THOR22-H6

THOR22-H6 Military Radar Signal Processing Computer
THOR22-H6 Military Radar Signal Processing Computer
THOR22-H6 Military Radar Signal Processing Computer
THOR22-H6 Military Radar Signal Processing Computer
THOR22-H6 Military Radar Signal Processing Computer

Radar Signal Processing Computer Server

  • Intel® Xeon® 6 Granite Rapids D Processor 6556P-B, 36 Cores 2.3/3.5 GHz, 215W
  • DDR5 6400MT/s 64GB RDIMM up to 512GB
  • 2TB M.2 NVMe SSD Storage
  • Nvidia RTX 6000 Ada 18176 CUDA Cores, 210.6 TFLOPS RT Cores, 48GB GDD6 ECC
  • iWave iG-G42P UltraScale+™ ZU49 RFSoC 16 ADC/ 16 DAC PCIe card
  • 2 x 100GbE QSFP28 , 1 x VGA, 1 x IPMI LAN, 2 x USB3.0
  • 100~264 VAC 1500W Redundancy PSU
  • MIL-STD-810 for Thermal, Anti-Vibration and Shock
  • Support RedHawk™ Linux RTOS
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Introduction

Powered by the latest Intel® Xeon® 6 Granite Rapids-D processor, the THOR22-H6 is a 2U high-performance GPU rackmount server purpose-built for modern radar processing and advanced 5G network deployments. Featuring the Intel® Xeon® 6 SoC 6556P-B with 36 cores, a 215W TDP, and enhanced thermal monitoring (eTEMP), the system delivers exceptional compute density, power efficiency, and sustained performance for mission-critical workloads in defense and telecommunications environments.

Intel Xeon D 6 SoC


 
NVIDIA RTX™ 6000 Ada GPU for AI-Driven Workloads

The THOR22-H6 integrates the NVIDIA RTX™ 6000 Ada GPU, based on the advanced NVIDIA Ada Lovelace architecture. With 18,176 next-generation CUDA® cores, 48GB GDD6 ECC and 210.6 TFLOPS of third-generation RT Core performance, it provides immense parallel processing capability for AI-driven analytics, signal processing, and accelerated computing workloads. This powerful GPU platform enables real-time inference, complex simulations, and high-throughput data processing with exceptional efficiency and reliability.

NVIDIA RTX 6000 Ada Blackwell GPU Card


 
Military-Grade Real-Time Operating System (RTOS) RedHawk™ Linux

Designed for time-sensitive operations, the THOR22-H6 supports real-time operating systems such as RedHawk™ Linux, delivering deterministic performance with precise timing control. These capabilities are essential for applications where latency is mission-critical, including radar processing, counter-drone systems, and electronic intelligence (ELINT). By ensuring predictable task execution down to the millisecond, the platform enables faster threat detection, accurate classification, and decisive response in highly demanding operational scenarios.

 

RedHawk RTOS


 
Powering SDR, EW, & Radar Computing Solutions

The system also supports the iWave iG-G42P UltraScale+™ ZU49 RFSoC PCIe card, enabling advanced software-defined radio (SDR), phased-array radar, and electronic warfare (EW) applications. With 16 ADC and 16 DAC SMA connectors, the THOR22-H6 can interface with complex RF front ends for aerospace and defense systems. This integration allows high-bandwidth signal acquisition, real-time processing, and transmission for receivers, jammers, and radar subsystems. 

THOR22-H6 for phased-array radar processing


 
Robust Connectivity and Military Ruggedization

Complementing its compute and RF capabilities, the THOR22-H6 supports up to 512GB of high-speed DDR5 memory and 2TB M.2 NVMe SSD storage in a compact 2U form factor. Dual 100GbE QSFP28 ports, 1 x IPMI LAN, and redundant 1500W AC power supplies ensure high availability and robust connectivity. Built to MIL-STD-810 standards, its lightweight chassis, wide operating temperature range, and resistance to shock and vibration make it ideal for harsh, space-constrained deployments.

 

MIL-STD-810

 
Appearance
THOR22-H6 Front Ports

 

THOR22-H6 Back Ports

 

 

System

CPU

Intel® Xeon® 6 SoC 6556P-B, 36 Cores, CPU TDP 215W eTEMP support

Memory type

Up to 512GB RDIMM, 4CH DDR5 4800/6400 MHz in 4 Slots

Chipset

SoC

IPMI

ASPEED AST2600

GPU

GPU

Nvidia RTX 6000 Ada 18176 CUDA Cores, 210.6 TFLOPS RT Cores, 48GB GDD6 ECC

Storage

HDD/SSD

2TB M.2 NVMe SSD

Ethernet

Ethernet

2 x 100GbE QSFP28 (SoC)+ x IPMI shared LAN 1x GbE RJ45

RFSoC

RFSoC (FPGA)

iWave iG-G42P UltraScale+™ ZU49 RFSoC 16 ADC/ 16DAC PCIe card

OS

OS Support List

Windows 11, RHEL 9.4 64bit, RHEL 9.5 64bit, Oracle 9.4 64bit, Oracle 9.5 64bit, Rocky Linux 9.4 64bit, Rocky Linux 9.5 64bit, SLES 15 SP6 64bit, Ubuntu 24.04.1 64bit Server, VMWare ESXi 8.0U2

RTOS

RedHawk™ Linux, VxWorks support

Power

Power Requirement

100~264 VAC 1500W Redundancy PSU

Dimensions

440 x 400 x 88 mm ( W x D x H )

final size is dependent on specific configuration

Weight

≦ 12 kg final size dependent on specific configuration

Front I/O

Switch

1 x Power On switch

IPMI

1 x IPMI shared LAN 1x GbE RJ45

USB

2 x USB 3.0

LAN1-2

2 x 100GbE QSFP28

Display

1 x VGA

ADC Channels (x16)

1 x Right Angle SMA connector on Front Panel with Balun (BW 10MHz To 3GHz)

 

3 x Right Angle SMA connectors on Front Panel with Balun (BW 3.1GHz To 5.8GHz)

 

3 x Straight SMA connectors with Balun (BW 10MHz To 3GHz)

 

9 x Straight SMA connectors with Balun (BW 3.1GHz To 5.8GHz)

DAC Channels (x16)

1 x Right Angle SMA connector on Front Panel with Balun (BW 10MHz To 3GHz)

 

3 x Right Angle SMA connectors on Front Panel with Balun (BW 3.1GHz To 5.8GHz)

 

3 x Straight SMA connectors with Balun (BW 10MHz To 3GHz)

 

9 x Straight SMA connectors with Balun (BW 3.1GHz To 5.8GHz)

Environment

Operating Temp.

0°C to 55°C

Storage Temp.

-40°C to 75°C

Relative Humidity

5% to 95%, non-condensing

MIL-STD-810 Environment Testing Standards

Method 501, Operational Temperature, high:

Procedure II: +55°C, two-hour dwell, four cycles

Method 501, Storage Temperature, high:

Procedure I: +75°C, two-hour dwell, four cycles

Method 502, Operational Temperature, low:

Procedure II: 0°C, two-hour dwell, four cycles

Method 502, Storage Temperature, low:

Procedure I: -40°C, two-hour dwell, four cycles

Method 514, Vibration:

Category 24/Non-Operating ( Category 20 & 24, Vibration )

Method 514, Vibration:

Category 20/Operating ( Category 20 & 24, Vibration )

Method 516, Shock:

Procedure V Non-Operating ( Mechanical Shock )

Method 516, Shock:

Procedure I Operating ( Mechanical Shock )

Method 507, Humidity:

Procedure II: exposure to 10 cycles of 95% relative humidity at temperatures of 30 °C to 60 °C with conformal coating (optional)

Method 509, Salt fog:

Each cycle consists of 24 hours in salt-fog conditions of 5%NaCl, 95% relative humidity and 35 °C followed by 24 hours of drying in an environment with less than 50% relative humidity (optional)

Method 500, Altitude (Low Pressure):

15,000 feet transport, -200÷2500[m] ground operation and exposed to +55°C and -20°C operation (optional)

Method 510, Sand-Dust:

Procedure I: Blasting dust, 12 hours (optional)

Method 508, Fungus:

28 days, mixed spore, 30°C 95% RH (optional)