Description
Product overview for the Samsung M393B1K70QB0-CMA
In the world of servers and computing, the choice of memory modules plays a critical role in ensuring optimal performance and reliability. One such module that stands out is the Samsung M393B1K70QB0-CMA 8GB DDR3 ECC Registered Memory Module. In this detailed exploration, we’ll delve into the various aspects of this memory module, breaking down its specifications, features, and significance in the server environment.
Introduction to Samsung M393B1K70QB0-CMA 8GB DDR3 ECC Registered Memory ModuleDDR3 SDRAM Technology
The Samsung M393B1K70QB0-CMA belongs to the DDR3 SDRAM (Double Data Rate 3 Synchronous Dynamic Random-Access Memory) family. This technology represents a significant advancement in memory modules, offering improved data transfer rates and efficiency compared to its predecessors.
Capacity: 8GB
This specific module boasts a capacity of 8 gigabytes (GB), making it suitable for handling demanding server workloads. The 8GB size ensures ample space for storing and processing data, contributing to the smooth operation of server applications.
Memory Speed: 1866MHz
Clock speed, measured in megahertz (MHz), is a crucial factor in determining the data transfer rate of a memory module. The Samsung M393B1K70QB0-CMA operates at a speed of 1866MHz, indicating its ability to handle data at a rapid pace. This speed is particularly beneficial for servers that require high-performance memory to support various tasks simultaneously.
CAS Latency: CL13
CAS latency, abbreviated as CL, is a key parameter that influences the responsiveness of a memory module. The Samsung module features a CAS latency of 13 cycles, denoted as CL13. Lower CAS latency values are indicative of faster data retrieval, enhancing overall system efficiency.
Dual Rank
The memory module adopts a dual-rank configuration. Dual rank refers to the organization of memory chips on the module. In a dual-rank configuration, the memory chips are distributed across two sets, contributing to increased memory density and potential performance improvements.
240-Pin ECC Registered Design
The physical design of the module involves a 240-pin layout, allowing for a secure and stable connection to the server’s memory slots. Additionally, the inclusion of Error-Correcting Code (ECC) and Registered memory features enhances the reliability and error-handling capabilities of the module, making it well-suited for critical server environments.
Significance in Server EnvironmentsServer Memory Requirements
Servers, being the backbone of IT infrastructure, demand robust and reliable memory solutions. The Samsung M393B1K70QB0-CMA addresses the specific requirements of server environments by offering a balance of capacity, speed, and error-correction features.
ECC for Error Detection and Correction
Error-correcting code (ECC) is a vital feature in server memory modules, as it helps detect and correct errors that may occur during data storage or retrieval. The ECC capability of the Samsung module contributes to the overall stability and integrity of server operations, minimizing the risk of data corruption.
Registered Memory for Enhanced Reliability
The inclusion of Registered memory technology further enhances the reliability of the module in server applications. Registered memory acts as a buffer, reducing electrical load and signal integrity issues. This results in improved system stability, especially in configurations with a large number of memory modules.
Dual Rank Performance Optimization
The dual-rank configuration of the Samsung M393B1K70QB0-CMA brings performance benefits to server setups. The distribution of memory across dual ranks can lead to increased data access efficiency and improved multitasking capabilities. This makes the module well-suited for servers handling multiple concurrent tasks, common in enterprise-level environments.
Scalability and Future-Proofing
With an 8GB capacity, the Samsung module supports the increasing memory demands of modern server applications. Its specifications align with the scalability requirements of evolving server architectures, contributing to a future-proofing aspect that is crucial for long-term investments in IT infrastructure.
Performance Benchmarks and Real-world Applications
Performance Benchmarks
Benchmarking the Samsung M393B1K70QB0-CMA in real-world scenarios can provide insights into its performance capabilities. Testing its data transfer rates, latency, and overall responsiveness in a server environment allows IT professionals to gauge its suitability for specific workloads.
Real-World Applications
The versatility of the Samsung module makes it suitable for a range of server applications. From database management to virtualization environments, where memory-intensive tasks are common, the module’s specifications position it as a reliable component for diverse computing needs.
General Information about the Samsung M393B1K70QB0-CMA
- Manufacturer: Samsung
- Model Number or SKU# M393B1K70QB0-CMA
- Type: Memory (RAM)
- RAM Type: Pc3-14900
- Product Name: 8GB DDR3 SDRAM Memory Module
Technical information for 8GB DDR3 Ram
- Memory Size: 8GB
- Memory Technology: DDR3 SDRAM
- Number Of Modules: 1 X 8GB
- Memory Speed: 1866 MHz
- Memory Standard: DDR3-1866/PC3-14900
- Signal Processing: Registered
- Error Checking: ECC
- Cas Latency: Cl13
- Pin Count: 240-Pin
- Voltage: 1.5V
- Form Factor: Dimm
Finally, the Samsung M393B1K70QB0-CMA 8GB DDR3 ECC Registered Memory Module stands out as a reliable and high-performance solution for server environments. Its combination of ECC, Registered memory technology, dual-rank configuration, and 1866MHz speed makes it a versatile choice for addressing the memory demands of modern servers.
When considering memory upgrades or building a new server infrastructure, IT professionals should carefully evaluate the requirements of their specific applications and workloads. The Samsung module, with its features geared towards stability, reliability, and performance, presents a compelling option for those seeking a robust memory solution in the ever-evolving landscape of server technology.
