IBM 00KG040 Intel Xeon E5 2699V3 2.3GHz 18 Core Processor

Clock Speed: 2.3GHz

The clock speed of the IBM Intel Xeon E5 2699V3 Processor is an essential feature that plays a crucial role in determining the overall performance and speed of the processor. With a clock speed of 2.3GHz, this processor offers impressive processing power, making it an ideal choice for demanding tasks and high-performance computing.

1. Enhanced Performance

The 2.3GHz clock speed allows the IBM Intel Xeon E5 2699V3 Processor to execute instructions at a rapid pace, resulting in enhanced performance. Whether you are running complex calculations, multitasking, or running resource-intensive applications, the high clock speed ensures smooth and efficient operations.

2. Seamless Multitasking

With a clock speed of 2.3GHz, this processor excels in multitasking scenarios. It can handle multiple tasks simultaneously without slowing down or compromising on performance. This is particularly beneficial for professionals who work with resource-intensive applications such as video editing software, 3D modeling tools, or data analysis programs.

3. Quick Response Times

The high clock speed enables the IBM Intel Xeon E5 2699V3 Processor to deliver quick response times, reducing any lag or delays in executing commands. This is particularly important in industries where real-time processing is critical, such as financial trading or online gaming, where even the slightest delay can have significant consequences.

4. Efficient Virtualization

Virtualization technology has become increasingly popular in modern computing environments. The 2.3GHz clock speed of this processor ensures efficient virtualization performance, allowing you to run multiple virtual machines without compromising on speed or responsiveness.

5. Improved Gaming Experience

For gaming enthusiasts, a high clock speed is essential for a smooth and immersive gaming experience. The IBM Intel Xeon E5 2699V3 Processor with its 2.3GHz clock speed ensures fast and responsive gameplay, minimizing lag and delivering high frame rates. Gamers can enjoy their favorite games without any performance bottlenecks.

Overall, the clock speed of 2.3GHz in the IBM Intel Xeon E5 2699V3 Processor provides users with enhanced performance, seamless multitasking, quick response times, efficient virtualization capabilities, and an improved gaming experience.

Core Count: 18

The core count is a critical factor to consider when evaluating the processing power of a CPU. The IBM Intel Xeon E5 2699V3 Processor boasts an impressive core count of 18, making it an ideal choice for tasks that require extensive parallel processing and multitasking capabilities.

1. Increased Parallel Processing

The 18 cores in the IBM Intel Xeon E5 2699V3 Processor allow for efficient parallel processing, enabling the CPU to execute multiple tasks simultaneously. This is particularly beneficial for tasks such as video rendering, scientific simulations, data analysis, and database management, where parallel processing can significantly reduce processing time.

2. Improved Multithreading

Each core in the processor can handle multiple threads simultaneously through Intel Hyper-Threading technology. This means that the IBM Intel Xeon E5 2699V3 Processor can handle up to 36 threads at once, further enhancing its multitasking capabilities. Applications that are optimized for multithreading can take full advantage of this feature, resulting in improved performance and responsiveness.

3. Enhanced Server Performance

In server environments, the high core count of the IBM Intel Xeon E5 2699V3 Processor enables efficient handling of multiple client requests simultaneously. This results in improved server performance, reduced response times, and increased throughput. Servers running applications such as web hosting, cloud computing, or database management can benefit significantly from the high core count.

4. Smooth Virtualization

Virtualization is a key technology in modern computing environments, allowing for efficient utilization of resources and improved scalability. The 18-core configuration of this processor ensures smooth virtualization performance, allowing for the seamless running of multiple virtual machines without any compromise in speed or responsiveness.

5. Future-Proofing

Investing in a processor with a high core count like the IBM Intel Xeon E5 2699V3 ensures future-proofing your system. As software becomes more optimized for multicore processors, having a higher core count allows your system to handle upcoming applications and workloads without the need for immediate upgrades.

In summary, the 18-core count of the IBM Intel Xeon E5 2699V3 Processor provides users with increased parallel processing capabilities, improved multitasking performance, enhanced server efficiency, smooth virtualization, and future-proofing their systems.

Cache: 45MB L3

The cache is a crucial component of a CPU that stores frequently accessed data to reduce the time it takes to retrieve information from main memory. The IBM Intel Xeon E5 2699V3 Processor features a generous 45MB L3 cache, offering several benefits for users.

1. Improved Performance

The large 45MB L3 cache of this processor allows for faster data access and retrieval. By storing frequently accessed data closer to the CPU cores, the processor can quickly retrieve information without having to fetch it from the main memory. This results in improved overall performance and reduced latency.

2. Reduced Memory Bottlenecks

With a larger cache size, the IBM Intel Xeon E5 2699V3 Processor can accommodate a greater amount of data, reducing the need for frequent access to the main memory. This reduces memory bottlenecks and ensures a smoother flow of data between the CPU and memory, resulting in improved system responsiveness.

3. Enhanced Multitasking

The large cache size enables the processor to store more data from multiple tasks, improving multitasking performance. This is particularly beneficial when running resource-intensive applications or working on large datasets simultaneously. The CPU can quickly switch between tasks without having to wait for data to be fetched from the main memory, leading to increased productivity.

4. Efficient Virtualization

Virtualization environments often require fast data access to ensure optimal performance. The 45MB L3 cache in the IBM Intel Xeon E5 2699V3 Processor provides efficient data storage and retrieval, allowing virtual machines to access frequently used data quickly. This results in improved virtualization performance and reduced latency.

5. Enhanced Gaming Experience

For gamers, a larger cache size can have a positive impact on gaming performance. The IBM Intel Xeon E5 2699V3 Processor's 45MB L3 cache ensures that frequently accessed game assets are readily available, reducing loading times and improving overall gameplay. Gamers can experience smoother gameplay with minimal lag or stuttering.

In conclusion, the 45MB L3 cache in the IBM Intel Xeon E5 2699V3 Processor offers improved performance, reduced memory bottlenecks, enhanced multitasking capabilities, efficient virtualization, and an enhanced gaming experience.

QPI Speed: 9.GT/S

The Quick Path Interconnect (QPI) speed is a critical feature that determines the speed at which data is transferred between the processor and other components within the system. The IBM Intel Xeon E5 2699V3 Processor boasts a QPI speed of 9.GT/S, offering several benefits for users.

1. Faster Data Transfer

The high QPI speed of 9.GT/S ensures faster data transfer between the processor and other components, such as memory modules or peripheral devices. This results in reduced latency and improved overall system performance. Applications that heavily rely on data transfer speeds, such as large-scale databases or high-performance computing tasks, can benefit significantly from the high QPI speed.

2. Improved System Responsiveness

The fast data transfer enabled by the high QPI speed enhances system responsiveness. Whether you are launching applications, accessing files, or performing any other tasks that involve data transfer, the IBM Intel Xeon E5 2699V3 Processor ensures quick and smooth operations, minimizing any delays or lags.

3. Efficient Communication between Components

The high QPI speed facilitates efficient communication between the processor and other components within the system. This is particularly important in multi-socket systems or server environments where multiple processors need to work together seamlessly. The high QPI speed allows for efficient coordination and synchronization between the processors, resulting in improved overall system performance.

4. Scalability and Upgradability

A high QPI speed like 9.GT/S ensures scalability and upgradability of the system. It allows for easy integration of additional processors or components without causing any bottlenecks in data transfer. This means that as your computing needs grow, you can easily expand your system's capabilities without sacrificing performance.

5. Reduced System Overhead

The high QPI speed minimizes system overhead by ensuring efficient data transfer. This reduces the time spent on data transmission, allowing the system to focus on executing tasks more efficiently. As a result, the IBM Intel Xeon E5 2699V3 Processor can deliver improved performance while utilizing system resources more effectively.

In summary, the 9.GT/S QPI speed of the IBM Intel Xeon E5 2699V3 Processor provides users with faster data transfer, improved system responsiveness, efficient communication between components, scalability and upgradability, and reduced system overhead.

Socket Type: Fclga2011 3

The socket type is an essential specification to consider when selecting a processor as it determines compatibility with the motherboard. The IBM Intel Xeon E5 2699V3 Processor features the Fclga2011 3 socket type, offering several benefits for users.

1. Wide Compatibility

The Fclga2011 3 socket type of this processor ensures compatibility with a wide range of motherboards designed to support this socket type. This makes it easier to find a suitable motherboard for your specific requirements, whether you are building a new system or upgrading an existing one.

2. Supports High-End Features

The Fclga2011 3 socket type is commonly found in motherboards that support high-end features such as multiple PCIe slots, advanced storage options, and extensive memory configurations. This allows users to take full advantage of the capabilities offered by the IBM Intel Xeon E5 2699V3 Processor and build a system that meets their specific needs, whether it's for gaming, content creation, or professional workloads.

3. Enhanced System Stability

The Fclga2011 3 socket type provides a secure and stable connection between the processor and the motherboard. This ensures reliable performance and reduces the chances of compatibility issues or system instability. Users can have peace of mind knowing that their system is built on a reliable and widely supported socket type.

4. Future-Proofing

Investing in a processor with the Fclga2011 3 socket type allows for future-proofing your system. As new processors are released in the future that are compatible with this socket type, you can easily upgrade your system without having to replace the entire motherboard. This ensures that your system can adapt to future advancements in processor technology.

5. Scalability

The Fclga2011 3 socket type supports multiple processors in a single system, allowing for scalable configurations. Users who require higher processing power can easily add additional processors to their system without the need for extensive hardware changes. This makes the IBM Intel Xeon E5 2699V3 Processor an excellent choice for users who anticipate future growth or have demanding workloads that require significant processing capabilities.

In conclusion, the Fclga2011 3 socket type of the IBM Intel Xeon E5 2699V3 Processor offers wide compatibility, support for high-end features, enhanced system stability, future-proofing capabilities, and scalability.

Manufacturing Technology: 22NM

The manufacturing technology of a processor refers to the size of the transistors and circuits used in its fabrication. The IBM Intel Xeon E5 2699V3 Processor is built using a 22nm manufacturing technology, providing several benefits for users.

1. Improved Energy Efficiency

The 22nm manufacturing technology allows for the creation of smaller transistors, resulting in improved energy efficiency. With smaller transistors, less power is required to switch them on and off, reducing power consumption and heat generation. This leads to lower energy costs and a cooler operating environment.

2. Increased Transistor Density

The smaller size of transistors made possible by the 22nm manufacturing technology allows for a higher density of transistors within the processor. This translates into increased processing power and improved performance. Users can expect faster and more efficient execution of tasks, whether it's running applications, rendering videos, or performing complex calculations.

3. Enhanced Heat Dissipation

The 22nm manufacturing technology also enables better heat dissipation. Smaller transistors generate less heat, allowing for more efficient cooling solutions. This is particularly important in systems that require high-performance computing or run resource-intensive applications for extended periods. The IBM Intel Xeon E5 2699V3 Processor can maintain optimal performance without overheating or thermal throttling.

4. Smaller Form Factors

The 22nm manufacturing technology allows for the creation of smaller and more compact processors. This is beneficial for systems with space constraints, such as small form factor PCs or densely populated server racks. The smaller form factor enables greater flexibility in system design and deployment options.

5. Compatibility with Existing Systems

The 22nm manufacturing technology ensures compatibility with existing systems that support processors built using this technology. This allows users to upgrade their systems without the need for major hardware changes or motherboard replacements. The IBM Intel Xeon E5 2699V3 Processor can seamlessly integrate into compatible systems, providing an easy and cost-effective upgrade path.

In summary, the 22nm manufacturing technology of the IBM Intel Xeon E5 2699V3 Processor offers improved energy efficiency, increased transistor density, enhanced heat dissipation, smaller form factors, and compatibility with existing systems.

Power Consumption: 145W

Power consumption is an important consideration when selecting a processor as it impacts energy efficiency, system cooling requirements, and overall operating costs. The IBM Intel Xeon E5 2699V3 Processor has a power consumption of 145W, offering several benefits for users.

1. Energy Efficiency

The 145W power consumption of this processor ensures energy efficiency without compromising on performance. The processor is designed to deliver optimal processing power while minimizing power consumption. This translates into lower energy costs and reduced environmental impact.

2. Reduced Operating Costs

The efficient power consumption of the IBM Intel Xeon E5 2699V3 Processor results in reduced operating costs. By consuming less power, the processor reduces energy bills and contributes to long-term cost savings. This is particularly beneficial for businesses or individuals who rely on systems that run continuously or have high computing demands.

3. Cooling Requirements

The 145W power consumption allows for more manageable cooling requirements. The processor generates less heat compared to high-power processors, reducing the need for elaborate cooling solutions. This can result in quieter operation, as well as lower maintenance and replacement costs for cooling systems.

4. Environmental Impact

The energy-efficient design of the IBM Intel Xeon E5 2699V3 Processor helps reduce the environmental impact of computing systems. By consuming less power, the processor reduces greenhouse gas emissions and minimizes the carbon footprint associated with its operation. This is increasingly important as businesses and individuals strive to adopt more sustainable practices.

5. Compatibility with Existing Infrastructure

The 145W power consumption makes the IBM Intel Xeon E5 2699V3 Processor compatible with existing infrastructure designed to support processors within this power range. This provides users with the flexibility to upgrade their systems without requiring extensive changes to power supply units or cooling systems. It also ensures a seamless integration of the processor into existing setups.

In conclusion, the 145W power consumption of the IBM Intel Xeon E5 2699V3 Processor offers energy efficiency, reduced operating costs, manageable cooling requirements, reduced environmental impact, and compatibility with existing infrastructure.