Introducing the KIWI330, the latest innovation from KIWIboard, a pioneer in rugged edge and industrial computing solutions. Powered by Intel® Alder Lake-N and Intel® Amston Lake processors, this x86 single-board computer redefines performance, efficiency, and scalability in industrial IoT and embedded computing.

Designed with low power consumption, robust multi-core performance, and the proven Gracemont CPU architecture, the KIWI330 delivers a remarkable leap forward compared to previous entry-level processors—making it the perfect balance of power, efficiency, and reliability.

KIWI330 for Compact and Reliable Industrial Solutions

Powerhouse Performance

At its core, the KIWI330 is powered by either Intel® Alder Lake-N or Intel® Amston Lake processors, delivering the performance and efficiency needed for today’s demanding industrial and AI applications. From factory automation to edge AI and high-performance computing, the KIWI330 ensures reliable execution across diverse and complex workloads.

Memory and Storage: Amped Up Efficiency

The KIWI330 boasts impressive memory and storage capabilities, with onboard LPDDR5 RAM offering up to 4GB and NVMe storage options of up to 64 GB. This translates to blazing-fast data access and seamless multitasking, enabling users to tackle demanding applications within a compact form factor easily.

Seamless Connectivity, Expanded Possibilities

Connectivity is central to the KIWI330’s design. It includes:

• USB Type-C ports for MIO module integration

• USB 2.0 wafer connector

• eDP output supporting 4K displays

• M.2 Key E2230 slot for Wi-Fi modules or AI accelerator cards

This extensive I/O capability ensures that developers can easily expand or customize systems to meet their unique requirements.

KIWI330  Top View - Interfaces

Modular Design for Flexibility

Unlike traditional all-in-one SBCs, the KIWI330 adopts a modular design philosophy. With MIO expansion modules, users can add precisely the functions they need, whether it’s extra USB or LAN ports, GPIO expansion, or serial COM interfaces.

This flexibility enables the KIWI330 to adapt to diverse applications, including IoT devices, industrial automation, intelligent gateways, and edge AI solutions. With MIO modules, scaling up is seamless, ensuring the same base platform can be tailored to a wide variety of projects.

KIWI330 Modular Design

Robust Design for Reliability

Performance is only part of the story; the KIWI330 is engineered for long-term stability and durability. Its enhanced PCB layout and precision aluminum heatsink ensure excellent thermal management under sustained heavy workloads. The result is improved reliability, component longevity, and uninterrupted operation in demanding industrial environments.

KIWI330's Aluminium Heatsink

Why KIWIboard Solutions?

Investing in the KIWI330 is a decision backed by unparalleled versatility, performance, and reliability. With its support for Intel Core processors, ample memory and storage options, and modular design allowing for expansion via MIO modules, the KIWI330 caters to various applications, from industrial automation to AI development. Its comprehensive connectivity options, including multiple USB ports, M.2 slot, and DisplayPort outputs, ensure seamless integration into any project or setup. Moreover, the KIWI330's robust construction and enhanced PCB design guarantee long-term reliability, making it a sound investment for hobbyists and professionals. Whether you're seeking to push the boundaries of innovation or simply looking for a reliable computing solution, the KIWI330 stands ready to exceed your expectations and unlock a world of possibilities.

About KIWIboard

KIWIboard is a complete solution provider, supporting all aspects of your project, from hardware to software to system integration, to keep your application running securely, reliably, and at peak performance. KIWIboard builds its products for high reliability, performance, security, scalability, and versatility. So, customers can expect a long lifespan, quickly adapt to evolving system requirements, and adopt future technologies as they emerge.

Next steps

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