Description
Product Overview of the Dell 370-ADNH Memory Kits
In the realm of server memory solutions, the Dell 370-ADNH 64 Gigabytes (GB) DDR4 Error Correction Code (ECC) Registered Memory Module stands out as a reliable and high-performance option. In this comprehensive exploration, we will delve into the key features, specifications, benefits, and considerations associated with this memory module.
The Jargon: DDR4, ECC, and Registered
- Before we plunge into the specifics, let’s decode some of the technical terms associated with this memory module.
- DDR4 (Double Data Rate 4): DDR4 is the fourth generation of Double Data Rate synchronous dynamic random-access memory (SDRAM). It represents an advancement over its predecessors, offering higher data transfer rates and improved energy efficiency.
- ECC (Error Correction Code): ECC is a critical feature in server memory. It detects and corrects common types of internal data corruption, ensuring the integrity of stored data. This is particularly crucial in mission-critical applications where data accuracy is paramount.
- Registered Memory: Also known as buffered memory, registered memory includes a register between the RAM module and the system’s memory controller. This register absorbs memory address and command signals, reducing the electrical load on the memory controller and allowing for larger memory configurations.
Technical Specifications
Now, let’s take a closer look at the technical specifications that make the Dell 370-ADNH a noteworthy choice for server environments.
64GB Capacity
The substantial 64GB capacity of this memory module is designed to meet the demands of memory-intensive applications and workloads. Whether it’s virtualization, database management, or other enterprise-level tasks, this module provides ample space for efficient data handling.
2666MHz Clock Speed
The 2666MHz clock speed denotes the rate at which data is transferred between the memory module and the system. A higher clock speed translates to faster data access and improved overall system performance. This feature is especially crucial in scenarios where rapid data processing is essential.
PC4-21300 and CL19
The PC4-21300 designation specifies the module’s peak bandwidth, indicating its ability to handle a data transfer rate of up to 21,300 megabytes per second. Additionally, CL19 (Column Address Strobe Latency) signifies the number of clock cycles it takes for the memory to respond to a command. A lower CL (Column Latency) value is favorable for reduced latency and enhanced responsiveness.
Quad Rank x4 Configuration
The Quad Rank x4 configuration refers to the organization of memory banks on the module. In this case, it features four ranks, with each rank having four memory banks. This design enhances memory density and is well-suited for applications that benefit from large memory capacities.
1.2V Operating Voltage
Efficiency is a key consideration in modern computing systems, and the 1.2V operating voltage of this memory module aligns with energy-efficient standards. Lower voltage not only contributes to reduced power consumption but also minimizes heat generation, contributing to overall system stability.
288-Pin Lrdimm Form Factor
The 288-pin Load-Reduced Dual Inline Memory Module (Lrdimm) form factor ensures compatibility with server configurations that support this type of memory. Users need to verify their server’s compatibility with Lrdimm modules before making a purchase decision.
Benefits of Dell 370-ADNH Memory ModuleReliability and Data Integrity
The ECC feature embedded in this memory module plays a pivotal role in maintaining the integrity of stored data. By detecting and correcting errors in real time, ECC ensures that the server operates with precision, minimizing the risk of data corruption.
High Performance for Demanding Workloads
The combination of a generous 64GB capacity and a 2666MHz clock speed positions the Dell 370-ADNH as a high-performance solution. It can handle memory-intensive workloads with ease, making it suitable for tasks such as virtualization, data analytics, and enterprise-level applications.
Scalability for Growing Needs
With a Quad Rank x4 configuration, this memory module offers scalability for growing computational needs. It provides the flexibility to expand memory capacity as the demands of applications and workloads increase over time.
Energy Efficiency
The 1.2V operating voltage aligns with energy-efficient computing standards. This not only contributes to reduced power consumption but also aids in maintaining optimal operating temperatures within the server environment.
Considerations and Compatibility
While the Dell 370-ADNH Memory Module boasts impressive features, users must consider compatibility and specific requirements.
Compatibility Checks
Before integrating this memory module into a server system, users must verify compatibility with their server’s architecture and memory slot configuration. Checking the server’s documentation or consulting with Dell’s technical support can provide valuable insights.
Server Configuration Requirements
Certain server configurations may have limitations on memory types, capacities, or form factors. Understanding the specific requirements of the server environment is essential to ensure seamless integration and optimal performance.
Consideration for Non-Server Environments
While this memory module is tailored for server applications, it’s worth noting that ECC and registered memory features may not be necessary for non-server environments. Users seeking memory solutions for personal computers or non-critical applications might explore alternatives that align with their specific needs.
ECC Registered and Quad Rank
The 370-ADNH module is an ECC (Error Correcting Code) registered memory module. ECC is a type of memory technology that can detect and correct errors in data as it is stored or retrieved from memory. This makes ECC memory more reliable and less prone to data corruption than non-ECC memory. The 370-ADNH module is also a quad-rank memory module. This means that it has four sets of memory chips on the module, which are accessed in parallel to improve performance. Quad-rank modules are more efficient than dual-rank modules, which have only two sets of memory chips.
X4 and 1.2v
The 370-ADNH module is an X4 memory module, which means that it has four bits of data stored in each memory cell. X4 memory is more efficient than X8 or X16 memory because it requires fewer memory chips to achieve the same capacity. The 370-ADNH module operates at a voltage of 1.2v, which is lower than the voltage used by previous generations of memory modules. This lower voltage means that the 370-ADNH module uses less power and generates less heat than older memory modules. This is important for server environments where power consumption and heat dissipation are critical considerations.
288-Pin LRDIMM
The 370-ADNH module is a 288-pin LRDIMM, which means that it has 288 pins that connect the memory module to the server’s memory slots. LRDIMM stands for Load Reduced Dual Inline Memory Module, which means that the module uses a buffer to reduce the electrical load on the memory controller. This reduces the amount of electrical noise generated by the memory module, which can improve signal integrity and reduce the likelihood of data errors.
General Information about the Dell 370-ADNH
- Manufacturer: Dell
- Part Number or SKU# 370-ADNH
- Type: Memory (RAM)
- RAM Type: PC4-21300
Technical InformationStorage Capacity
- The KXG80ZNV512G provides a generous storage capacity of 512GB, making it suitable for a variety of applications and data-intensive tasks.
Memory Technology
- Built on DDR4 SDRAM (Synchronous Dynamic Random Access Memory) technology, this SSD leverages the efficiency and speed associated with DDR4 for optimal performance.
- Number Of Modules
- The SSD consists of a single module, offering a straightforward configuration with a capacity of 64GB per module.
Bus Speed
- With a bus speed of 2666MHz DDR4-21300/PC4-2666V, the Kioxia SSD ensures swift and efficient data transfer, contributing to an overall responsive system.
Data Integrity Check
- Employing Error-Correcting Code (ECC), the drive ensures data integrity by automatically detecting and correcting errors that may occur during data storage or retrieval.
Signal Processing
- The SSD utilizes Registered signal processing, a mechanism that enhances stability and reliability in data transmission.
Cas Latency Timings
- The Cas Latency Timings of CL19 further optimize the responsiveness of the SSD, ensuring that data access is swift and seamless.
Compatibility
The KXG80ZNV512G Kioxia SSD is compatible with various Poweredge servers, including:
- Poweredge C6420
- Poweredge R640
- Poweredge R740
- Poweredge R740xd
- Poweredge R940
In short, the Dell 370-ADNH 64GB DDR4 ECC Registered Memory Module stands out as a reliable and high-performance solution for server environments. Its impressive capacity, ECC functionality, and efficient design make it a valuable asset for businesses and enterprises relying on robust server infrastructure. Whether it’s ensuring data integrity in mission-critical operations or handling memory-intensive tasks with ease, the 370-ADNH exemplifies the qualities expected from a top-tier server memory module. As technology continues to advance, DDR4 compatibility further solidifies its position as a forward-looking investment in the rapidly evolving landscape of server hardware.