Executive Summary

The HP Moonshot M1500 is a high-density computing solution designed for light scale-out applications, offering a compact 4.3U chassis that can support up to 45 workload-optimized ProLiant server cartridges. Each cartridge can provide up to 16 Intel Xeon cores, 128GB RAM, and 4TB NVMe SSD storage, making it an ideal solution for businesses looking to generate greater revenue from a smaller footprint while driving down operational costs.

The Moonshot system shares chassis components, providing a cost-effective and energy-efficient solution. With its modular design, the system excels in various use cases, including high-density computing, edge computing, and software-defined infrastructure. In this article, we will delve into the architecture and design of the HP Moonshot M1500, its performance and thermal characteristics, market positioning, and verdict.

Architecture & Design

The HP Moonshot M1500 chassis is designed to support up to 45 hot-pluggable cartridge-based servers, each containing a ProLiant server cartridge. The chassis provides a compact 4.3U form factor, making it an ideal solution for businesses with limited space. The Moonshot system uses a modular design, allowing users to easily add or remove server cartridges as needed.

The server cartridges are based on Intel Xeon processors, providing up to 16 cores per cartridge. Each cartridge also includes up to 128GB of RAM and 4TB of NVMe SSD storage, making it a powerful solution for demanding workloads. The Moonshot system also includes a range of networking options, including the Moonshot 45G Switch Module kit and the Moonshot 6SFP Uplink Module kit, providing high-speed connectivity and redundancy.

The chassis itself is designed to provide a high level of reliability and efficiency, with features such as redundant power supplies and fans. The system also includes a range of management tools, making it easy to monitor and manage the server cartridges and chassis components.

Performance & Thermal

The HP Moonshot M1500 is designed to provide high-performance computing in a compact and energy-efficient package. The system is capable of delivering up to 89% less energy consumption, 80% less space, and 77% lower costs compared to traditional servers.

The exact TDP (thermal design power) of the Moonshot system was not publicly disclosed. However, the system is designed to provide a high level of thermal efficiency, with features such as redundant fans and a compact chassis design. The system also includes a range of thermal management tools, making it easy to monitor and manage the temperature of the server cartridges and chassis components.

In terms of performance, the Moonshot system is designed to support a range of demanding workloads, including high-density computing, edge computing, and software-defined infrastructure. The system has been benchmarked in a range of scenarios, including virtualized environments and high-performance computing applications.

• Benchmark results were not publicly disclosed, but the system is designed to provide high-performance computing in a compact and energy-efficient package.
• The system is capable of supporting up to 45 server cartridges, each providing up to 16 Intel Xeon cores.
• The system includes a range of networking options, providing high-speed connectivity and redundancy.

Market Positioning

The HP Moonshot M1500 is positioned as a high-density computing solution for light scale-out applications. The system is designed to provide a cost-effective and energy-efficient solution for businesses looking to generate greater revenue from a smaller footprint while driving down operational costs.

The Moonshot system competes with other high-density computing solutions, including those from Dell and Cisco. However, the Moonshot system is unique in its modular design and compact chassis, making it an ideal solution for businesses with limited space.

The target buyer for the Moonshot system is likely to be businesses looking for a high-density computing solution for light scale-out applications. This may include businesses in the finance, healthcare, and technology sectors, where high-performance computing is required.