Intel Optane 200 128GB DDR-T Persistent Memory Module

Unlock extraordinary memory performance with the Intel Optane 200 128GB DDR-T Persistent Memory Module. This high-capacity, non-volatile memory solution is engineered to dramatically accelerate data access, enabling rapid processing of large datasets and demanding workloads. Whether you’re a gamer seeking ultra-fast load times, a power user running a heavy operating system, or a content creator performing video edits, the 128 GB of persistent memory elevates responsiveness and efficiency to new levels. By combining the speed of memory with the resilience of non-volatile storage, it creates a powerful memory tier that can transform how applications behave under heavy load.

Designed for enterprise-grade servers and high-performance workstations that support DDR-T persistent memory, the Intel Optane 200 128GB DDR-T module blends the best of traditional RAM speed with non-volatile persistence. This breakthrough technology expands memory capacity beyond conventional DRAM limits, enabling larger in-memory data sets, accelerated analytics, and faster data processing. The module’s persistence means critical state can be retained across power cycles, reducing downtime, shrinking boot times, and speeding up recovery after interruptions. In practical terms, you get smoother multitasking, quicker application startup, and a more responsive system, even when dealing with memory-hungry tasks like virtualization, large-scale simulations, or media editing workloads.

What sets this Optane module apart is its versatility. It can function as a fast in-memory cache to absorb bursts of data, as a primary memory tier for large-scale workloads, or as a durable layer that preserves important data between sessions. For gaming enthusiasts, this translates to shorter texture loading times, snappier world loading, and an improved frame delivery experience when combined with a capable GPU setup. For video editors and 3D artists, it provides rapid access to large project files, smoother timeline scrubbing, and quicker rendering previews. For data scientists and software developers, the module helps run analytics and memory-intensive tasks with lower latency, enabling real-time insights and faster iteration cycles. The result is a more efficient, reliable, andFuture-proof computing environment that scales with your ambitions.

Beyond raw speed, Intel Optane 200 128GB DDR-T emphasizes reliability and data integrity. Enterprise-grade solutions typically incorporate robust error-handling, memory protection, and advanced wear leveling to extend endurance and protect valuable work. This means your important datasets and active projects stay available when you need them most, with fewer interruptions and less downtime. The persistent memory architecture also supports flexible memory modes and software-defined configurations, allowing IT professionals to tailor deployment to specific workloads, whether they require aggressive caching, large persistent memory pools, or a balanced mix of both. In short, this module is designed to deliver performance, resilience, and adaptability for modern, data-driven workflows.

• Unleashed data in memory: Significantly expands the effective memory footprint, enabling faster processing of large datasets and memory-hungry applications without constant paging to slower storage.
• Persistent memory for resilience: Maintains state across power cycles, reducing boot times and preserving critical data for faster recovery after outages or maintenance windows.
• DDR-T architecture for high bandwidth: Optimized data movement and bandwidth to support demanding workloads, including virtualization, analytics, and content creation pipelines.
• Versatile deployment options: Functions as a high-speed cache, a large memory pool, or a persistent storage layer, depending on your workload and system configuration.
• Enterprise-grade reliability: Built with data integrity features and safeguards to ensure consistent performance and longevity in demanding environments.

Technical Details of Intel Optane 200 128GB DDR-T Persistent Memory Module

• Capacity: 128 GB
• Memory Type: DDR-T Persistent Memory
• Form Factor: DIMM-compatible module designed for use in supported servers and workstations
• Interface: DDR-T memory interface engineered for fast, non-volatile data access in compatible systems
• Compatibility: Designed for deployment in platforms that support persistent memory and DDR-T technology
• Reliability features: Includes data integrity protections common to enterprise memory modules

How to install Intel Optane 200 128GB DDR-T Persistent Memory Module

• Power down your system completely and disconnect from the power source to ensure safe handling.
• Open the server or workstation chassis and locate the DDR-T persistent memory slots that are compatible with the module.
• Align the Optane memory module with the slot, ensuring the notch and contacts line up correctly, then firmly press until the latches engage securely.
• Close the chassis, reconnect power, and boot the system. Enter the BIOS/UEFI to verify that the new memory is detected and to configure any necessary persistence or memory-mode settings as required by your workload.
• Install or update any required software or drivers that enable persistent memory features in your operating system, and follow your IT department’s guidelines for memory-mode configuration and data management.

Frequently asked questions

• Q: What is the Intel Optane 200 128GB DDR-T Persistent Memory Module? A: It is a high-capacity, DDR-T persistent memory module designed to accelerate data access and provide non-volatile memory for supported systems, enabling larger in-memory data sets and faster workloads.
• Q: How does persistent memory improve performance? A: Persistent memory retains data across power cycles, reduces boot and resume times, and can serve as a fast memory tier for caching and processing, leading to lower latency and improved throughput for data-intensive tasks.
• Q: What workloads benefit most from this module? A: Workloads such as large-scale gaming, OS-heavy environments, video editing, virtualization, analytics, ML/AI inference pipelines, and other memory-bound applications see noticeable gains due to larger in-memory datasets and faster data access.
• Q: How should I configure memory modes for best results? A: Configuration depends on your workload. Many deployments leverage a balanced approach with persistent memory as a high-speed memory tier and caching to accelerate frequently accessed data, while ensuring data integrity and reliability through appropriate memory mode settings and OS support.