;XV24-AX0-IAJ1 | 2U NVIDIA MGX with Intel Xeon 6 | GIGABYTE - RackmountNTS

GIGABYTE XV24-AX0-IAJ1

2U NVIDIA MGX Server with dual Intel® Xeon® 6 processors and 4x PCIe Gen5 GPUs, immersion-ready for AI, visual computing, and HPC.
  • Immersion Cooling Server
  • NVIDIA MGX™ modular server design
  • Supports up to 4 x Dual slot Gen5 GPUs
  • Dual Intel® Xeon® 6900-Series Processors
  • 12-Channel DDR5 RDIMM / MRDIMM, 24 x DIMMs
  • Dual ROM Architecture
  • 2 x 10Gb/s LAN ports via Intel® X550-AT2
  • 6 x 2.5" Gen5 NVMe hot-swap bays
  • 2 x M.2 slots with PCIe Gen5 x2 interface
  • 4 x FHFL PCIe Gen5 x16 slots for GPUs
  • 3 x FHFL PCIe Gen5 x16 slots
  • 4 x 2000W 80 PLUS Titanium redundant power supplies

Configure & Buy Features Specifications

GIGABYTE XV24-AX0-IAJ1 Rack Server

 

                            Boosting Individual Applications with On-Point Features

 

Intel® Xeon 6 is a new generation of processors that has tailored its CPU lineup to target all uses cases such as Cloud Computing, AI, Analytics, and Edge & IOT. Whether it's high compute density that is dependent on core count and power efficiency or AI/HPC applications that heavily rely on strong single-core performance, this new platform covers them all with its Performance cores (P-cores) and Efficient-cores (E-cores). Along with flexible I/O options, integrated accelerators, and support for CXL 2.0 devices, Intel Xeon 6 fulfills customer needs across the broadest range of data center workloads, segments, and deployment models.

 

 

                                    Core Technology Aligned with Aspirations

 

 

 

 

 Key Platform Highlights

 

  • Accelerators built-in*-Incredible performance and efficiency improvements with the easy adoption of on-chip accelerators
  • 8 or 12 Channels-Increased memory frequency and throughput with DDR5 RDIMM support
  • PCIe 5.0 lanes-Up to 136 lanes for 1S designs, supporting all the latest drives and accelerators
  • CXL 2.0 support**-Flexible support between PCIe and CXL, utilizing DDR5 and CXL memory as one unified region
  • Up to 288 E-cores per CPU-Core dense and optimized efficiency for cloud-native and hyperscale workloads
  • MRDIMM support Unprecedented frequency on the advanced MRDIMM, boosting memory-intensive application to a whole new level

 

 

 

High CPU Performance

 

The best in computational performance relies on a system well designed by our engineers to adequately dissipate heat to achieve peak performance.

Energy Efficiency

 

Our engineers have baked in features to achieve higher efficiency from power supplies and server fans. Along with Titanium and Platinum offerings.

Optimal Price

 

GIGABYTE releases multiple product models and configurations to target exactly what users want without paying for extra features that go unused.

Ease of Administration

 

GIGABYTE servers come with GIGABYTE Management Console for server management. Using a web based browser remotely is key to easing management.

Continuous Operation

 

Systems are rigorously designed and tested to ensure downtime will not occur. Customers have come to expect stable performance.

 

 

 

 

 

 

Optional TPM 2.0 Module

 

For hardware-based authentication, the passwords, encryption keys, and digital certificates are stored in a TPM module to prevent unwanted users from gaining access to your data. GIGABYTE TPM modules come in either a Serial Peripheral Interface or Low Pin Count bus.

 

 

 

                 G4L3‑ZD1‑LAX5 GPU Server

Servers Designed for Immersion Cooling

 

Specifically designed for immersion cooling solutions, and can be directly installed in GIGABYTE immersion cooling tanks or compatible with mainstream cooling tanks on the market. Eliminate the need for product compatibility testing and customization. These systematic modifications greatly reduce the time for verification and adoption of immersion cooling technology.

 

 

Servers Designed for Immersion Cooling

 

 

 

Design to Ensure Steady Fluid Flow in the Tank


When a server is submerged in a coolant, an important condition is that the fluid is circulated well, and the warm fluid is pumped out as cooler fluid is pumped in. Only by maintaining a stable coolant flow can the heat absorbed by the fluid be managed, and the system can automatically adjust the coolant flow rate according to the operation needs. To ensure efficient heat removal, the server design for single-phase immersion cooling not only must remove any components that negatively affect the fluid flow in the system, but they also must reduce the dead space in the chassis to avoid heat accumulation. Based on the viscosity of the coolant and the specific heat capacity of the coolant, the heat dissipation rate of the server must be constantly monitored and adjusted to avoid issues . Servers developed for single-phase immersion cooling can significantly reduce unnecessary barriers that users may encounter when adopting new technologies, allowing them to focus on productivity.

 

 

Structural Integrity and Simplified Management


Servers must be installed vertically in the tank, and this lowering or raising of servers is due to an optimized tank design for single-phase immersion cooling. Therefore, the server installed upright needs to have rigid and firm structural integrity to ensure the chassis will not deform. Also, due to the vertical design, the cable routing and maintenance are also different than traditional data centers. Therefore, we re-examine the design and strengthen the server chassis for immersion cooling and reroute the cables. For instance, I/O ports are all arranged on the rear side facing up, and the network cables need to be rerouted to the sides so that maintenance can be quick and easy. Also, to make it more convenient for IT to install or remove a server, a bracket was added to allow hooks to move the server.

 

 

 

Made with Materials Suitable for Various Coolants


Single-phase immersion cooling submerges the server in a cooling fluid that removes heat by directly coming into contact with the heating elements. GIGABYTE had to evaluate how the chemical composition of the coolant may affect the components as well as the effect of the temperature and process on the coolant. Through theory and experimental experience, we perfected the design and will continue to explore materials that are suitable for immersion cooling.

 

 

 

 

User Friendly

 

Tool-less Drive Bays Design
Clipping mechanism secures the drive in place. Install or replace a new drive in seconds.

Certified Ready with Software Partners

 

Being a member of key software alliance partner programs enables GIGABYTE to rapidly develop and validate joint solutions, enabling our customers to modernize their data centers and implement IT infrastructure and application services with speed, agility, and cost optimization.

High Availability
Smart Ride Through (SmaRT)

 

To prevent server downtime and data loss as a result of loss of AC power, GIGABYTE implements SmaRT in all our server platforms. When such an event occurs, the system will throttle while maintaining availability and reducing power load. Capacitors within the power supply can supply power for 10-20ms, which is enough time to transition to a backup power source for continued operation.

Smart Crises Management and Protection (SCMP)

 

SCMP is a GIGABYTE patented feature which is deployed in servers with non-fully redundant PSU design. With SCMP, in the event of faulty PSU or overheated system, the system will force the CPU into an ultra-low power mode that reduces the power load, which prevents the system from unexpected shutdown and avoids component damage or data loss.

Dual ROM Architecture

 

If the ROM that stores the BMC and BIOS fails to boot, the system will reboot with the backup BMC and/or BIOS replacing the primary. Once the primary BMC is updated, the ROM of the backup BMC will automatically update the backup through synchronization. For the BIOS, it can be updated based on user's choice of firmware version.

 

Value-added Management

GIGABYTE Management Console

  • For management and maintenance of a server or a small cluster, users can use the GIGABYTE Management Console, which is pre-installed on each server. Once the servers are running, IT staff can perform real-time health monitoring and management on each server through the browser-based graphical user interface. 

 

  • Support for standard IPMI specifications that allows users to integrate services into a single platform through an open interface 

 

  • Automatic event recording, which can record system behavior 30 seconds before an event occurs, making it easier to determine subsequent actions 

 

  • Integrate SAS/SATA/NVMe devices and RAID controller firmware into GIGABYTE Management Console to monitor and control Broadcom® MegaRAID adapters

GIGABYTE Server Management (GSM)

 

GSM is a software suite that can manage clusters of servers simultaneously over the internet. GSM can be run on all GIGABYTE servers and has support for Windows and Linux. GSM can be downloaded from the GIGABYTE website and complies with IPMI and Redfish standards. GSM includes a complete range of system management functions that includes the following utilities:

  • GSM Server: A software program that provides real-time, remote control using a graphical user interface through an administrator’s computer or through a server in the cluster.
  • GSM CLI: A command-line interface for monitoring and managing remotely.
  • GSM Agent: Installed on each GIGABYTE server node to retrieve system and device information through the OS, integrating with GSM Server or CLI.
  • GSM Mobile: A mobile app for Android and iOS that provides admins with real-time system information.
  • GSM Plugin: An API that allows users to use VMware vCenter for real-time monitoring and management of server clusters.

 

 

       

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