Lenovo 4ZC7A15138 128GB 2933mhz PC4-23400 CL21 Reg Ecc DDR4 SDRAM Ram
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SKU/MPN | Warranty | Price | Condition | You save |
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4ZC7A15138 | Six-Month (180 Days) | $852.00 | New Sealed in Box (NIB) | You save: $44.40 (5%) |
4ZC7A15138 | Six-Month (180 Days) | $331.00 | New (System) Pull | You save: $244.10 (42%) |
Product Specifications
This Lenovo 128GB DDR4 SDRAM Memory Module is designed to meet high-performance needs for enterprise-level applications. Built with advanced features and robust capabilities, it ensures superior memory speed and data integrity.
General Details
- Manufacturer: Lenovo
- Part Number: 4ZC7A15138
- Product Name: 128GB DDR4 SDRAM Memory Module
Technical Features
This memory module delivers exceptional performance with the following specifications:
- Capacity: 128GB
- Memory Technology: DDR4 SDRAM
- Module Configuration: 1 x 128GB
- Bus Speed: 2933MT/s DDR4-2933 / PC4-23400
- Data Integrity: ECC (Error-Correcting Code)
- Signal Processing: Registered
- CAS Latency: CL21
- Rank: 4Rx4
Physical Characteristics
The memory module is built to be durable and efficient, with the following physical attributes:
- Form Factor: 288-Pin RDIMM (Registered Dual In-line Memory Module)
- Shipping Weight: 0.20 lbs
- Shipping Dimensions: 1.00" (height) x 6.75" (depth)
Key Advantages
- Ensures enhanced data integrity with Error-Correcting Code (ECC) technology
- Provides stable and reliable performance with Registered signal processing
- High data rate of 2933MT/s for faster processing in demanding environments
- Optimized for enterprise systems, offering large-scale storage capacity
- Compatible with DDR4 systems to upgrade performance seamlessly
Capacity
The Lenovo 4ZC7A15138 DDR4 SDRAM is equipped with a remarkable capacity of 128GB. This immense storage capability sets it apart from other memory modules in the market, making it an excellent choice for users who require extensive memory for their computing needs.
Enhanced Performance
The 128GB capacity of this DDR4 SDRAM allows users to handle resource-intensive tasks without any performance bottlenecks. Whether you are a gamer, a content creator, or a professional working on complex applications, having ample memory space ensures smooth multitasking and efficient data processing.
With this memory module, you can effortlessly run multiple applications simultaneously, switch between them seamlessly, and experience minimal lag or slowdowns. This is particularly beneficial for those involved in video editing, 3D modeling, data analysis, and other memory-intensive tasks where large files and datasets need to be processed.
Future-Proofing
Investing in a memory module with such a substantial capacity ensures that your system will remain relevant for years to come. As software and applications continue to evolve, their memory requirements also increase. By opting for the Lenovo 4ZC7A15138 DDR4 SDRAM, you can future-proof your system and avoid the need for frequent upgrades.
Moreover, as operating systems become more advanced and demanding, having a higher capacity memory module allows your system to handle updates and new releases without compromising performance. This means you can continue enjoying the latest features and functionalities of your favorite software without experiencing any slowdowns or compatibility issues.
Seamless Virtualization
Virtualization has become an integral part of modern computing environments. Whether you are running virtual machines for testing purposes, creating virtual development environments, or utilizing virtualization for server consolidation, having ample memory is crucial to ensure smooth and efficient operation.
The 128GB capacity of the Lenovo 4ZC7A15138 DDR4 SDRAM provides you with the necessary resources to run multiple virtual machines simultaneously. This allows you to allocate sufficient memory to each instance, ensuring optimal performance and reducing the risk of resource contention or bottlenecks.
Heavy Gaming and Multimedia
Gaming enthusiasts and multimedia professionals often require extensive memory to support their demanding applications. With the 128GB capacity of this memory module, you can enjoy immersive gaming experiences, run resource-intensive games smoothly, and seamlessly switch between different applications without any compromises.
Furthermore, if you are involved in multimedia production, such as video editing or graphic design, having abundant memory allows for efficient handling of large files and complex projects. You can work on high-resolution videos, manipulate intricate 3D models, and apply multiple effects or filters without experiencing any performance degradation.
Efficient Data Processing
For professionals working with big data, scientific simulations, or financial modeling, the 128GB capacity of this DDR4 SDRAM is a game-changer. These fields often require extensive memory to process and analyze vast amounts of data efficiently.
With this memory module, you can load large datasets into memory, perform complex calculations, and execute sophisticated algorithms without relying on slow disk-based storage. This reduces processing times significantly and enables you to derive insights or complete tasks in a fraction of the time it would take with lower-capacity memory modules.
Speed
In addition to its impressive capacity, the Lenovo 4ZC7A15138 DDR4 SDRAM boasts a high speed of 2933MHz. The speed at which data can be transferred between the memory module and the processor plays a crucial role in overall system performance.
Enhanced Responsiveness
The 2933MHz speed of this memory module ensures that data can be accessed and processed quickly, resulting in enhanced system responsiveness. Whether you are launching applications, opening files, or executing commands, the higher speed allows for near-instantaneous execution, reducing any perceived delays or waiting times.
With faster data transfer rates, you can experience smoother interactions with your computer, enabling a more efficient workflow. This is particularly beneficial for tasks that involve frequent data retrieval and manipulation, such as working with large spreadsheets, browsing the web with multiple tabs open, or running database queries.
Optimized Gaming Performance
Gamers strive for the best possible gaming experience, and the speed of the Lenovo 4ZC7A15138 DDR4 SDRAM contributes significantly to achieving that goal. The high speed allows for faster loading times, smoother gameplay, and reduced input lag.
When playing graphics-intensive games, the memory speed directly impacts the rendering of high-resolution textures and complex visual effects. By having a memory module with a speed of 2933MHz, you can ensure that your system can keep up with the demands of modern games, delivering a seamless and immersive gaming experience.
Efficient Content Creation
Content creators often work with large files and complex projects that require fast data access and processing. Whether you are editing videos, working on graphic design projects, or composing music, having a high-speed memory module like the Lenovo 4ZC7A15138 DDR4 SDRAM is essential.
The increased data transfer rate provided by the 2933MHz speed allows for quicker rendering of effects, smoother playback of high-resolution videos, and seamless manipulation of large image files. This results in improved productivity and a more efficient creative workflow.
Seamless Multitasking
In today's multitasking-oriented computing environments, the ability to switch between applications seamlessly is crucial. The 2933MHz speed of this memory module enables efficient multitasking by reducing the time required for data transfers between the processor and memory.
With faster data access, you can effortlessly switch between applications, run multiple instances simultaneously, and handle resource-intensive tasks without experiencing significant performance degradation. This is particularly beneficial for professionals who need to work with several applications simultaneously, such as software developers, designers, and content creators.
Improved System Stability
System stability is vital for uninterrupted workflow and preventing data loss. The high speed of the Lenovo 4ZC7A15138 DDR4 SDRAM contributes to a stable system by ensuring that data transfers occur efficiently and without errors.
By utilizing a memory module with a speed of 2933MHz, you can reduce the chances of data corruption or system crashes caused by slow or faulty memory access. This is especially important when working on critical projects or handling sensitive data where any system instability could result in significant consequences.
Cas Latency
The Lenovo 4ZC7A15138 DDR4 SDRAM features a Cas Latency (CL) of 21. The Cas Latency refers to the time delay between when a memory controller requests data from memory and when that data becomes available for use by the processor.
Improved Data Access
A lower Cas Latency value, such as CL21 in this case, indicates faster data access and reduced wait times. The Lenovo 4ZC7A15138 DDR4 SDRAM's low Cas Latency ensures that data can be retrieved and processed quickly, resulting in improved overall system performance.
With lower latency, applications can access data from memory more efficiently, allowing for quicker execution of commands and faster data retrieval. This is particularly beneficial for tasks that involve frequent memory access, such as gaming, multimedia editing, and database operations.
Enhanced Gaming Experience
For gamers, a low Cas Latency is crucial to ensure smooth gameplay and reduced input lag. The Lenovo 4ZC7A15138 DDR4 SDRAM's CL21 latency provides the necessary responsiveness for demanding gaming applications.
By minimizing the delay between the processor's request for data and the availability of that data in memory, low Cas Latency allows for near-instantaneous processing of game-related information. This translates into faster rendering of graphics, reduced screen tearing, and improved synchronization between player input and on-screen action.
Seamless Multitasking
The low Cas Latency of this memory module also contributes to efficient multitasking. When switching between applications or running multiple instances simultaneously, minimizing the latency ensures smooth transitions and optimal utilization of system resources.
With lower latency, the processor can access data from memory more quickly, enabling seamless multitasking without significant performance degradation. This is particularly advantageous for professionals who work with resource-intensive applications or individuals who frequently switch between various tasks throughout their workflow.
Efficient Content Creation
Content creators often deal with large files and complex projects that require frequent memory access. The low Cas Latency of the Lenovo 4ZC7A15138 DDR4 SDRAM enables efficient handling of such tasks by reducing the time required for data retrieval and processing.
Whether you are editing videos, working on graphic design projects, or composing music, having a memory module with low latency ensures that you can manipulate and render media files quickly. This translates into improved productivity, shorter rendering times, and a more efficient creative workflow.
Improved System Responsiveness
In addition to enhancing application performance, low Cas Latency also improves overall system responsiveness. The reduced delay in data access allows for quicker execution of commands and faster system operations.
With improved system responsiveness, you can experience a snappier user interface, faster application launches, and smoother interactions with your computer. This is particularly noticeable in tasks that involve frequent memory access, such as browsing the web, working with large datasets, or navigating complex software interfaces.
Ecc
The Lenovo 4ZC7A15138 DDR4 SDRAM has an Error Correcting Code (ECC) feature with a value of 1. ECC is a mechanism that detects and corrects errors in data stored in memory. This ensures data integrity and reliability, making the memory module highly suitable for critical applications and professional environments where data accuracy is paramount.
Data Integrity
The ECC feature of this memory module plays a crucial role in maintaining the integrity of stored data. It detects and corrects errors caused by cosmic rays, electrical interference, or other factors that can corrupt data during storage or transmission.
By detecting and correcting errors at the hardware level, ECC ensures that the data stored in memory remains accurate and consistent. This is particularly important for professionals working in fields such as finance, healthcare, or scientific research, where data accuracy is essential for making informed decisions or drawing reliable conclusions.
Reliability
The ECC feature also enhances the reliability of the Lenovo 4ZC7A15138 DDR4 SDRAM. By actively correcting errors, it mitigates the risk of system crashes, data corruption, or application failures caused by memory-related issues.
For businesses and organizations that rely on uninterrupted operation, having a memory module with ECC capabilities is crucial. It ensures that critical systems remain stable, reduces the likelihood of costly downtime, and safeguards against potential data loss or corruption.
Server Environments
ECC memory is particularly prevalent in server environments where uptime and data integrity are of utmost importance. The Lenovo 4ZC7A15138 DDR4 SDRAM's ECC feature makes it an ideal choice for servers running mission-critical applications or storing sensitive data.
In a server environment, even a single bit error can have significant consequences. ECC helps prevent such errors by detecting and correcting them in real-time. This ensures that the data stored on the server remains accurate and accessible, minimizing the risk of data loss or corruption.
Workstations and Professional Applications
Professionals working on demanding applications, such as 3D modeling, simulations, or video editing, can benefit from ECC memory. The Lenovo 4ZC7A15138 DDR4 SDRAM's ECC feature provides an added layer of protection against potential memory errors that could compromise project integrity or result in lost work.
With ECC memory, professionals can work confidently knowing that their data is protected against potential errors or corruption. This is particularly crucial when working on time-sensitive projects or handling large datasets where any loss or corruption could have significant consequences.
Data-Critical Environments
In environments where data accuracy is critical, such as financial institutions or scientific laboratories, the ECC feature ensures that calculations, simulations, and analyses are performed with precision. The Lenovo 4ZC7A15138 DDR4 SDRAM's ECC capability guarantees that the integrity of data is maintained throughout the processing, storage, and retrieval stages.
By eliminating or minimizing the chances of errors in critical data, ECC memory allows professionals to make informed decisions confidently. This is particularly important in fields where even minor errors can have far-reaching consequences, such as financial modeling, drug discovery, or climate research.
Registered
The Lenovo 4ZC7A15138 DDR4 SDRAM has a Registered (RDIMM) feature with a value of 1. Registered memory, also known as buffered memory, offers several benefits that make it an excellent choice for high-performance systems and server environments.
Increased Memory Capacity
Registered memory modules allow for higher memory capacities compared to their unregistered counterparts. By incorporating an additional register between the memory controller and the memory module, registered memory reduces the electrical load on the memory bus and enables more modules to be installed.
The Registered (RDIMM) feature of this Lenovo memory module ensures that you can maximize your system's memory capacity without sacrificing stability or performance. This is particularly advantageous for server environments or high-performance workstations that require extensive memory for resource-intensive applications.
Improved System Stability
Registered memory enhances system stability by reducing electrical load and signal noise on the memory bus. The additional register acts as a buffer between the memory controller and the individual memory modules, improving signal integrity and reducing the chances of data corruption or errors.
In server environments or systems running critical applications, stability is crucial to avoid system crashes, data loss, or downtime. The Registered (RDIMM) feature provides an added layer of reliability, ensuring that your system remains stable even under heavy workloads or intense computational tasks.
Server Environments
The Registered (RDIMM) feature is particularly prevalent in server environments, where stability, scalability, and reliability are paramount. Servers handling multiple users, virtualization, or running memory-intensive applications can benefit significantly from the enhanced memory capacity and stability provided by registered memory.
In a server environment, where the system must support numerous concurrent operations and handle heavy workloads, the Registered (RDIMM) feature allows for a higher number of memory modules to be installed. This translates into increased memory capacity and improved overall system performance.
High-Performance Computing
High-performance computing (HPC) systems demand robust memory solutions to handle the complex calculations and massive datasets involved. The Registered (RDIMM) feature of the Lenovo 4ZC7A15138 DDR4 SDRAM makes it an excellent choice for HPC applications.
By leveraging registered memory, HPC systems can achieve higher memory capacities while maintaining stability and performance. This enables researchers, scientists, and engineers to tackle computationally demanding tasks with ease, such as numerical simulations, weather forecasting, or genome analysis.
Resource-Intensive Applications
Resource-intensive applications, such as video editing, 3D rendering, or scientific simulations, can benefit from the Registered (RDIMM) feature. These applications often require extensive memory to handle large datasets and perform complex operations.
With registered memory, professionals in these fields can ensure that their systems have sufficient memory capacity to handle their demanding workloads effectively. This allows for faster rendering times, smoother playback of high-resolution media, and more efficient manipulation of large files.