SNPWMMC0C/32G Dell 32GB DDR5 4800Mhz ECC Unbuffered Ram

Highlights of Dell SNPWMMC0C/32G 32GB DDR5 4800MHz Ram

The Dell SNPWMMC0C/32G 32GB DDR5 memory module is a high-speed and efficient RAM upgrade designed for modern desktops and professional workstations. Utilizing advanced DDR5 SDRAM technology, this module delivers improved bandwidth, faster responsiveness, and reliable performance for everyday computing and demanding applications.

General Information

• Manufacturer: Dell
• Part Number: SNPWMMC0C/32G
• Product Type: DDR5 Memory Module
• Sub Type: DDR5 4800MHz PC5-38400

Technical Specifications

• Capacity: 32GB
• Memory Technology: DDR5 SDRAM
• Configuration: 1 x 32GB
• Speed: 4800MT/s (PC5-38400)
• CAS Latency: CL40
• Rank: 2Rx8

Signal Processing & Error Handling

• Error Checking: Non-ECC (standard consumer-grade)
• Signal Type: Unbuffered (UDIMM)
• Design: Ideal for desktop and workstation environments

Physical Specifications

• Form Factor: 288-pin UDIMM
• Dimensions: 1.00" Height × 6.75" Depth
• Shipping Weight: 0.20 lb

Compatibility

Supported Dell Systems

• Alienware Aurora R13
• Alienware Aurora R15 (Intel)
• OptiPlex 7000 Tower
• OptiPlex XE4 Tower
• Precision 3660 Tower
• Precision 3660XE Tower
• XPS 8950 Desktop

Overview of Dell SNPWMMC0C/32G DDR5 PC5-38400 ECC Ram

Dell SNPWMMC0C/32G 32GB DDR5 4800MHz PC5-38400 ECC Unbuffered 288-Pin Memory Module is designed to deliver high-speed performance, enhanced efficiency, and reliable data integrity for modern computing environments that demand consistent responsiveness and stable operation under continuous workloads. Built with advanced DDR5 technology, this memory module significantly improves bandwidth, reduces latency, and enhances overall system performance compared to previous-generation DDR4 memory solutions while maintaining energy efficiency and optimized thermal performance for long-term use in professional and enterprise-level systems.

Next Generation DDR5 Architecture for High-Speed Performance

The DDR5 architecture introduces a substantial improvement in memory performance by increasing bandwidth and optimizing internal memory structure to support modern high-performance computing environments where speed and efficiency are essential. Operating at 4800MHz, this memory module ensures rapid data transfer rates between CPU and memory, enabling systems to process complex workloads more efficiently while reducing latency and improving responsiveness in demanding applications such as virtualization, data analytics, and cloud-based services.

Enhanced Memory Bandwidth

Enhanced memory bandwidth allows faster communication between system components, ensuring that large volumes of data can be processed without delay or bottlenecks in high-demand computing environments. This results in smoother performance across applications that require continuous data access, such as enterprise software systems, high-performance computing tasks, and multi-threaded processing workloads that depend on fast and reliable memory performance.

Improved Real-Time Data Handling

The increased bandwidth and optimized architecture enable improved real-time data handling capabilities, ensuring that systems can manage complex operations efficiently without experiencing delays or performance degradation even during peak workload conditions where multiple processes compete for memory resources simultaneously.

32GB Capacity for Modern Workload

The 32GB memory capacity provides sufficient headroom for modern computing environments that require stable multitasking and efficient handling of large datasets without exhausting system resources. This capacity is ideal for applications such as virtualization, software development environments, database management systems, and enterprise-level workloads that demand consistent memory availability and reliable performance under continuous operation.

Multitasking and Resource Allocation

Efficient multitasking is achieved by allowing multiple applications to run simultaneously without causing memory bottlenecks or performance degradation, ensuring that system resources are distributed effectively across different workloads while maintaining stable and responsive system behavior under varying workload conditions.

Performance for Data-Intensive Applications

Optimized performance for data-intensive applications ensures that systems can handle large-scale data processing tasks efficiently, including analytics workloads, content creation processes, and enterprise applications that require continuous memory access for smooth operation and improved productivity across computing environments.

ECC Memory Technology for Data Integrity and Reliability

Error-Correcting Code memory technology ensures that data stored in memory is protected against corruption by automatically detecting and correcting errors during operation, making it essential for systems that require high reliability and accuracy in data processing tasks where even minor errors can lead to significant issues in system performance and data integrity.

Improved System Stability in Continuous Workloads

Improved system stability ensures that computing systems remain reliable during prolonged periods of heavy workload processing, maintaining consistent performance levels without unexpected interruptions or degradation in responsiveness, which is critical for professional environments where uptime and accuracy are essential.

Unbuffered DIMM Design for Direct Memory Access

Unbuffered DIMM architecture provides direct communication between memory and the memory controller, reducing latency and improving response time in systems that prioritize speed and efficiency over large-scale scalability. This design is commonly used in workstations and performance-focused systems where faster access to memory data is critical for achieving optimal performance.

Lower Latency for Faster Data Access

Lower latency ensures that memory operations are executed quickly, allowing applications to access data without delay and improving overall system responsiveness in environments where performance speed is a key requirement for efficient workflow execution.

Enhanced Responsiveness for Performance Systems

Enhanced responsiveness allows systems to react quickly to user input and application demands, ensuring smooth operation across various tasks including multitasking, content creation, and professional software usage that requires reliable and fast memory performance.

High-Speed 4800MHz Frequency for Maximum

The 4800MHz operating frequency ensures that this memory module delivers high-speed performance suitable for modern computing environments where fast data processing is essential for maintaining efficiency and productivity across a wide range of applications and workloads.

Faster Application Execution and Load Times

Faster application execution allows software to run more efficiently by reducing delays in memory access, ensuring that programs load quickly and perform tasks without unnecessary waiting times, which improves overall system productivity and user experience.

Improved Multitasking Performance Across Applications

Improved multitasking performance ensures that multiple applications can run simultaneously without affecting each other's performance, allowing users to work efficiently across different tasks without experiencing system slowdowns or interruptions in workflow continuity.

Improved System Responsiveness Under Heavy Load

this memory module is designed to maintain high responsiveness even during peak workloads ensuring that systems continue operating efficiently under pressure whether handling multiple applications background processes or data-intensive operations the module ensures that memory access delays are minimized resulting in faster execution times smoother system behavior and improved overall performance which is essential for environments where consistent responsiveness directly impacts productivity and user experience.

Power Consumption for Modern Systems

Optimized power consumption ensures that the memory module operates efficiently without drawing excessive energy which is particularly beneficial for systems that run continuously and require a balance between performance and energy usage to maintain cost-effective operations.

Reduced Heat Generation for Stable Operation

Reduced heat generation helps maintain stable system temperatures improving hardware longevity and ensuring consistent performance without thermal-related slowdowns or instability issues that can occur in high-performance computing environments.

Modern Computing Platforms

This memory module is designed to be compatible with modern computing platforms that support DDR5 memory ensuring seamless integration and reliable performance across a wide range of systems including professional workstations enterprise setups and high-performance desktop environments.

Reliable Integration with Supported Systems

Reliable integration ensures that the memory module functions correctly within supported hardware configurations reducing compatibility issues and ensuring stable performance across different system architectures used in professional computing environments.

Upgrade Flexibility

Easy installation allows users to upgrade system memory quickly without complex configuration processes making it convenient for improving system performance and extending the lifespan of existing computing setups.

Future Ready Memory Solution for Advanced Workloads

This DDR5 memory module is designed to support future computing requirements including advanced applications artificial intelligence workloads data processing systems and next-generation software environments ensuring long-term usability and performance consistency across evolving technology landscapes.

Emerging Technologies and Applications

Support for emerging technologies ensures that the memory module remains relevant in modern computing environments where software and hardware requirements continue to evolve requiring higher performance and improved efficiency from system components.