Microchip Data Center Ecosystem Address Bottlenecks of Modern AI Data Centers

Microchip data center ecosystem consists of an extensive array of portfolio enabling technologies for workload acceleration, power management, device performance, optimization, and control.

The rapid advancement of artificial intelligence (AI) is revolutionizing data centers, producing an unprecedented demand for high-performance, secure, reliable, and innovative solutions.

Microchip is meeting these changing industry demands by creating breakthrough solutions for data center networking, storage, and retrieval.

Microchip data center ecosystem consists of an extensive array of portfolio enabling technologies for workload acceleration, power management, device performance, optimization, and control. This ecosystem enables data centers to fulfill the scalability, security, and performance demands of today’s dynamic technology landscape.

Microchip data center ecosystem Includes High-Speed Interconnect And Storage Technologies Such As:

• Gen 3, Gen 4 and Gen 5 PCIe switches—with Gen 6 and Gen 7 technologies in development—Non-Volatile Memory Express (NVMe®),
• Storage and RAID controllers with hardware-based security for enhanced data protection.
• For connectivity, Microchip offers retimers and Ethernet PHYs to optimize interconnect functionality.
• Its power management, system monitoring and precise timing solutions are designed to deliver dependable, adaptable and energy-efficient operations for enterprise and hyperscale data center environments.

New and recently released data center solutions:

800G Active Electrical Cable (AEC) Reference Design

• The reference design features the META-DX2C 800G retimer with 112G SerDes and is a comprehensive solution to reduce development time, cost and complexity for creating 800G AEC solutions for generative AI networks.
• It includes an integrated software package implementing the CMIS 5.2 specification on a Microchip 32-bit microcontroller to streamline the development of Quad Small Form-factor Pluggable Double Density (QSFP-DD) and Octal Small Form-factor Pluggable (OSFP) AEC cable products.

META-DX2+ Ethernet Physical Layer Transceivers (PHYs) with Lambda Splitting

• This solution improves Data Center Interconnect (DCI) by maximizing fiber utilization, enabling support for high-speed AI workloads.
• The Lambda Splitting technique works along with coherent optics to distribute traffic across multiple wavelengths, significantly reducing costs and boosting bandwidth efficiency by up to 50%. 

LAN9646 6-Port Gigabit Ethernet (GbE) Switch with SGMII Interface

• This 6-port GbE switch with four integrated 10/100/1000BASE-T PHYs supports multiple interface options, including SGMII, RGMII, MII and RMII, making it adaptable for a wide range of networking applications.
• It provides full VLAN and Quality of Service (QoS) support for efficient traffic management and prioritization. It also provides flexible management interface options—such as SPI, I²C and MIIM—and is compatible with Linux® DSA.
• Capable of operating within industrial temperature ranges (?40°C to +85°C), the LAN9646 is designed for applications such as stand-alone Ethernet networks, broadband gateways, security and surveillance systems, industrial automation and networked test and measurement equipment.

High-Performance, High-Density Power Module

• The MCPF1412 high-density power module delivers up to 12A of current to a load within a voltage range of 0.6V to 1.8V, while operating from a 16V input. Measuring just 5.8 mm × 4.9 mm × 1.6 mm, this module is optimized for space-constrained applications.
• It is engineered to provide optimal power efficiency while minimizing energy loss, which is critical for modern, power-sensitive applications.
•  Its I²C and PMBus® interfaces offer significant flexibility for system configuration, real-time monitoring and precise control and adaptability for a wide range of applications.

Digital Signal Controllers (DSCs) for Efficient Power Supply

• dsPIC33A DSCs offer higher clock speeds and advanced control algorithms to enable faster response times and improved energy efficiency for data centers and AI servers.
• Their diagnostic capabilities improve reliability and operational integrity, alongside integrated cryptographic algorithms for firmware attestation and device authentication to help safeguard against tampering and spoofing.
• Designed to handle fluctuating power demands, dsPIC33A DSCs increase efficiency and stability in critical applications like power factor correction, resonant converters and synchronous rectification, meeting the high-performance needs of modern data centers.

Microprocessors (MPUs) for OpenBMC

• These MPUs enable robust Auxiliary Management Control (AMC) in data center subsystems, including power shelves, enterprise storage, JBOD, cooling systems and chassis management.
• Features include Redfish® protocol (RESTful interface) support, out-of-band management for real-time monitoring, logging and alerting of system health, secure/encrypted data transmission and support for firmware updates and remote reboots.
• Designed to streamline data center management, Microchip’s OpenBMC solutions provide essential tools for remote management, system power monitoring and secure updates for reliable and efficient infrastructure management.

Leadership Comments

“AI is revolutionizing all aspects of the digital landscape and data centers face growing demands for security, AI workload acceleration, system efficiency and reliability,” said Brian McCarson, corporate vice president of Microchip’s data center solutions business unit. “Microchip is committed to delivering the essential building blocks needed to address the technology challenges of modern data centers. From accelerating high-speed connectivity and storage rates to optimizing power and management systems, our innovations are designed to support next-generation AI workloads and deliver scalability for our customers.”

Microchip data center ecosystem include a comprehensive array of Secure Root of Trust Controllers, which are designed to preserve system integrity.

These controllers take control during power-up, verifying firmware stored on external Flash before it is processed by the system’s CPUs and GPUs, thereby preventing unauthorized code execution.

Aside from the boot process, they monitor system activity and authenticate auxiliary components including network interface cards (NICs), host bus adapters (HBAs), and solid-state drives (SSDs), as well as critical system parts like power supply and RAID setups. Furthermore, the controllers are intended to facilitate safe system ownership transfer and strong lifecycle management.

Visit the Data Centers web page and explore recent computing and data center blog articles to learn more about the Microchip data center ecosystem.