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The Supermicro X13 Advantage

Delivering Systems Optimized for Tomorrow’s Data Center Workloads

Icon – Performance Optimized
Performance Optimized
Icon – Energy Efficient
Energy Efficient
Icon – Improved Security and Manageability
Improved Security and Manageability
Icon – Open Industry Standards
Improved Security and Manageability

Supermicro’s tried-and-tested Building Block Solutions® approach and industry-leading first-to-market advantage allow Supermicro to deliver optimized systems for the most demanding AI, Cloud, and 5G Edge workloads.

Performance Optimized – Enhanced thermal capacity to support the highest performing CPUs and GPUs, plus support for the latest industry technologies including PCIe 5.0, DDR5, CXL 1.1 and high-bandwidth memory.

Energy Efficient – Systems designed for optimal airflow to run in high-temperature data center environments up to 40°C, optional rack-scale liquid cooling solutions and in-house design of Titanium Level power supplies for maximum efficiency.

Improved Security and Manageability – Industry standard compliance for hardware and silicon Root of Trust (RoT), cryptographical attestation of components throughout the entire supply chain and comprehensive remote management capabilities.

Supports Open Industry Standards – Futureproofing and interoperability with support for Open Compute Project (OCP) standards including OCP 3.0, OAM, ORV2 and OSF as well as Open BMC and the E1.S storage form factor.

X13 Rack
Supermicro X13 Systems
The industry’s broadest range of next-generation servers powered by 4th Gen Intel® Xeon® Scalable processors (formerly codenamed Sapphire Rapids)
X13 8U Universal GPU System

Universal GPU

Optimized Integrated Performance for AI/ML and HPC Applications
X13 4U 10-GPU System


High Performance and Flexibility for AI/ML and HPC Applications
X13 SuperBlade®


Ultra High-Density Multi-Node Systems for Enterprise, Cloud, HPC, and AI Applications
X13 GrandTwin™


Multi-node Architecture Optimized for Single Processor Performance with Front or Rear I/O
X13 BigTwin®


Industry-leading Multi-node Architecture
X13 FatTwin®


Advanced Multi-node 4U Twin Architecture with 4 or 8 Nodes
X13 Hyper

Hyper and Hyper-E

Best-in-class Performance and Flexibility Rackmount Server
X13 All-Flash EDSFF

All-Flash EDSFF

Revolutionary Petascale NVMe for Unprecedented Density
X13 CloudDC


All-in-one Rackmount Platform for Cloud Data Centers


Industry’s Widest Variety of I/O Optimized Servers
X13 2U ultra–short-depth Edge Server


Compact and Short-Depth Rackmount Systems for Telco Edge Deployments
X13 2U 3-node SuperEdge Server


High-Density Computing and Flexibility at the Intelligent Edge
X13 Multi-Processor System


Highest Performance and Flexibility for Enterprise Applications
Supermicro X13 JumpStart Early Access Program
Remote access to pre-release next-generation Supermicro systems powered by 4th Gen Intel® Xeon® Scalable processors (Formerly Codenamed Sapphire Rapids)

How it Works

‘Sign Up’ Icon

1. Sign Up

First, please sign up and register for the JumpStart program here. Simply fill out your name, email, and briefly let us know what you plan to do with the system.
‘Get Qualified’ Icon

2. Get Qualified

You will receive a welcome email where you will need to further verify your NDA information (Supermicro special NDA and Intel CNDA) in order for us to schedule your access to the JumpStart server.
‘Access’ Icon

3. Access

We will provide you with a unique username, password, and a URL to enable your access to the JumpStart server. Also, we’d love to receive your feedback on the program and will send you a survey once your access period is completed.
Powered by 4th Gen Intel® Xeon® Scalable Processors (Formerly Codenamed Sapphire Rapids)

Designed to deliver potent data infrastructure from the cloud, to the network, to the intelligent edge, Intel® Xeon® processors, formerly codenamed Sapphire Rapids, establish a new standard in data center architecture and deliver substantial compute performance across traditional data center usages with unique purpose-built workload optimizations for performance on today’s elastic compute models like cloud microservices and artificial intelligence.

Maximum Performance with Next-Generation Industry Standard Technologies
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High Bandwidth Memory

Up to 4x more memory bandwidth, providing a generational performance improvement of up to 2.8x over 3rd Gen Intel Xeon Scalable processors with two- to three-times performance increases across weather research, energy, manufacturing and physics workloads.
Icon – PCIe 5.0

PCIe 5.0

Double the I/O bandwidth compared to previous generation PCIe 4.0. At 32G, next-generation PCIe 5.0 not only helps today’s applications run faster – it also enables new applications in AI/ML and cloud computing.
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Delivers a significant benefit to Intel-based platforms with over two times the performance of DDR4, and capacities as high as 512GB.
Icon – Compute Express Link (CXL) 1.1

Compute Express Link (CXL) 1.1

Industry-supported cache-coherent interconnect for processors, memory expansion, and accelerators.
Acceleration Engines in 4th Gen Intel® Xeon® Scalable Processors
Intel® AMX provides up to 8x optimized internal matrix multiply micro benchmark performance vs Intel AVX-512 VNNI

Intel® Advanced Matrix Extensions (Intel® AMX)

Intel’s next-generation built-in Intel Deep Learning Boost (Intel DL Boost) advancement for deep learning inference and training performance
Intel® DSA allows 39% additional CPU Core cycles with DSA offload vs without it

Intel® Data Streaming Accelerator (Intel® DSA)

Offloads the most common data movement tasks that cause the overhead seen in data-center-scale deployments
Intel® QAT frees up 98% of the CPU workload capacity after QAT offload vs without

Intel® QuickAssist Technology (Intel® QAT)

Significantly increases the performance and efficiency of standard platform solutions in cloud, networking, big data, and storage
RAN signal processing - Reduce power consumption by ~20%

Intel® vRAN Boost

New, unique signal processing instruction enhancements in the core of Intel® Xeon® processors built to support RAN-specific signal processing