Introducing the Nutanix NXS2U4NL12G800, a state-of-the-art Enterprise Servers designed for the modern consumer.
This model, NXS2U4NL12G800, is part of the ENERGY STAR certified products and is brought to you by Nutanix.
Key Features:
- Date Available On Market: September 21, 2021
- Date Certified: March 11, 2024
- Markets: United States, Japan, Canada
- CB Model Identifier: ES_1137627_NXS2U4NL12G800_031120241312809_3847173
- Meets ENERGY STAR Most Efficient 2024 Criteria: No
Available in United States, Japan, Canada markets, the Nutanix NXS2U4NL12G800 is the perfect addition to any home, offering both performance and energy efficiency.
Release Date: September 21, 2021 Qualified Date: March 11, 2024
Don't miss out on this high-performance, energy-efficient Enterprise Servers.
Get yours today and enjoy the ultimate viewing experience!
More on NXS2U4NL12G800
Full Specifications of NXS2U4NL12G800
| ENERGY STAR Partner | Nutanix |
| Product Category | Enterprise Servers |
| Type | Enterprise Servers |
| Brand Name | Nutanix |
| Model Name | NXS2U4NL12G800 |
| Model Number | NXS2U4NL12G800 |
| Date Available On Market | September 21, 2021 |
| Date Certified | March 11, 2024 |
| Markets | United States, Japan, Canada |
| CB Model Identifier | ES_1137627_NXS2U4NL12G800_031120241312809_3847173 |
| Meets ENERGY STAR Most Efficient 2024 Criteria | No |
| Product Form Factor | Multi-node |
| Product Processor Socket Count | 2 |
| Single Server | No |
| Storage Heavy Server | No |
| Resilient System | No |
| Number of Nodes for Multi-node | 4 |
| Error Correcting Code | Yes |
| Error Correcting Code Enabled in Hardware as Shipped | Yes |
| Available Expansion Slots | 3 |
| Operating Systems Supported | Windows,Linux |
| Operating System Used for Testing | Windows |
| Power Saving Features Available | Variable speed fan control based on power or thermal readings,Processor or core reduced power states,Low power I/O states,Power capping,Low power memory states,Dynamic voltage and frequency scaling of processor(s) |
| Power Saving Features Enabled | Variable speed fan control based on power or thermal readings,Processor or core reduced power states,Low power I/O states,Power capping,Low power memory states,Dynamic voltage and frequency scaling of processor(s) |
| End User Required Power Saving Features | N/A |
| Storage Power Management Enabled in Hardware on Shipment | Yes |
| Memory Power Management Enabled in Hardware on Shipment | Yes |
| I/O Power Management Enabled in Hardware on Shipment | Yes |
| Processor Dynamic Voltage Scaling Enabled on Shipment | Yes |
| Processor Dynamic Frequency Scaling Enabled on Shipment | Yes |
| Processor Dynamic Voltage Scaling End-User Enabling Required | No |
| Processor Dynamic Frequency Scaling End-User Enabling Required | No |
| Processor or Core Reduced Power States Enabled on Shipment | Yes |
| Processor or Core Reduced Power States Enabling Required | No |
| Power Capping Enabled on Shipment | Yes |
| Power Capping End-User Enabling Required | No |
| Variable Speed Fan Control Enabled on Shipment | Yes |
| Variable Speed Fan Control End-User Enabling Required | No |
| Low Power Memory States Enabled on Shipment | Yes |
| Low Power Memory States End-User Enabling Required | No |
| Low Power I/O States Enabled on Shipment | Yes |
| Liquid Cooling Capability Enabled on Shipment | No |
| Liquid Cooling Capability End-User Enabling Required | Yes |
| Available DIMM Slots | 16 |
| Maximum Memory Capacity (GB) | 1,024 |
| SERT Version | Other |
| SERT Version Other | 2.0.7 |
| Model Number or Config ID for Low-end Performance Configuration | NXS2U4NL12G800 |
| Model Number or Config ID for Typical or Single Configuration | NXS2U4NL12G800 |
| Model Number or Config ID for High-end Performance Configuration | NXS2U4NL12G800 |
| Installed Processors for Low-end Performance Configuration | 2 |
| Installed Processors for Typical or Single Configuration | 2 |
| Installed Processors for High-end Performance Configuration | 2 |
| Cores Per Processor Low-end Performance Configuration | 20 |
| Cores Per Processor Typical or Single Configuration | 24 |
| Cores Per Processor High-end Performance Configuration | 28 |
| Number of Threads for Low-end Performance Configuration | 80 |
| Number of Threads for Typical or Single Configuration | 96 |
| Number of Threads for High-end Performance Configuration | 112 |
| Processor Brand Low-end Performance Configuration | Intel |
| Processor Brand Typical or Single Configuration | Intel |
| Processor Brand High-end Performance Configuration | Intel |
| Processor Model Name Low-end Performance Configuration | Silver 4314 |
| Processor Model Name Typical or Single Configuration | Silver 4314 |
| Processor Model Name High-end Performance Configuration | Gold 5320T |
| Processor Speed for Low-end Performance Configuration (GHz) | 2 |
| Processor Speed for Typical or Single Configuration (GHz) | 2 |
| Processor Speed for High-end Performance Configuration (GHz) | 3 |
| Num. of DDR Channels for Low-end Performance Configuration | 8 |
| Num. of DDR Channels for Typical or Single Configuration | 8 |
| Num. of DDR Channels for High-end Performance Configuration | 8 |
| Memory Manufacturer for Low-end Performance Configuration | Micron |
| Memory Manufacturer for Typical or Single Configuration | Micron |
| Memory Manufacturer for High-end Performance Configuration | Micron |
| Memory Model Number Low-end Performance Configuration | M393A4K40DB3 |
| Memory Model Number Typical or Single Configuration | M393A4K40DB3 |
| Memory Model Number High-end Performance Configuration | MTA36ASF8G72PZ |
| Memory Speed Low-end Performance Configuration (GHz) | 3 |
| Memory Speed Typical or Single Configuration (GHz) | 3 |
| Memory Speed High-end Performance Configuration (GHz) | 3 |
| Low-end Performance Configuration Size Per DIMM (GB) | 32 |
| Typical or Single Configuration Size Per DIMM (GB) | 32 |
| High-end Performance Configuration Size Per DIMM (GB) | 64 |
| Installed Num. DIMMs for Low-end Performance Configuration | 16 |
| Installed Num. DIMMs for Typical or Single Configuration | 16 |
| Installed Num. DIMMs for High-end Performance Configuration | 16 |
| Installed Memory for Low-end Performance Configuration (GB) | 512 |
| Installed Memory for Typical or Single Configuration (GB) | 512 |
| Installed Memory for High-end Performance Configuration (GB) | 1,024 |
| Num. Solid State Drives (SSDs) Low-end Performance Configuration | 1 |
| Num. Solid State Drives (SSDs) Typical or Single Configuration | 1 |
| Num. Solid State Drives (SSDs) High-end Performance Configuration | 1 |
| Number Rotational Drives Low-end Performance Configuration | 0 |
| Number Rotational Drives Typical or Single Configuration | 2 |
| Number Rotational Drives High-end Performance Configuration | 2 |
| Low-end Performance Configuration Redundant Power Supply | Yes |
| Typical or Single Configuration Redundant Power Supply | Yes |
| High-end Performance Configuration Redundant Power Supply | Yes |
| Power Supply Type for Low-end Performance Configuration | Single-Output |
| Power Supply Type for Typical or Single Configuration | Single-Output |
| Power Supply Type for High-end Performance Configuration | Single-Output |
| Power Supply Manufacturer Low-end Performance Configuration | Supermicro |
| Power Supply Manufacturer Typical or Single Configuration | Supermicro |
| Power Supply Manufacturer High-end Performance Configuration | Supermicro |
| Power Supply Model Name Low-end Performance Configuration | PWS-2K22A-1R |
| Power Supply Model Name Typical or Single Configuration | PWS-2K22A-1R |
| Power Supply Model Name High-end Performance Configuration | PWS-2K22A-1R |
| Power Supply Model Number Low-end Performance Configuration | PWS-2K22A-1R |
| Power Supply Model Number Typical or Single Configuration | PWS-2K22A-1R |
| Power Supply Model Number High-end Performance Configuration | PWS-2K22A-1R |
| Power Supply Rated Output Low-end Performance Configuration (W) | 2,200 |
| Power Supply Rated Output Typical or Single Configuration (W) | 2,200 |
| Power Supply Rated Output High-end Performance Configuration (W) | 2,200 |
| Num. Power Supplies for Low-end Performance Configuration | 2 |
| Num. Power Supplies for Typical or Single Configuration | 2 |
| Num. Power Supplies for High-end Performance Configuration | 2 |
| Number of PSU for Redundancy Low-end Performance Configuration | 1 |
| Number of PSU for Redundancy Typical or Single Configuration | 1 |
| Number of PSU for Redundancy High-end Performance Configuration | 1 |
| 64-bit Architecture | 64-bit supported |
| SERT Compress Eff. Score for Low-end Performance Configuration | 14 |
| SERT Compress Eff. Score for Typical or Single Configuration | 15 |
| SERT Compress Eff. Score for High-end Performance Configuration | 16 |
| SERT CryptoAES Efficiency Score Low-end Performance Configuration | 19 |
| SERT CryptoAES Efficiency Score Typical or Single Configuration | 17 |
| SERT CryptoAES Efficiency Score High-end Performance Configuration | 24 |
| SERT LU Efficiency Score Low-end Performance Configuration | 22 |
| SERT LU Efficiency Score Typical or Single Configuration | 23 |
| SERT LU Efficiency Score High-end Performance Configuration | 24 |
| SERT SOR Efficiency Score Typical or Single Configuration | 13 |
| SERT SOR Efficiency Score High-end Performance Configuration | 13 |
| SERT SORT Efficiency Score Low-end Performance Configuration | 10 |
| SERT SORT Efficiency Score Typical or Single Configuration | 13 |
| SERT SORT Efficiency Score High-end Performance Configuration | 11 |
| SERT SHA256 Efficiency Score Low-end Performance Configuration | 144 |
| SERT SHA256 Efficiency Score Typical or Single Configuration | 20 |
| SERT SHA256 Efficiency Score High-end Performance Configuration | 153 |
| SERT Flood Efficiency Score Low-end Performance Configuration | 3 |
| SERT Flood Efficiency Score Typical or Single Configuration | 2 |
| SERT Flood Efficiency Score High-end Performance Configuration | 3 |
| SERT Capacity Efficiency Score Low-end Performance Configuration | 15 |
| SERT Capacity Efficiency Score Typical or Single Configuration | 34 |
| SERT Capacity Efficiency Score High-end Performance Configuration | 16 |
| SERT Sequential Efficiency Score Low-end Performance Configuration | 172 |
| SERT Sequential Efficiency Score Typical or Single Configuration | 165 |
| SERT Sequential Efficiency Score High-end Performance Configuration | 159 |
| SERT Random Efficiency Score Low-end Performance Configuration | 1,609 |
| SERT Random Efficiency Score Typical or Single Configuration | 1,618 |
| SERT Random Efficiency Score High-end Performance Configuration | 1,501 |
| SERT SSJ Efficiency Score Low-end Performance Configuration | 13 |
| SERT SSJ Efficiency Score Typical or Single Configuration | 14 |
| SERT SSJ Efficiency Score High-end Performance Configuration | 14 |
| SERT Idle Measurement (Watts) Low-end Performance Configuration | 858 |
| SERT Active State Efficiency Score Low-end Performance Configuration | 33 |
| SERT Total Server Normalized Performance Score Low-end Performance Configuration | 2,781 |
| SERT Total Server Power Score (Watts) Low-end Performance Configuration | 16,274 |
| SERT Idle Measurement (Watts) Typical or Single Configuration | 847 |
| SERT Active State Efficiency Score Typical or Single Configuration | 31 |
| SERT Total Server Normalized Performance Score Typical or Single Configuration | 3,110 |
| SERT Total Server Power Score (Watts) Typical or Single Configuration | 18,230 |
| SERT Idle Measurement (Watts) High-end Performance Configuration | 932 |
| SERT Active State Efficiency Score High-end Performance Configuration | 39 |
| SERT Total Server Normalized Performance Score High-end Performance Configuration | 3,110 |
| SERT Total Server Power Score (Watts) High-end Performance Configuration | 18,955 |
| Date Qualified | March 11, 2024 |
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