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Server Memory

Updated on Jun 22, 2024 by
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What Is Server Memory?

Server memory, specifically Random Access Memory (RAM), handles data processing between hard disk drives or solid-state drives and the CPU. Unlike permanent storage memory, server RAM is volatile and retains data only when powered on. Therefore, data is permanently stored on hard disk drives.

Moreover, RAM offers significantly faster read and write speeds compared to storage memory. The CPU can directly access server RAM without needing to search the hard drive for data or instructions. Additionally, server memory generates less heat and experiences less wear over time.

The capacity of RAM is crucial for system performance, as insufficient server memory can create bottlenecks that impact server efficiency. Increasing memory allows servers to support more Virtual Machines (VMs). Upgrading server memory can also enhance memory speed and bandwidth, facilitating faster data processing.

Server Memory: Your Comprehensive Guide to Server RAM

Types of Server Memory

Server memory typically falls into two main categories: buffered RAM and unbuffered RAM. The primary distinction between these two types lies in the presence of registers between Dynamic Random Access Memory (DRAM) modules and the memory controller.

Buffered RAM

Buffered RAM, also known as registered memory, includes registers situated between DRAM modules and the memory controller. This design reduces the electrical load on the server memory controller. Buffered RAM is commonly used in servers and high-end systems requiring stable operating environments, as it provides high stability in stored data.

The main advantage of buffered RAM is its register, which facilitates direct reception of information from the CPU, thereby reducing actual physical read and write times. There are three primary types of buffered memory:

  • RDIMM (Registered DIMM): Contains registers on the DIMM to buffer command signals between DRAMs and the memory controller, allowing for increased memory capacity support.

  • LRDIMM (Load-Reduced DIMM): Utilizes memory buffers to consolidate electrical loads across ranks of LRDIMMs, enabling large overall maximum memory capacities with lower latency compared to RDIMMs.

  • FBDIMM (Fully Buffered DIMM): An older technology aimed at enhancing speed, stability, and compatibility of server memory, although it is not compatible with RDIMMs and LRDIMMs.

    Server Memory: Your Comprehensive Guide to Server RAM

Unbuffered RAM

In contrast, unbuffered RAM does not include registers between DRAM modules and the memory controller. As a result, the CPU accesses the memory controller directly, which increases electrical load on the memory controller

Unbuffered RAM is commonly found in desktops, laptops, and other systems due to its lower cost. However, it may be less stable for systems and data storage.

Server Memory: Your Comprehensive Guide to Server RAM

What Are Server Memory Technologies?

Server RAM outperforms PC RAM due to its advanced technologies, including ECC, Chipkill, and register, which deliver exceptional stability and error correction capabilities for server memory.

ECC Memory

Error Checking and Correcting (ECC) is a widely used error correction technique in computer systems. Unlike Parity, which only checks for errors, ECC can detect and correct errors in server memory. This is crucial because server memory data transfers are susceptible to inaccuracies due to electrical factors. ECC ensures the stability and reliability of server systems by correcting errors in real-time.

Register Technology

Registers are essential components in server RAM, functioning like directories in books. They enable efficient retrieval of data and enhance read and write operations in server memory. Modern register memory often integrates ECC technology, known as ECC Registered memory, synergizing error correction with efficient data handling.

Chipkill Memory Technology

Developed by IBM to address ECC limitations in server memory, Chipkill is a robust ECC memory protection standard. ECC alone cannot correct errors exceeding two bits, potentially leading to system crashes. Chipkill allows data to be written across multiple DIMM chips, minimizing the impact of chip failures and enhancing server reliability. It can concurrently correct up to 4 bad data bits, further bolstering server performance.

Memory Mirroring

Memory mirroring divides server memory into redundant channels, where one channel mirrors another for fault tolerance. If a DIMM fails, the memory controller seamlessly switches to the alternate channel, ensuring uninterrupted server operation. This technique not only enhances memory reliability but also guards against single and multiple bit errors.

Memory Protection

Memory protection regulates memory access rights to prevent unauthorized applications from exploiting unallocated memory, mitigating potential damage or data loss. Similar to hot backups for hard disks, memory protection technology uses spare bits to recover data during DIMM failures, ensuring uninterrupted server operation. It can also correct up to 4 consecutive bit errors per DIMM pair, maintaining system integrity.

These technologies collectively elevate server memory performance, reliability, and resilience, catering to the demanding requirements of modern server environments.

How to Select the Optimal Server Memory?

Choosing server memory involves considering numerous factors tailored to your specific use case. It is essential to evaluate all the aspects discussed above in relation to your project to arrive at the correct decision. The selection of server memory, including both capacity and module types, must align with other components that interact with RAM, such as server memory ranks, ECC, DDR, motherboard, server CPU, and server storage, ensuring compatibility across the board.

For those setting up a dedicated server, sufficient server RAM is crucial to handle workload demands effectively. FS offers a range of server memory options, allowing users to purchase or customize servers according to project requirements, ensuring seamless integration of components.

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