VPX Chassis

The VPX Chassis offers a robust and scalable platform designed to meet the demanding needs of high-performance embedded computing applications. Built on the open VPX standard, these chassis are engineered for rugged environments and critical applications such as defense, aerospace, and industrial systems. They provide superior cooling, power distribution, and data communication to support high-bandwidth, real-time processing.

VPX SBC Market Analyzing Growth Trends and Forecast 2023-2030

In the dynamic landscape of embedded computing, VPX Single Board Computers (SBCs) stand out as versatile, high-performance solutions driving innovation across industries. As we delve into the intricacies of the VPX SBC market, we uncover its transformative potential, driving forces, and pivotal role in shaping the future of embedded systems.

Introduction to VPX SBCs: A Catalyst for Innovation

VPX SBCs are at the forefront of embedded computing, offering a standardized, rugged platform that combines high-speed interconnects, advanced processing capabilities, and robust design features. These boards are designed to meet the stringent requirements of defense, aerospace, industrial automation, and other demanding applications, where reliability, performance, and scalability are paramount.

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Driving Forces Behind Market Growth

The growth of the VPX SBC market is propelled by several key factors:

Demand for High-Performance Computing: In industries such as defense and aerospace, there is a growing need for embedded computing solutions that can handle complex data processing tasks, real-time analytics, and mission-critical applications. VPX SBCs offer high-performance computing capabilities, enabling faster data processing, improved situational awareness, and enhanced mission effectiveness.

Rapid Technological Advancements: The continuous evolution of technology, including advancements in processors, memory, and I/O interfaces, drives the demand for next-generation embedded computing solutions. VPX SBCs leverage the latest technologies such as multi-core processors, high-speed serial interfaces (e.g., PCIe, 10GbE), and advanced thermal management techniques to deliver superior performance and scalability.

Growing Adoption of Open Standards: The adoption of open standards such as VITA 46 (VPX) and VITA 65 (OpenVPX) promotes interoperability, modularity, and scalability in embedded computing systems. VPX SBCs adhere to these standards, offering compatibility with a wide range of VPX modules and backplane architectures, thereby simplifying system integration and reducing development time and cost.

Transformative Applications Across Industries

VPX SBCs find applications across a diverse range of industries, driving innovation and efficiency:

Defense and Aerospace: In defense and aerospace applications, VPX SBCs serve as the backbone of ruggedized computing systems used in command and control, communications, radar, and electronic warfare. These boards provide the processing power, reliability, and scalability required for mission-critical operations in harsh environments.

Industrial Automation: In industrial automation, VPX SBCs enable real-time control, data acquisition, and monitoring in high-performance computing applications such as robotics, machine vision, and process control. These boards offer deterministic performance, high-speed connectivity, and ruggedized design features to withstand the rigors of industrial environments.

Telecommunications: In telecommunications infrastructure, VPX SBCs support high-speed data processing, packet switching, and network management functions in applications such as baseband processing, edge computing, and software-defined networking (SDN). These boards enable operators to deliver reliable, high-performance services while reducing operational costs and time-to-market.

Future Perspectives and Innovations

As the VPX SBC market continues to evolve, we can anticipate further advancements in technology and innovation:

Integration of AI and Edge Computing: VPX SBCs will increasingly incorporate artificial intelligence (AI) accelerators and edge computing capabilities to support machine learning, computer vision, and autonomous decision-making in embedded systems.

Enhanced Security Features: Future VPX SBCs will integrate advanced security features such as hardware-based encryption, secure boot, and intrusion detection to protect against cyber threats and ensure the integrity and confidentiality of data.

Expansion into Emerging Markets: The adoption of VPX SBCs will expand into emerging markets such as autonomous vehicles, smart cities, and medical devices, where high-performance computing, reliability, and ruggedness are essential requirements.

Conclusion: Empowering Innovation with VPX SBCs

In conclusion, VPX Single Board Computers (SBCs) play a vital role in driving innovation and powering mission-critical applications across industries. With their high-performance computing capabilities, ruggedized design features, and adherence to open standards, VPX SBCs enable developers to build scalable, reliable embedded systems that meet the evolving demands of today's complex computing environments. As technology continues to advance, VPX SBCs will remain at the forefront of embedded computing, empowering organizations to push the boundaries of innovation and achieve new heights of performance and reliability.

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 Annapolis Micro Systems Unveils Advanced WILDSTAR 3U OpenVPX Ethernet Switch and Chassis for High-Performance Electronic Warfare. https://m.facebook.com/story.php?story_fbid=pfbid02TcQCGhzQLPHNhrirwaMDJGzc6tNvVd5byRUiJ2PUWw4ic6ZH4rycUV7rouKRttWfl&id=61553742723822&mibextid=VhDh1V

Military Embedded Systems Market : Key Players, Applications, Outlook, SWOT Analysis And Forecasts 2022 to 2032

According to research by Future Market Insights, the military embedded systems market is anticipated to grow from US$ 1.6 billion in 2022 to US$ 3.6 billion by 2032, at a CAGR of 8.1%.

From 2022 to 2032, the military embedded systems market is anticipated to grow at a CAGR of 8.1%, from USD 1.6 billion in 2022 to USD 3.6 billion in 2032.

The high cost of military embedded systems, on the other hand, is restricting the expansion of the military embedded systems market. The sales of military embedded systems are predicted to grow as cloud computing, network-centric warfare systems, and wireless technologies open up new doors in the sector.

The demand for military embedded systems is rising as multi-core technology enables designers to adapt to future hardware requirements while staying under budget limits. Due to the widespread usage of multi-core technology in electronic warfare systems, the sales of military embedded systems are predicted to grow.

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KEY TAKEAWAYS:

From 2022 to 2032, the blade server segment is expected to lead the military embedded systems market in terms of server architecture. Due to the increasing deployment of modern blade servers, this sector is projected to lead the military embedded systems market.

According to the platform, the land segment is predicted to lead the industry with a CAGR of 7.8% during the forecast period.

With a CAGR of 7.8%, the intelligence, surveillance, and reconnaissance (ISR) segment are predicted to lead the military embedded systems market in terms of application.

The U.S. is predicted to lead the military embedded systems market with a CAGR of 7.6% during the forecast period. Increased investments in defense equipment and fighting capabilities, as well as the installation of network-centric infrastructure, are likely to propel market growth in the U.S.

The United States and Canada are the two largest countries in this region, with the United States leading the military embedded systems market in North America. The United States is a technologically advanced country with enormous potential for military electronics investment. North America is the primary distribution center for technologically advanced applications. The United States is a technologically advanced country with large investment potential in embedded system technologies. Market expansion in this region was aided by increased investments in next-generation communication technology and integrated warfare capabilities.

COMPETITIVE LANDSCAPE:

Some of the key players in the military embedded systems market profiled in the study are Mercury Systems, Inc., Curtiss-Wright Corporation, Advantech Co., Ltd., SMART Embedded Computing, and Kontron AG.

Recent Developments

Abaco Systems introduced its new 3U CompactPCI Rugged Single Board Computer in April 2020, which is designed for a wide range of demanding applications in defense, aerospace, industrial, and commercial areas where rugged reliability in hostile environments is critical.

Kontron AG added a new VX305H-40G 3U OpenVPX single board computer module to its modular open systems architecture product line in February 2020.

Kontron AG inked a distribution deal with Mouser Electronics in February 2020 for its computer-on-modules (COMs), which include COM Express modules based on Intel Atom E3900 series, Pentium processor N4200, and Celeron processor N3350 processors.

Elma Electronic (Switzerland) and Curtiss-(U.S.) Wright’s defense solutions division collaborated in January 2019 to improve a 3U OpenVPX convergence development platform for the C4ISR CMOSS.

Mercury Systems, Inc. invested USD 15 million in October 2019 to grow its custom microelectronics business, providing the U.S. Department of Defense with cutting-edge commercial silicon technology (DoD).

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Key Segments

By Component

Hardware

Processor

Memory

Converter

Graphical Processing Unit (GPU)

Others

Software

By Application

Radar

Command & Control

Avionics

Electronic Warfare

Communication & Navigation

Weapon Fire Control System

Others

By Platform

Land

Marine

Space

Airborne

By Technology

Mist Computing

Fog Computing

Edge Computing

By Services

Design, test & certification

Deployment

Renewal

Seamless life cycle support

Full Report @ https://www.futuremarketinsights.com/reports/military-embedded-systems-market

Renice 3U Open VPX SSD，high capacity data storage up to 10TB, the first choice for high shock and high vibration application environment.

Mercury Systems Successfully Demonstrates SOSA Aligned Sensor Processing Platform

Mercury Systems, a leader in trusted, secure mission-critical technologies for aerospace and defense successfully demonstrated the Model 8256 Sensor Open Systems Architecture (SOSA) aligned Development Platform at the U.S. Army - FACE and SOSA Technical Interchange Meeting, proving true heterogeneous interoperability with SOSA aligned products from several suppliers. This Phase 2 platform highlights additional signal acquisition, time, and frequency displays, and includes expanded system management capabilities.

��SOSA is about interoperability, multi-vendor solutions, reuse, and affordable solutions for the government without vendor lock,” said Paul Mesibov, vice president engineering, Mercury Mixed Signal. “Showing a system in action and using products from multiple vendors—all aligned with SOSA — is proof that the SOSA initiative is working. Model 8256 further solidifies our dedication to developing open standards and delivering on our commitment to Innovation that Matters.”

This Model 8256 development platform consists of an Elma Electronic 3U VPX chassis, Crossfield Technology IPMI software, and ChassisBerry chassis manager, an Interface Concept backplane switch module (ComEth4590a), a Concurrent Technology TR H4C single-board computer (SBC), and one Mercury Quartz Model 5550, an eight-channel A/D and D/A converter 3U OpenVPX board based on the Xilinx Zynq UltraScale+ RFSoC, all aligned with the SOSA Technical Standard.

“Learning a new standard can take time to understand and implement correctly. It is much easier to start with a working system pre-configured to meet the objectives of SOSA”, said Ken Grob, director of embedded computing, Elma Electronic Inc. “The Model 8256 being demonstrated enables engineers to immediately start working on their applications while minimizing the risks encountered when working with new technology and standards. We are very pleased to be part of the Model 8256 development platform.”

“The Model 8256 development platform not only provides access to high-performance hardware but does so with open-standards-based chassis management capabilities," said Terry Hulett, products general manager, Crossfield Technology LLC. “We are pleased to offer the system software that delivers the common access and interfaces into system management functions for all of the platform components to be truly interoperable with each other.”

Mercury Systems Simplifies Adoption of Sensor Open Systems Architecture Solutions

Mercury Systems Simplifies Adoption of Sensor Open Systems Architecture Solutions Mercury Systems, a leader in trusted, secure mission-critical technologies for aerospace and defense, has introduced the Model 8257A - A Development Platform aligned to the Sensor Open Systems Architecture™ Technical Standard. Featuring a single-slot 3U VPX backplane and integrated power supply, the 8257A enables engineers to accelerate development of their sensor processing applications in an easy-to-use SOSA aligned desktop environment, saving time and money.

The Model 8257A Development Platform accepts 3U VPX conduction cooled boards and uses integral fans for air cooling, enabling development on a fully rugged and conduction cooled board in a desktop or benchtop environment. It is specifically designed to accommodate Mercury’s Quartz® Model 5550 or 5553, eight-channel A/D and D/A converter 3U OpenVPX modules based on the Xilinx® Zynq® UltraScale+ RF system-on-chip (RFSoC), both aligned with the recently released Technical Standard for SOSA Reference Architecture 1.0. Developers can connect a notebook or desktop PC running Xilinx’s Vivado Design Suite and Mercury’s Navigator Design Suite to quickly develop, run and debug their applications.

“Our new Model 8257A eases the adoption of SOSA aligned solutions by providing an integrated development platform using only a single card to accelerate initial development efforts,” said Ken Hermanny, Senior Director and General Manager, Mercury Microwave and Mixed Signal Assemblies. “The optional rear transition module provides access to all the analog and digital signals on Mercury’s Quartz line of RF system-on-chip (RFSoC) modules without the need for additional plug-in cards or an Ethernet switch card to minimize system complexity and cost during development. Prototyping in this environment helps determine system requirements and supports creation of IP and software that can ultimately be used in the deployed SOSA aligned system. It’s another example of our commitment to Innovation that Matters.”

Mercury envisions, creates, and delivers innovative technology solutions purpose-built to meet their customers’ most pressing high-tech needs.

Aetina เปิดตัวบอร์ด VPX สำหรับการใช้งานที่สมบุกสมบัน V3T5000-WRC และ V3T3000-QRC ขับเคลื่อนโดย Quadro RTX GPU

Aetina เปิดตัวบอร์ด VPX สำหรับการใช้งานที่สมบุกสมบัน V3T5000-WRC และ V3T3000-QRC ขับเคลื่อนโดย Quadro RTX GPU

Aetina Corporation ผู้ให้บริการโซลูชัน GPGPU แบบฝังของอุตสาหกรรม ประกาศเปิดตัวบอร์ด VPX ซีรีส์ใหม่สำหรับการใช้งานที่สมบุกสมบันขับเคลื่อนโดยขุมพลัง Quadro RTX GPU ซึ่งเป็นผลิตภัณฑ์รุ่นใหม่ที่ประกอบด้วย V3T5000-WRC และ V3T3000-QRC ผลิตภัณฑ์ทั้ง 2 นี้มีโมดูลประมวลผล GPU ที่รองรับ CUDA ที่ทนทานใน 3U VPX และเป็นไปตา�� OpenVPX 65 ซึ่งทนทานต่อสภาพแวดล้อมที่โหดร้าย เหมาะสมอย่างยิ่งต่ออุตสาหกรรมกลาโหม,…

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OpenVPX

Businesses require adaptability in their systems to integrate new technologies quickly. OpenVPX provides a standardized framework that ensures modularity and scalability, making it easier to upgrade systems without a complete overhaul. Its open architecture allows multi-vendor collaboration, reducing vendor lock-in and accelerating development cycles to meet evolving market needs.

VF370 Intel-Based 3U OpenVPX SBC Module for SWaP Applications

VF370 Intel-Based 3U OpenVPX SBC Module for SWaP Applications

VF370 Intel-Based 3U OpenVPX SBC Module for SWaP Applications

Built with the combination of Intel Atom E3900 Series embedded processors and Intel Cyclone FPGA Suited for extreme environments, such as industrial and automotive and also for graphics processing applications Sundance Multiprocessor Technology, a manufacturer and supplier of embedded modules, has launched the VF370, an Intel-based 3U…

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Embedded computing high-speed switch fabrics for InfiniBand, and Ethernet in OpenVPX http://bit.ly/2RNpXFT

바이코, MIL-COTS VPX용 6U VITA-62 호환 전원 공급 장치 신제품 출시

바이코, MIL-COTS VPX용 6U VITA-62 호환 전원 공급 장치 신제품 출시

바이코(Vicor)가 VITA 62 호환 전원 공급 장치를 출시했다. 신제품 VITA 62 호환 전원 공급 장치는 바이코의 고밀도 및 고효율 ChiP 전원 모듈을 사용하며 6U OpenVPX 전도 냉각 섀시 시스템용으로 설계되었다. 이 제품은 3.3 V ~ 12 V 범위의 미리 정의된 출력 전압과 공칭 28 V 입력 전압에서 작동하며 최대 1000 W의 전력을 공급한다. 다른 출력 전압 또는 전력 수준이 필요한 고객은 자신의 사양에 맞게 맞춤형 전원 공급 장치를 요청할 수 있다.

새로운 6U 전원 공급 장치는 MIL-461F, MIL-704F 및 MIL-1275E 표준을 완전히 충족시킨다. 표준 준수 정보는 데이터 시트를 참조.

바이코, MIL-COTS VPX용 6U VITA-62 호환 전원 공급 장치

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via artificial intelligence - Google News

6U OpenVPX Gigabit Ethernet switch for C4ISR and embedded computing introduced by CurtissWright

SNNX.com http://dlvr.it/Qf90db

Renice Releases 6U VPX Heterogenous Acceleration System

VPX acceleration system is a universal service system to satisfy the customer needs for building heterogeneous accelerated computing platforms based on OpenVPX. The system uses 6U VPX standard 19-inch chassis which provides six slots that can be inserted into five service boards and one master board. Service board use Stratix10 FPGA with the latest Intel 14nm integrated the 2573KLE and 9.2TFLOPS single-precision and hard-floating-point capability. It support high-bandwidth and high capacity storage access through FPGA IO extensible feature, the panel and backplane provide a flexible exchanging interconnected interface that support a variety of interface and memory cards expansion. Different combination achieve more powerful application. It achieved the high-density heterogeneous computing acceleration needs at customer side, but also compatible with OpenVPX platform. Accelerated Computer also provides IDE integrated development environment, support OpenCL development. Integrated development environment also integrates a large number of IP and IO, you can easily build various of applications quickly. Renice high performance heterogenous acceleration system highlights

- 6U support 46TFLOPS single-precision and hard-floating-point capability.

- Service single board support eight 200-dimensional double-precision linear equations, the calculation time is 240us that is over 100 times performance than X86 system.

- Support more application scenarios: good support for random operation,bit operation and serial algorithm; improve system performance;low power consumption and miniaturization can meet with more scenarios requested on the miniaturization of power consumption;

- Integration various interfaces: Integration various interfaces lower the cost of overall solution,improve the higher flexibility and expansibility, reduce the system latency.

- The system with high cost-effective: low power consumption reduce the cost of system operating, high integration reduce the cost of construction, higher performance and power consumption improve the higher cost-effective of overall system.

  From www.embedded-computing.com/news-releases/high-performance-heterogeneous-acceleration-system