performance components, such as powerful processors
and advanced connectors, further drives up costs. Additionally, manufacturing
VPX SBCs to meet the rigorous standards of industries like defense and
aerospace requires specialized equipment and facilities, contributing to high
capital expenditure. Quality assurance processes, including extensive testing
and validation, add another layer of expense. For smaller companies, these high
development and production costs can be prohibitive, limiting their ability to
compete with larger, more established players. Even for larger companies,
maintaining cost efficiency while ensuring high-quality standards is a constant
challenge. The high cost structure of the VPX SBC market necessitates careful
financial planning and cost management strategies to ensure profitability and
sustainability in a highly competitive environment.
Intense
Competition and Market Saturation
The
VPX SBC market is characterized by intense competition and increasing market
saturation, presenting significant challenges for companies operating in this
space. Numerous established players and new entrants are vying for market
share, leading to fierce competition. This competitive landscape drives
companies to constantly innovate and differentiate their products, which can be
resource-intensive. Moreover, as the market becomes saturated, finding new
growth opportunities becomes increasingly difficult. Companies must explore
niche applications and emerging markets to sustain growth, which may require
additional investment in market research and development of specialized
products. The pressure to offer competitive pricing while maintaining high
quality and performance adds to the challenge. Additionally, customers in
industries such as defense and aerospace have high expectations and specific
requirements, making it crucial for companies to provide customized solutions.
To succeed in this competitive environment, companies need to adopt strategic
marketing, invest in innovation, and build strong customer relationships, all
of which require substantial effort and resources.
Key Market Trends
Increasing
Demand for High-Performance Computing
The
global market for VPX Single Board Computers (SBCs) is witnessing a significant
upsurge in demand, driven by the need for high-performance computing solutions
across various industries. With the proliferation of data-intensive
applications in fields such as artificial intelligence (AI), machine learning,
and big data analytics, organizations are increasingly seeking powerful
computing platforms. VPX SBCs, known for their high processing power, advanced
I/O capabilities, and rugged design, are ideal for such demanding environments.
The defense and aerospace sectors, in particular, are major adopters,
leveraging VPX SBCs for applications like real-time data processing, signal
intelligence, and mission-critical operations. The ability of VPX SBCs to operate
in extreme conditions while delivering reliable performance makes them
indispensable in these high-stakes areas. Additionally, industries such as
telecommunications, industrial automation, and medical imaging are also
contributing to the growing demand, as they require robust and efficient
computing systems to handle complex tasks. This trend is further propelled by
the ongoing advancements in processor technologies and the development of more
sophisticated SBCs, which offer enhanced capabilities and greater efficiency.
As a result, the VPX SBC market is poised for substantial growth, driven by the
expanding applications of high-performance computing across diverse sectors.
Adoption
of Open Standards and Modular Architectures
The
adoption of open standards and modular architectures is a prominent trend
shaping the global VPX SBC market. Open standards, such as those defined by the
VITA (VMEbus International Trade Association) and OpenVPX, are increasingly
being embraced to ensure interoperability and flexibility in system design.
These standards facilitate the integration of multi-vendor components, allowing
end-users to build and customize systems according to their specific needs.
This modularity is particularly beneficial in sectors like defense and
aerospace, where systems must be adaptable to evolving requirements and
technological advancements. The use of open standards also reduces vendor
lock-in, providing customers with the freedom to choose the best available
components and ensuring long-term sustainability. Furthermore, modular
architectures enable easier upgrades and maintenance, as individual modules can
be replaced or updated without overhauling the entire system. This is critical
in applications requiring long operational lifespans, such as military and
industrial environments. The trend towards open standards is also fostering
innovation and competition among manufacturers, leading to the development of
more advanced and cost-effective VPX SBC solutions. As a result, the market is
seeing a proliferation of products that are not only high-performing but also
versatile and future-proof, catering to a wide range of applications and
industries.
Growing
Importance of Cybersecurity
In
the increasingly digital and interconnected world, cybersecurity has become a
paramount concern across all sectors, and the VPX SBC market is no exception.
The growing reliance on embedded systems for critical applications in defense,
aerospace, telecommunications, and industrial automation has heightened the
need for robust security measures. VPX SBCs, which often operate in
mission-critical environments, are now being designed with advanced
cybersecurity features to protect against threats and ensure the integrity of
operations. This includes hardware-based security mechanisms, secure boot
processes, and real-time encryption capabilities. Manufacturers are also
integrating trusted platform modules (TPMs) and other cryptographic
technologies to safeguard sensitive data and prevent unauthorized access. The
trend towards enhanced cybersecurity is driven by the increasing sophistication
of cyberattacks and the potential consequences of security breaches, which can
range from operational disruptions to the compromise of confidential
information. Regulatory requirements and industry standards are also playing a
crucial role, mandating stringent security protocols for systems used in
critical infrastructure. As a result, end-users are prioritizing security when
selecting VPX SBC solutions, seeking products that offer comprehensive
protection against a wide spectrum of threats. This focus on cybersecurity is
expected to continue growing, influencing the development and adoption of VPX
SBCs in the global market.
Integration
of AI and Machine Learning Capabilities
The
integration of artificial intelligence (AI) and machine learning (ML)
capabilities into VPX SBCs is an emerging trend that is transforming the market
landscape. As industries increasingly leverage AI and ML for data analysis,
decision-making, and automation, the need for SBCs that can support these
advanced technologies is rising. VPX SBCs are being equipped with powerful
processors, GPUs, and specialized AI accelerators to handle the complex
computations required for AI and ML applications. In defense and aerospace,
these enhanced SBCs are used for applications such as autonomous systems,
predictive maintenance, and real-time situational awareness. In industrial
automation, they enable smarter manufacturing processes, quality control, and
predictive analytics. The healthcare sector is also benefiting from AI-enabled
VPX SBCs, which support applications like medical imaging, diagnostics, and
patient monitoring. The trend towards AI integration is driven by the growing
availability of AI software frameworks and the increasing demand for
intelligent, autonomous systems. By incorporating AI and ML capabilities, VPX
SBCs can offer greater efficiency, accuracy, and adaptability in various
applications. This integration is expected to drive innovation and open new
avenues for the use of VPX SBCs, further expanding their market potential.
Emphasis
on Energy Efficiency and Thermal Management
As the performance capabilities of VPX
SBCs continue to advance, managing energy consumption and thermal dissipation
has become a critical focus for the market. The trend towards higher processing
power and more complex functionalities often results in increased heat
generation and energy usage, which can impact system reliability and longevity.
Consequently, there is a growing emphasis on developing energy-efficient VPX
SBCs that optimize power usage without compromising performance. Manufacturers
are incorporating advanced power management techniques, such as dynamic voltage
and frequency scaling (DVFS), to reduce energy consumption during periods of
low demand. Additionally, innovative thermal management solutions, such as
advanced heat sinks, liquid cooling, and thermal interface materials, are being
employed to effectively dissipate heat and maintain optimal operating
temperatures. These measures are crucial for applications in harsh
environments, where maintaining system stability is paramount. The push for
energy efficiency is also aligned with broader environmental sustainability
goals, as reducing power consumption contributes to lower carbon footprints.
End-users are increasingly considering energy efficiency as a key factor in
their procurement decisions, driving demand for VPX SBCs that offer superior
performance while minimizing energy usage. This trend is expected to spur
ongoing innovation in the design and manufacturing of VPX SBCs, leading to more
sustainable and reliable computing solutions.
Segmental Insights
End-Use Insights
Defense dominated in the Global Vpx Sbc Market in
2023. The defense industry continuously seeks to enhance its technological
capabilities to maintain superiority and respond effectively to modern threats.
VPX SBCs, with their high-performance computing power, rugged design, and
reliable operation in extreme conditions, are ideally suited for a variety of
defense applications. These include command and control systems, radar and
sonar systems, electronic warfare, and real-time data processing. The ability
of VPX SBCs to handle complex and high-speed data processing tasks is crucial
for mission-critical operations. Modern defense operations rely heavily on
real-time data processing and intelligence to make informed decisions quickly.
VPX SBCs provide the necessary computational power and fast data throughput
required for applications such as signal intelligence (SIGINT), electronic
intelligence (ELINT), and geospatial intelligence (GEOINT). These applications
require the collection, analysis, and dissemination of vast amounts of data in
real-time, a task that VPX SBCs are well-equipped to handle.
Defense operations often take place in harsh and
unpredictable environments, where equipment must withstand extreme
temperatures, shock, vibration, and humidity. VPX SBCs are designed to meet
stringent military standards for ruggedization and durability, ensuring
reliable performance in these challenging conditions. This makes them the
preferred choice for deployment in military vehicles, aircraft, naval vessels,
and remote installations. Security is paramount in defense applications, where
the protection of sensitive data and systems is critical. VPX SBCs incorporate
advanced security features, such as hardware-based encryption, secure boot, and
trusted platform modules (TPMs), to safeguard against cyber threats and
unauthorized access. These security measures are essential for maintaining the
integrity and confidentiality of defense operations. The modular architecture
of VPX SBCs allows for flexibility and scalability in defense systems. Open
standards like OpenVPX enable the integration of multi-vendor components,
making it easier to upgrade and customize systems according to evolving requirements.
This adaptability is crucial in the defense sector, where technological
advancements and changing operational needs necessitate regular system updates
and enhancements.
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Regional Insights
North America dominated in
the Global Vpx Sbc Market in 2023. North America, particularly the United
States, has one of the largest and most advanced defense sectors globally. The
U.S. Department of Defense (DoD) allocates significant portions of its budget
to modernize and enhance military capabilities. This includes investments in
cutting-edge technologies and high-performance computing systems. VPX SBCs are
integral to many defense applications, such as radar, electronic warfare,
unmanned systems, and real-time data processing. The robust demand from the
defense sector, fueled by ongoing modernization programs and new defense
initiatives, has significantly contributed to North America's dominance in the
VPX SBC market. North America is home to numerous leading technology companies
and research institutions that drive innovation in computing and electronics.
Companies like Intel, NVIDIA, and AMD, along with specialized VPX SBC
manufacturers such as Curtiss-Wright, Abaco Systems, and Mercury Systems, are
at the forefront of developing advanced computing solutions. The region’s
strong emphasis on research and development (R&D) ensures the continuous
advancement of VPX SBC technology, providing cutting-edge products that meet
the demanding requirements of various industries.
The aerospace and defense
sectors in North America extensively adopt VPX SBCs for their critical
applications. The region's prominent aerospace industry, led by companies like
Boeing, Lockheed Martin, and Northrop Grumman, relies on high-performance and reliable
computing systems for avionics, navigation, and mission-critical operations.
The integration of VPX SBCs into these applications ensures enhanced
performance, reliability, and real-time data processing, essential for both
civilian and military aerospace applications. North America is a global leader
in the adoption and development of artificial intelligence (AI) and machine
learning (ML) technologies. These technologies require powerful and efficient
computing platforms, making VPX SBCs a critical component. Industries such as
defense, aerospace, telecommunications, and healthcare are increasingly
leveraging AI and ML for various applications, driving the demand for
high-performance VPX SBCs. The region's focus on AI and ML innovation further
cements its position as a dominant market for VPX SBCs.
In addition to defense and
aerospace, North America's strong industrial automation and telecommunications
sectors contribute to the demand for VPX SBCs. Industrial automation relies on
high-performance computing for process control, monitoring, and predictive
maintenance, while the telecommunications sector requires robust computing
solutions for network infrastructure, data centers, and 5G technology. The
region's advanced industrial base and leadership in telecommunications drive
the widespread adoption of VPX SBCs in these sectors. The regulatory
environment in North America, particularly in the United States, supports
technological innovation and the adoption of advanced computing systems.
Government policies and funding initiatives aimed at enhancing national
security, technological competitiveness, and infrastructure development provide
a favorable environment for the growth of the VPX SBC market. Government
support for research and development, along with tax incentives and grants,
further stimulates innovation and market expansion. North America hosts several
major VPX SBC manufacturers and suppliers, providing a wide range of products
and solutions. The presence of these key players ensures a steady supply of
high-quality VPX SBCs, catering to the diverse needs of various industries. The
competitive landscape encourages continuous product development and innovation,
maintaining North America's leadership in the global market.
Recent Developments
- In May 2023, XGIMI Technology, a leading manufacturer of smart
home projectors, announced that it has raised USD 100 million in Series D
funding. This funding will be used to further develop the company's product
portfolio and expand its global presence.
- In June 2024, The Condor™ AGX-ORIN64-HPC is a rugged 3U VPX high-performance single board computer (SBC) designed for autonomous and embedded edge computing systems. It features the NVIDIA Jetson AGX Orin 64GB (Industrial) SoM, which includes an NVIDIA Ampere architecture GPU and a 12-core Arm® Cortex®-A78AE CPU. With 64GB of LPDDR5 system memory, the module offers up to 205 GB/s memory bandwidth shared between the CPU, GPU, and accelerator engines, ensuring robust performance for demanding applications.
Key Market Players
- Abaco Team SpA
- Extreme Engineering Solutions, Inc
- Aitech
- Curtiss-Wright Corporation
- Mercury Systems, Inc.
- Concurrent Technologies Plc
- Mistral Solutions Pvt. Ltd.
- Kontron Europe GmbH
- ADLINK Technology Inc.
- Connect Tech Inc.
|
By Processor
|
By Rack Unit
|
By Application
|
By End-user
|
By
Region
|
|
- NXP
power architecture
- Intel
- ARM
- others
|
|
- Electronic
Warfare
- Radars
- Mission
Computers
- ISR
- Others
|
- Defense
- Aerospace
- Commercial
- Industrial
- Others
|
- North
America
- Europe
- South America
- Middle
East & Africa
- Asia
Pacific
|
|
Report Scope:
In this report, the
Global Vpx Sbc Market has
been segmented into the following categories, in addition to the industry
trends which have also been detailed below:
- Vpx Sbc Market, By Product :
o NXP power architecture
o Intel
o ARM
o
others
- Vpx Sbc Market, By Rack Unit:
o 3U
o 6U
- Vpx Sbc Market, By
Application:
o Electronic Warfare
o Radars
o Mission Computers
o ISR
o Others
- Vpx Sbc Market, By End User:
o Defense
o Aerospace
o Commercial
o Industrial
o Others
- Vpx Sbc Market, By Region:
o
North America
§ United States
§ Canada
§ Mexico
o
Asia-Pacific
§ China
§ India
§ Japan
§ South Korea
§ Indonesia
o
Europe
§ Germany
§ United Kingdom
§ France
§ Russia
§ Spain
o
South America
§ Brazil
§ Argentina
o
Middle East & Africa
§ Saudi Arabia
§ South Africa
§ Egypt
§ UAE
§ Israel
Competitive Landscape
Company
Profiles: Detailed
analysis of the major companies presents in the Global Vpx Sbc Market.
Available Customizations:
Global
Vpx Sbc Market report with the
given market data, TechSci Research offers customizations according to a
company's specific needs. The following customization options are available for
the report:
Company Information
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additional market players (up to five).
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