Kontron, a renowned global leader in IoT and Embedded Computing Technology (ECT), has announced the release of the K9051-C741 ATX server class motherboard. This groundbreaking motherboard, designed to support Intel® 4th/5th generation Xeon scalable processors, ushers in a new era of high-performance computing.
At its core, the K9051-C741 boasts the Intel® C741 chipset, offering compatibility with Intel LGA4677 socket processors. What sets this motherboard apart is its remarkable capacity, with processors featuring a maximum TDP of 350W and support for a whopping 768GB of memory. This formidable combination ensures exceptional processing power and efficiency, making it more than capable of handling the most demanding applications with ease.
Kontron’s commitment to delivering cutting-edge embedded computing solutions shines through in the K9051-C741 ATX motherboard. Supporting processors with up to 64 cores and featuring eight independent memory channels, this motherboard truly excels in memory-intensive applications, even in demanding 24/7 operating environments. But its appeal doesn’t stop there.
Versatility and expandability are the watchwords for the server class motherboard. It offers flexibility in memory, GPU, storage, and comes equipped with five PCIe Gen 5 expansion slots, providing users with unmatched adaptability. This adaptability makes it an ideal choice for a range of industries, including industrial, imaging, medical, AI, and advanced robotics.
One standout feature of the Kontron K9051-C741 is its support for DDR5 memory, delivering impressive speeds of up to 5600 MT/s RDIMM and a colossal capacity of 768GB. Users have the flexibility to optimize system performance by selecting memory densities ranging from 16GB to 96GB for each of the eight channels.
Future-proofing your computing needs is at the forefront of this motherboard’s design. The five PCIe Gen 5 expansion slots ensure ample room for additional hardware components and future upgrades, guaranteeing scalability and adaptability as computing requirements evolve over time.
The K9051-C741 ATX motherboard is not only a powerhouse in terms of performance but also in terms of durability. Its robust construction and advanced thermal management guarantee stability and reliability, even under the most challenging conditions.
For efficient system management and maintenance, the motherboard integrates OpenBMC, streamlining board management and monitoring. This feature enhances user experience by ensuring seamless and hassle-free operation.
Kontron’s K9051-C741 ATX server class motherboard is a testament to the company’s commitment to pushing the boundaries of embedded computing technology. With its unmatched processing power, expandability, and adaptability, it stands as a compelling choice for industries that demand nothing but the best from their computing solutions.
What is OpenBMC
OpenBMC is an open-source project that provides a framework and software stack for managing and monitoring hardware components in server and data center environments. BMC stands for Baseboard Management Controller, which is a specialized microcontroller embedded on server motherboards to handle tasks related to system management and monitoring.
OpenBMC is designed to replace proprietary BMC firmware with open-source alternatives, giving users more control and flexibility over the management of their server hardware. Some key features and functionalities of OpenBMC include:
- Hardware Monitoring: OpenBMC can monitor various hardware components, including temperature, voltage, power consumption, and fan speed. This data is crucial for ensuring that servers operate within safe parameters and for detecting hardware faults or anomalies.
- Remote Management: OpenBMC allows for remote management of servers, even when the main operating system is offline or unresponsive. This remote management capability is often essential for troubleshooting and maintenance tasks.
- Out-of-Band Management: OpenBMC provides out-of-band (OOB) management capabilities, meaning it can manage servers independently of the primary operating system. This ensures that system management remains accessible even if the main OS crashes or experiences issues.
- System Recovery: OpenBMC can initiate system recovery procedures, such as rebooting a server or performing a remote system reset, which can help restore the server’s functionality in the event of a failure.
- Security Features: Security is a top priority for server management. OpenBMC includes security features such as secure boot, hardware-based cryptography, and access control mechanisms to protect against unauthorized access and tampering.
- IPMI Support: OpenBMC often includes support for the Intelligent Platform Management Interface (IPMI), an industry-standard protocol for managing and monitoring server hardware.
- Open Source and Customization: Being an open-source project, OpenBMC allows users to customize and extend its functionality to meet specific requirements. This flexibility is valuable for data center operators and server manufacturers who need tailored management solutions.
- Community and Collaboration: OpenBMC benefits from a community of developers and contributors who collaborate to improve and expand its capabilities. This collaborative approach ensures that the project remains up-to-date and well-supported.
In summary, OpenBMC is an open-source software stack that runs on BMCs, providing remote management and monitoring capabilities for server hardware. It enhances the manageability, reliability, and security of servers in data center environments and is particularly valuable for large-scale server deployments where efficient remote management is essential.