IBM 00MW772 Xeon E5-2695V4 18 Core 2.10GHz 45MB L3 Cache 9.6GT/S QPI Speed

Cores (18)

The IBM Xeon E5-2695V4 Processor is equipped with an impressive 18 cores, making it a powerhouse for handling demanding workloads. With each core capable of executing tasks independently, this processor offers exceptional multitasking capabilities and can handle multiple threads simultaneously. Whether you are running resource-intensive applications, virtual machines, or performing complex data analysis, the abundance of cores ensures smooth and efficient performance.

Increased Processing Power

Having 18 cores means that the IBM Xeon E5-2695V4 Processor can deliver significantly higher processing power compared to processors with fewer cores. This allows for faster data processing, quicker response times, and improved overall system performance. Whether you are a professional working on resource-intensive tasks or a gamer seeking seamless gameplay, this processor's abundant cores ensure a smooth and uninterrupted experience.

Efficient Task Distribution

The large number of cores in the IBM Xeon E5-2695V4 Processor enables efficient task distribution. Each core can handle a specific task, allowing for better resource allocation and workload balancing. This results in optimized performance across various applications and prevents bottlenecks that may occur with processors having fewer cores. The efficient task distribution ensures that you can run multiple applications simultaneously without experiencing any significant slowdowns.

Improved Multitasking

Multitasking becomes a breeze with the IBM Xeon E5-2695V4 Processor's 18 cores. Whether you are running complex simulations, editing high-resolution videos, or working with multiple virtual machines, this processor can handle it all without breaking a sweat. The abundance of cores allows for smooth multitasking without compromising performance, ensuring that you can work efficiently and seamlessly switch between tasks without any lag or delays.

Enhanced Performance for Parallel Computing

Parallel computing is a computing technique that utilizes multiple processors or cores to perform complex calculations simultaneously. The 18 cores in the IBM Xeon E5-2695V4 Processor make it an ideal choice for parallel computing tasks. Whether you are engaged in scientific research, financial modeling, or artificial intelligence, this processor's vast number of cores can significantly speed up computations and reduce processing time, enabling you to achieve results faster.

Base Clock Speed (2.10GHz)

The base clock speed of the IBM Xeon E5-2695V4 Processor is set at 2.10GHz. This clock speed determines the rate at which the processor's cores execute instructions and perform calculations. Although it may seem lower compared to some other processors, the base clock speed should not be underestimated as it plays a crucial role in determining overall performance.

Efficient Execution of Instructions

A higher base clock speed allows the IBM Xeon E5-2695V4 Processor to execute instructions more quickly. This translates into faster data processing and improved overall system responsiveness. Whether you are launching applications, loading files, or performing calculations, a higher base clock speed ensures that tasks are completed swiftly, resulting in a more efficient and productive computing experience.

Optimized Single-Threaded Performance

While multiple cores enable efficient parallel processing, certain tasks still rely on single-threaded performance. The IBM Xeon E5-2695V4 Processor's base clock speed of 2.10GHz ensures optimized performance for such tasks. Applications that do not utilize multiple cores extensively can benefit from the higher clock speed, as the processor can focus its resources on executing instructions sequentially at a faster rate.

Better Responsiveness in Single-Threaded Applications

Some applications, such as certain games and productivity software, may heavily rely on single-threaded performance. The 2.10GHz base clock speed of the IBM Xeon E5-2695V4 Processor ensures that these applications run smoothly and responsively. You can enjoy seamless gameplay, rapid photo editing, and smooth video rendering without any noticeable lag or delays.

Overclocking Potential

The base clock speed of the IBM Xeon E5-2695V4 Processor provides a solid foundation for overclocking. Overclocking is the process of increasing the clock speed of a processor to achieve higher performance. With a base clock speed of 2.10GHz, users have the potential to push the limits and achieve even higher speeds through overclocking techniques. This allows for further customization and optimization of performance based on specific requirements and preferences.

L3 Cache (45MB)

The IBM Xeon E5-2695V4 Processor is equipped with a generous 45MB of L3 cache. The L3 cache serves as a high-speed memory buffer that stores frequently accessed data, improving overall system performance by reducing memory latency and enhancing data retrieval efficiency.

Improved Data Access Speed

With 45MB of L3 cache, the IBM Xeon E5-2695V4 Processor provides faster access to frequently used data. This results in reduced data retrieval times and improved overall system responsiveness. Whether you are working with large datasets, running memory-intensive applications, or multitasking across various programs, the ample L3 cache ensures that data is readily available for quick access, minimizing any potential bottlenecks.

Enhanced CPU Performance

The large L3 cache size of the IBM Xeon E5-2695V4 Processor contributes to enhanced CPU performance. The processor can store more data closer to the cores, reducing the need to fetch data from slower main memory. This results in improved computational efficiency and faster execution of instructions. The ample L3 cache allows the processor to quickly access the necessary data, enabling it to perform calculations and process tasks more efficiently.

Smooth Multitasking Experience

The generous L3 cache size plays a crucial role in facilitating smooth multitasking. When switching between different applications or tasks, the L3 cache stores frequently accessed data, allowing for quick retrieval when needed. This reduces the time spent waiting for data to be fetched from main memory and ensures seamless transitions between tasks, providing a smooth and uninterrupted multitasking experience.

Improved Gaming Performance

Gaming enthusiasts can benefit from the large L3 cache of the IBM Xeon E5-2695V4 Processor. Games often require rapid access to various game assets, textures, and other data. The ample L3 cache ensures that these data are readily available, reducing loading times and improving overall gaming performance. Gamers can enjoy smoother gameplay with reduced stuttering and faster level loading times.

QPI Speed (9.6GT/S)

The IBM Xeon E5-2695V4 Processor features a QuickPath Interconnect (QPI) speed of 9.6 GT/s (GigaTransfers per second). QPI is a high-speed interconnect technology that facilitates communication between the processor cores and other components within the system, such as memory modules and peripherals.

High-Speed Data Transfer

The 9.6 GT/s QPI speed of the IBM Xeon E5-2695V4 Processor ensures fast and efficient data transfer between the processor and other system components. This high-speed interconnect technology minimizes latency and allows for quick communication, resulting in improved overall system performance. Whether you are transferring large files, accessing memory modules, or utilizing peripheral devices, the high-speed QPI ensures smooth and rapid data transfer.

Optimized Memory Access

QPI plays a crucial role in optimizing memory access. The 9.6 GT/s QPI speed of the IBM Xeon E5-2695V4 Processor ensures that data can be efficiently transferred to and from memory modules. This reduces memory latency and maximizes memory bandwidth, resulting in improved overall system responsiveness and faster data processing. Applications that heavily rely on memory access, such as large-scale database operations or virtualization, can benefit significantly from the optimized memory access provided by the high-speed QPI.

Enhanced Scalability

The high-speed QPI of the IBM Xeon E5-2695V4 Processor enhances system scalability. Scalability refers to the ability of a system to handle increasing workloads and accommodate additional components or processors. The 9.6 GT/s QPI speed allows for efficient communication between processors in multi-processor systems, enabling them to work together seamlessly without performance bottlenecks. This makes the processor an excellent choice for high-performance computing environments that require scalable processing power.

Improved Peripheral Performance

The high-speed QPI also benefits peripheral devices connected to the IBM Xeon E5-2695V4 Processor. Devices such as graphics cards, storage drives, and network cards can communicate with the processor more efficiently, thanks to the 9.6 GT/s QPI speed. This results in improved overall system performance, faster data transfers to and from peripheral devices, and reduced response times. Whether you are performing graphics-intensive tasks, data-intensive storage operations, or high-bandwidth networking, the high-speed QPI ensures optimal performance across various peripherals.

Socket (FCLGA2011)

The IBM Xeon E5-2695V4 Processor utilizes the FCLGA2011 (Flip-Chip Land Grid Array 2011) socket. The socket serves as the physical interface between the processor and the motherboard, allowing for secure and efficient connectivity.

Compatibility

The FCLGA2011 socket ensures compatibility with the corresponding motherboard, allowing for a hassle-free installation process. When upgrading or building a system, it is important to ensure that the processor and motherboard are compatible. The FCLGA2011 socket eliminates any compatibility concerns, making it easier for users to select compatible components and build a reliable system.

Secure Connection

The FCLGA2011 socket provides a secure connection between the processor and the motherboard. The Flip-Chip design ensures that the processor's contact pads align perfectly with the motherboard's pins, creating a solid and reliable connection. This minimizes the risk of loose connections or intermittent contact, which can lead to system instability or failure. The secure socket connection ensures that the processor operates reliably under heavy workloads and maintains stable performance.

Efficient Heat Dissipation

The FCLGA2011 socket facilitates efficient heat dissipation from the processor. The socket design allows for easy installation of a compatible heatsink or cooling solution, ensuring that heat generated by the processor is effectively transferred away from the critical components. Efficient heat dissipation is essential for maintaining optimal operating temperatures and preventing thermal throttling, which can impact performance. The FCLGA2011 socket's design ensures that heat is efficiently managed, allowing the processor to operate at its full potential.

Scalability

The FCLGA2011 socket supports scalability, allowing for future upgrades and expansion. Users can choose processors compatible with the FCLGA2011 socket and easily upgrade their systems in the future without having to change the motherboard. This provides flexibility and extends the lifespan of the system, ensuring that it can adapt to evolving computing needs and technologies.

Power (120W)

The IBM Xeon E5-2695V4 Processor has a power rating of 120W. The power rating indicates the amount of electrical power the processor consumes under normal operating conditions.

Efficient Power Consumption

The 120W power rating of the IBM Xeon E5-2695V4 Processor ensures efficient power consumption. The processor is designed to deliver high performance while minimizing energy usage. This results in reduced electricity costs and a smaller environmental footprint. Whether you are running a data center, a workstation, or a personal computer, the efficient power consumption of this processor contributes to lower energy bills and promotes sustainability.

Cooler Operation

Efficient power consumption also leads to cooler operation. The IBM Xeon E5-2695V4 Processor's 120W power rating ensures that it generates less heat compared to processors with higher power ratings. This reduces the strain on cooling systems and helps maintain optimal operating temperatures. Cooler operation not only contributes to system stability but also prolongs the lifespan of critical components, ensuring reliable performance over extended periods.

Reduced Environmental Impact

The efficient power consumption of the IBM Xeon E5-2695V4 Processor translates into a reduced environmental impact. By consuming less electricity, this processor reduces carbon emissions and helps conserve natural resources. Whether you are a business aiming to reduce your carbon footprint or an environmentally conscious individual, the 120W power rating of this processor aligns with sustainable practices and contributes to a greener future.

Compliance with Energy Efficiency Standards

The efficient power consumption of the IBM Xeon E5-2695V4 Processor ensures compliance with energy efficiency standards. This processor meets the requirements set by various organizations, such as ENERGY STAR, which promote energy-efficient computing solutions. Compliance with these standards not only ensures optimal performance but also demonstrates a commitment to responsible energy consumption and sustainability.

Manufacturing Technology (14nm)

The IBM Xeon E5-2695V4 Processor is manufactured using a 14nm (nanometer) process technology. The manufacturing technology refers to the size of the transistors and other components on the processor's integrated circuit.

Enhanced Performance

The 14nm manufacturing technology allows for the creation of smaller transistors, which results in higher transistor density on the processor's integrated circuit. This increased transistor density enables improved performance by allowing more transistors to be packed into a smaller space. The IBM Xeon E5-2695V4 Processor benefits from this enhanced performance, delivering faster data processing, improved multitasking capabilities, and better overall system responsiveness.

Energy Efficiency

The 14nm manufacturing technology contributes to enhanced energy efficiency. Smaller transistors require less power to operate compared to larger transistors. This results in reduced power consumption and lower heat generation, leading to increased energy efficiency. The IBM Xeon E5-2695V4 Processor's 14nm manufacturing technology ensures optimal performance while minimizing energy usage, making it an excellent choice for energy-conscious users who seek both power and efficiency.

Heat Dissipation

The 14nm manufacturing technology also facilitates efficient heat dissipation. Smaller transistors generate less heat, allowing for easier heat dissipation from the processor. This helps maintain optimal operating temperatures and prevents thermal throttling, which can impact performance. The IBM Xeon E5-2695V4 Processor's 14nm manufacturing technology ensures that heat is effectively managed, ensuring reliable and consistent performance even under heavy workloads.

Future-Proofing

Choosing a processor with advanced manufacturing technology like the 14nm process ensures future-proofing to some extent. As technology advances, smaller and more efficient transistors become the norm. By selecting a processor with a 14nm manufacturing technology, users can enjoy the benefits of cutting-edge technology while ensuring compatibility with upcoming software and hardware advancements.

Part Number (00MW772)

The IBM Xeon E5-2695V4 Processor has the part number 00MW772. The part number serves as a unique identifier for the processor and helps in identifying the specific model or variant.

Product Identification

The part number, 00MW772, allows for easy identification of the IBM Xeon E5-2695V4 Processor. When purchasing or researching processors, the part number helps ensure that the correct model is selected. This avoids any confusion or compatibility issues that may arise from using incorrect or incompatible models.

Warranty and Support

The part number is often required when seeking warranty support or technical assistance. When contacting customer support or service centers, providing the part number helps in obtaining accurate and relevant information pertaining to the specific processor model. This ensures a smooth and efficient support experience, allowing users to resolve any issues promptly.

Compatibility Verification

The part number can also be used to verify compatibility with other system components. By cross-re