BCM introduces MX-MTLPS Mini-ITX Board Powered by Meteor Lake-PS Architecture

Introducing the BCM MX-MTLPS: A Game-Changer in Mini-ITX motherboards

If you’re in the market for a powerful yet compact motherboard, you might want to take a closer look at the BCM MX-MTLPS. This Thin mini-ITX board is designed to harness the capabilities of Intel’s latest Core Ultra 3/5/7 processors, all built on the innovative Meteor Lake-PS (MTL-PS) platform. But what really sets the MX-MTLPS apart? It’s one of the first Mini-ITX boards to embrace Intel’s new socketed SoC design, making it a standout choice for developers looking to blend AI acceleration, integrated graphics, and efficient computing in a low-profile, fanless setup.

Imagine a motherboard that’s not just powerful but also perfectly suited for edge AI, multi-display setups, and embedded computing. The MX-MTLPS brings mobile-class performance to environments where space and thermal considerations are crucial. Whether you’re working on an interactive kiosk or a sophisticated AI inference box, this motherboard is designed to meet your needs.

Key Features That Impress

Let’s dive into what makes the MX-MTLPS tick:

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Form Factor

: It’s a Thin Mini-ITX (170 mm x 170 mm), ensuring a low-profile external I/O.
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CPU Support

: Compatible with Intel’s Core Ultra 3/5/7 Processor Series 1, thanks to the LGA 1851 socket.
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Memory

: Equipped with 2x DDR5 SO-DIMM slots, supporting up to 64 GB at 5600 MT/s.
–

Display Support

: You can connect up to 4 independent displays with 3x DisplayPort and 1x eDP/LVDS.
–

High-Speed I/O

: Featuring 2x Thunderbolt 4, 4x USB 3.2 Gen 2, and multiple M.2 slots for NVMe and wireless connectivity.
–

Networking

: Dual 2.5GbE Ethernet LAN ports powered by Intel I226-LM.
–

Power Input

: A flexible 12-24 V wide-range DC-in power input.
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Security & Manageability

: Comes with TPM 2.0 and optional Intel vPro and iAMT 18.0 (depending on the CPU).

With such a versatile platform, the MX-MTLPS is perfect for both fixed installations and mobile setups, making it a go-to choice for developers in various fields.

SoC Architecture: Desktop Flexibility at Its Best

What’s really exciting here is the SoC-based design of the Meteor Lake-PS platform, which is a first for the embedded and industrial computing space. This architecture allows the MX-MTLPS to achieve several impressive feats:

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Fewer Components

: A simplified board layout means less complexity.
–

Lower Latency

: Improved power efficiency enhances performance.
–

Mobile-Grade Processing

: All of this is packed into a desktop-style socketed design.

The MX-MTLPS supports a wide thermal design power (TDP) range—from a whisper-quiet 15 W for fanless operation to 65 W for those demanding workloads that require proper cooling. This flexibility opens the door to a variety of applications, from quiet kiosks to high-performance AI inference boxes.

Core Ultra: The Brains Behind the Operation

At the heart of the MX-MTLPS is Intel’s LGA 1851-based Core Ultra processors, which boast a revolutionary three-engine compute architecture:

1.

CPU + GPU + NPU

: This hybrid setup combines performance and efficiency.
2.

Integrated Intel Arc Graphics

: With up to 8 Xe-cores, you get advanced GPU capabilities.
3.

Intel AI Boost NPU

: This dedicated Neural Processing Unit offloads AI workloads, enabling real-time, low-power inference.

The NPU is a game-changer for edge and embedded systems, allowing smart workloads—like voice recognition and image classification—to run locally without draining power. Think about it: real-time AI capabilities right at the device level, without the need for cloud reliance.

Ideal Use Cases for the MX-MTLPS

So, where can you put this powerhouse to work? Here are a few ideal scenarios:

–

AI at the Edge

: Utilize the integrated NPU for efficient, real-time inference.
–

Industrial Automation

: With its fanless design and robust I/O, it’s perfect for factory systems.
–

Smart Retail & Kiosk Terminals

: Its compact form factor and multi-display support make it ideal for interactive signage.
–

Medical Imaging & HMI

: High-performance capabilities cater to regulated environments with high-res displays.
–

Network Security & UTM Appliances

: Dual 2.5GbE and DDR5 memory support make it a reliable choice for high-throughput data handling.

What’s Next for the MX-MTLPS?

If you’re eager to get your hands on the MX-MTLPS, you won’t have to wait long. Engineering samples are set to be available for evaluation from April to early May 2025. Plus, BCM offers full product lifecycle services and revision control for long-term industrial deployments, ensuring you have support every step of the way.

In a world where performance meets efficiency, the BCM MX-MTLPS is ready to lead the charge. Are you ready to embrace the future of computing?

Background Information

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About Intel:

Intel Corporation, a global technology leader, is for its semiconductor innovations that power computing and communication devices worldwide. As a pioneer in microprocessor technology, Intel has left an indelible mark on the evolution of computing with its processors that drive everything from PCs to data centers and beyond. With a history of advancements, Intel's relentless pursuit of innovation continues to shape the digital landscape, offering solutions that empower businesses and individuals to achieve new levels of productivity and connectivity.

  

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Technology Explained

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CPU: The Central Processing Unit (CPU) is the brain of a computer, responsible for executing instructions and performing calculations. It is the most important component of a computer system, as it is responsible for controlling all other components. CPUs are used in a wide range of applications, from desktop computers to mobile devices, gaming consoles, and even supercomputers. CPUs are used to process data, execute instructions, and control the flow of information within a computer system. They are also used to control the input and output of data, as well as to store and retrieve data from memory. CPUs are essential for the functioning of any computer system, and their applications in the computer industry are vast.

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DDR5: DDR5 (Double Data Rate 5) is the next generation of memory technology for the computer industry. It is a modern day improvement on earlier DDR technologies, with faster speeds, greater bandwidth and higher capacities. DDR5 enables higher resolution, seamless gaming experiences and faster data transfer rates, making it an ideal choice for high-performance computing and 4K gaming. With its greater RAM compatibility, DDR5 provides faster buffering times and raised clock speeds, giving users an improved overall work system. DDR5 is also optimized for multi-tasking, allowing users to multitask without experiencing a significant drop in performance, increasing the productivity of digital tasks. As an ever-evolving technology, DDR5 is paving the way for the computer industry into a new and powerful era.

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DisplayPort: DisplayPort is a digital display interface developed by the Video Electronics Standards Association (VESA). It is primarily used to connect a computer to a monitor or other display device such as a television. DisplayPort is capable of delivering high-resolution video and audio, as well as providing power to connected devices. It is also capable of daisy-chaining multiple displays together, allowing for a single connection to multiple monitors. This makes DisplayPort a popular choice for gamers, video editors, and other users who require multiple displays. DisplayPort is also used in many laptops and tablets, allowing for a single connection to a monitor or other display device. It is also used in many modern TVs, allowing for a single connection to a computer or other device.

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GPU: GPU stands for Graphics Processing Unit and is a specialized type of processor designed to handle graphics-intensive tasks. It is used in the computer industry to render images, videos, and 3D graphics. GPUs are used in gaming consoles, PCs, and mobile devices to provide a smooth and immersive gaming experience. They are also used in the medical field to create 3D models of organs and tissues, and in the automotive industry to create virtual prototypes of cars. GPUs are also used in the field of artificial intelligence to process large amounts of data and create complex models. GPUs are becoming increasingly important in the computer industry as they are able to process large amounts of data quickly and efficiently.

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ITX: ITX (Information Technology eXtended) is a form factor for motherboards and other computer components. It is a small form factor that is designed to be more compact than traditional ATX motherboards. ITX motherboards are typically used in small form factor PCs, such as those used in home theater PCs, media centers, and other small form factor applications. ITX motherboards are also used in embedded systems, such as those used in industrial automation, medical equipment, and other embedded applications. ITX motherboards offer a number of advantages over traditional ATX motherboards, such as lower power consumption, smaller size, and improved cooling. Additionally, ITX motherboards are often more affordable than their ATX counterparts, making them a popular choice for budget-conscious consumers.

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Latency: Technology latency is the time it takes for a computer system to respond to a request. It is an important factor in the performance of computer systems, as it affects the speed and efficiency of data processing. In the computer industry, latency is a major factor in the performance of computer networks, storage systems, and other computer systems. Low latency is essential for applications that require fast response times, such as online gaming, streaming media, and real-time data processing. High latency can cause delays in data processing, resulting in slow response times and poor performance. To reduce latency, computer systems use various techniques such as caching, load balancing, and parallel processing. By reducing latency, computer systems can provide faster response times and improved performance.

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M.2: M.2, also known as Next Generation Form Factor (NGFF), is a computer expansion card format that is designed to replace the outdated mSATA standard. It is thinner and longer than mSATA, which gives it a much higher data transfer rate. The M.2 format measures 22mm in width and can measure up to 110mm in length. It uses the M-key and B-key connectors to interface with PC host systems, and can connect to both SATA III and PCIe for data transfer. Due to its small size, M.2 is often used for ultra-slim laptops and netbooks, as well as in embedded SSDs for tablets and other mobile devices. It is also becoming increasingly popular in the desktop computer industry, thanks to its compactness and fast transfer speeds. This makes M.2 ideal for gaming PCs, workstations, and other demanding applications that require high levels of data throughput.

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mini-ITX: The mini-ITX is a small form factor computer motherboard developed by VIA Technologies in 2001. It is designed to be a low-power, low-cost solution for embedded and small form factor applications. It is a 6.7-inch square motherboard that supports a wide range of processors, including Intel and AMD CPUs, as well as VIA's own C3 and C7 processors. The mini-ITX is used in a variety of applications, including home theater PCs, small form factor desktops, and embedded systems. It is also used in industrial applications, such as medical imaging, digital signage, and point-of-sale systems. The mini-ITX is a popular choice for computer enthusiasts who want to build their own small form factor PCs. It is also used in many commercial products, such as the Apple Mac mini and the Asus Eee PC.

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NPU: NPU, or Neural Processing Unit, is a type of specialized processor that is designed to handle complex artificial intelligence tasks. It is inspired by the structure and function of the human brain, with the ability to process and analyze large amounts of data simultaneously. In the computer industry, NPU technology is being used in various applications such as speech recognition, image and video processing, and natural language processing. This allows computers to perform tasks that were previously only possible for humans, making them more efficient and intelligent. NPU technology is also being integrated into smartphones, self-driving cars, and other devices, making them smarter and more responsive to user needs. With the increasing demand for AI-driven technology, the use of NPU is expected to grow and revolutionize the way we interact with computers in the future.

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NVMe: Non-Volatile Memory Express (NVMe) is a newly developed technology that has been gaining traction in the computer industry. This technology is a standard interface which allows for high-speed storage and retrieval of data from solid state drives (SSDs). NVMe is designed to increase the speed of data transfers in storage systems by enabling a direct connection to PCI Express (PCIe) bus, resulting in significantly faster access times compared to traditional interface protocols such SSDs. NVMe is particularly useful for applications that require lightning-fast access to large amounts of high-value data. NVMe-based SSDs are being widely adopted in the computer industry and are being employed to power data centers, high-end workstations, and gaming machines to support lightning-fast data processing and retrieval, which unlocks possibilities for machine learning, real-time analytics, edge computing, and other cutting-edge applications. NVMe is proving to be an invaluable tool in the field of computing, offering immense

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SoC: A System-on-Chip (SoC) is a highly integrated semiconductor device that encapsulates various electronic components, including processors, memory, input/output interfaces, and often specialized hardware components, all on a single chip. SoCs are designed to provide a complete computing system or subsystem within a single chip package, offering enhanced performance, power efficiency, and compactness. They are commonly used in a wide range of devices, from smartphones and tablets to embedded systems and IoT devices, streamlining hardware complexity and facilitating efficient integration of multiple functions onto a single chip.

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Thunderbolt 4: Thunderbolt 4 is a high-speed connection interface that enables data transfer between computers and peripherals. Thunderbolt 4 is the fastest version of Thunderbolt yet, with speeds up to 40 Gbps, and it is also the most versatile, with support for up to four 4K displays, dual 4K video, and up to 100W of power delivery. Thunderbolt 4 is ideal for connecting high-performance peripherals such as external storage drives, docks, and displays. It is also ideal for connecting multiple computers together for high-speed data transfer and collaboration.

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