HPE 864654-001 Intel Xeon E5-2699V4 22-Core 2.2GHz 55MB L3 Cache Processor
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Product Overview
The HPE Intel Xeon E5-2699V4 CPU Kit is a powerful 22-core processor designed specifically for HP Z640 and Z840 workstations. With a base frequency of 2.2GHz and a turbo boost frequency up to 3.6GHz, this processor offers excellent performance for demanding applications.
Key Specifications
- Manufacturer: HPE
- Part Number: 864654-001
- CPU Model: Intel Xeon E5-2699V4
- Core Count: 22 cores
- Threads: 44 threads
- Base Clock Speed: 2.2 GHz
- Max Turbo Frequency: 3.6 GHz
- Intel Smart Cache: 55MB
- Intel QPI Speed: 9.6 GT/s
- Socket Type: FCLGA2011
- TDP: 145W
Compatibility
- Compatible with HP Z640 and HP Z840 workstations.
- Designed for use as a replacement CPU only; cooling device not included.
- Supports only 2S scalability.
Advanced Features
- Intel Turbo Boost Technology 2.0: Automatically increases processor speed for demanding tasks.
- Intel vPro Technology: Enterprise-level remote management capabilities.
- Intel Hyper-Threading: Enhances multitasking by allowing multiple threads per core.
- Intel Virtualization Technology (VT-x): Supports virtualization for running multiple OS environments.
- Intel VT-d: Enables virtualization with direct input/output support.
- Intel TSX-NI: Supports transactional synchronization extensions for more efficient processing.
- Intel SpeedStep Technology: Allows dynamic adjustment of voltage and frequency to reduce power consumption.
- Intel Demand-Based Switching: Optimizes power usage based on workload demands.
- Intel Thermal Monitoring Technology: Ensures safe operation by monitoring temperature and adjusting performance.
Security Features
- Intel AES New Instructions (AES-NI): Accelerates encryption and decryption processes for enhanced security.
- Secure Key: Provides hardware-based protection for sensitive data.
- Intel Trusted Execution Technology: Enhances platform security for sensitive applications.
- Execute Disable Bit Support: Helps protect against certain types of malicious attacks.
Additional Technologies
- 64-Bit Support: Full 64-bit architecture for handling larger data sets and more memory.
- Idle States Support: Reduces energy consumption when the processor is not in active use.
- Enhanced Intel SpeedStep Technology: Further optimizes power efficiency by dynamically adjusting processor performance.
Core
Introduction
The HPE Xeon E5-2699V4 Processor is a powerful and advanced processor that is designed to deliver exceptional performance for demanding workloads. One of its key features is the number of cores it offers, with a total of 22 cores.
Benefits of 22 Cores
Having 22 cores provides several benefits for users who require high-performance computing. Here are some of the key advantages:
1. Increased Parallelism
With 22 cores, the processor can handle a larger number of tasks simultaneously. This means that users can run multiple applications or perform complex computations without experiencing any lag or slowdown in performance. It is particularly useful for professionals working in fields such as data analysis, scientific research, and financial modeling, where parallel processing is essential.
2. Improved Multitasking
The large number of cores allows for efficient multitasking. Users can seamlessly switch between different applications or run multiple virtual machines without any noticeable impact on performance. This is especially beneficial for professionals who need to run resource-intensive software or work with multiple virtual environments simultaneously.
3. Enhanced Performance for CPU-Intensive Workloads
CPU-intensive tasks, such as rendering high-resolution graphics or running complex simulations, can benefit greatly from the increased number of cores. The 22 cores provide the processing power needed to handle these demanding tasks efficiently, resulting in faster completion times and improved productivity.
4. Scalability and Future-Proofing
The 22-core configuration ensures scalability and future-proofing for users. As software and applications continue to evolve and demand more processing power, having a higher number of cores enables users to meet these requirements without the need for an immediate upgrade.
Base Clock Speed
Introduction
The HPE Xeon E5-2699V4 Processor boasts a base clock speed of 2.2GHz, making it a high-performance processor for various applications.
Benefits of 2.2GHz Base Clock Speed
The base clock speed of a processor determines its overall performance and responsiveness. Here are some of the benefits of the 2.2GHz base clock speed:
1. Faster Processing
A higher base clock speed allows for faster processing of instructions, resulting in quicker data retrieval and computation. This is particularly crucial for tasks that require real-time data processing or heavy calculations, such as gaming, video editing, and 3D modeling. The 2.2GHz base clock speed ensures smooth and efficient performance in these demanding scenarios.
2. Improved Single-Core Performance
While the number of cores is essential for parallel processing, the base clock speed primarily affects single-core performance. Applications that are not optimized for multi-threading can benefit from a higher base clock speed as it allows a single core to handle tasks more efficiently. This is especially relevant for everyday computing tasks, such as web browsing, document editing, and multimedia playback.
3. Enhanced Responsiveness
The 2.2GHz base clock speed contributes to a more responsive computing experience. It reduces latency and ensures that applications launch quickly, files load promptly, and the overall system feels snappy and agile. This is particularly noticeable when working with resource-intensive software or multitasking on a system with demanding requirements.
4. Overclocking Potential
For users who require even more processing power, the 2.2GHz base clock speed provides a solid foundation for overclocking. Overclocking allows users to push the processor beyond its default settings to achieve higher clock speeds and improved performance. With a higher base clock speed, users have more headroom for overclocking and can extract additional power from the processor when needed.
L3 Cache
Introduction
The HPE Xeon E5-2699V4 Processor features a generous L3 cache size of 55MB. The L3 cache plays a crucial role in improving overall system performance.
Benefits of 55MB L3 Cache
The L3 cache is a high-speed memory storage area that stores frequently accessed data to reduce memory latency and improve overall performance. Here are the benefits of the 55MB L3 cache:
1. Faster Data Access
With a larger L3 cache, the processor can store more frequently accessed data closer to the cores, reducing the time required to retrieve information from the main memory. This results in faster data access and improved application responsiveness. Tasks that heavily rely on data retrieval, such as database queries or content creation software, can benefit significantly from the larger L3 cache size.
2. Reduced Memory Latency
The L3 cache acts as a buffer between the processor cores and the main memory. By storing frequently accessed data in the cache, the processor can avoid accessing the slower main memory, reducing memory latency. This leads to faster overall system performance and a smoother user experience, especially when working with large datasets or memory-intensive applications.
3. Improved Multi-Core Performance
The larger L3 cache size is particularly beneficial for multi-core performance. As more cores access the same cache, having a larger cache minimizes the chances of conflicts and improves overall efficiency. This allows for better utilization of processing power and increased throughput in multi-threaded applications.
4. Better Gaming Performance
Gaming enthusiasts can also benefit from the 55MB L3 cache. Many modern games rely heavily on data streaming, requiring quick access to textures, models, and other assets. With a larger cache, the processor can store more game-related data, reducing loading times and improving in-game performance. This results in smoother gameplay, reduced stuttering, and an overall enhanced gaming experience.
Qpi Speed
Introduction
The HPE Xeon E5-2699V4 Processor offers a QPI (QuickPath Interconnect) speed of 9.6GT/s. The QPI speed is a critical factor in determining the communication speed between the processor and other system components.
Benefits of 9.6GT/s QPI Speed
The QPI speed affects the overall system performance and data transfer rates. Here are some of the key benefits of the 9.6GT/s QPI speed:
1. Faster Data Transfer
A higher QPI speed allows for faster data transfer between the processor and other system components, such as memory modules or peripheral devices. This is particularly important for tasks that involve frequent data exchange, such as database operations or file transfers. The 9.6GT/s QPI speed ensures smooth and efficient data transfer, reducing potential bottlenecks and improving overall system responsiveness.
2. Improved System Scalability
The higher QPI speed contributes to improved system scalability, especially in multi-processor configurations. It enables efficient communication between multiple processors, allowing them to work together seamlessly. This is crucial for high-performance computing environments where multiple processors need to collaborate on complex tasks or distributed computing systems.
3. Enhanced Memory Performance
The QPI speed directly affects memory performance by influencing the bandwidth available for data transfer between the processor and memory modules. A higher QPI speed allows for faster memory access, reducing latency and improving overall system performance. This is particularly relevant for memory-intensive applications or scenarios that require rapid data retrieval from the memory subsystem.
4. Future-Proofing
The 9.6GT/s QPI speed ensures compatibility and future-proofing for users. As technology advances and faster system components become available, having a higher QPI speed allows users to take advantage of these advancements without the need for an immediate upgrade. It ensures that the system remains capable of handling demanding workloads and emerging technologies in the future.
Socket
Introduction
The HPE Xeon E5-2699V4 Processor features the FCLGA2011-3 socket, which is designed for high-performance server and workstation systems.
Benefits of FCLGA2011-3 Socket
The socket type determines the physical interface between the processor and the motherboard. Here are some of the benefits of the FCLGA2011-3 socket:
1. High Performance
The FCLGA2011-3 socket is specifically designed for high-performance computing systems. It provides a robust and reliable connection between the processor and the motherboard, ensuring efficient data transfer and minimal signal loss. This results in optimal performance for demanding workloads, such as data analysis, virtualization, or content creation.
2. Scalability
The FCLGA2011-3 socket supports multi-processor configurations, allowing users to scale their systems as needed. This is particularly important for server environments or workstations that require high computational power or need to handle multiple concurrent tasks. The socket's scalability ensures that users can expand their systems without limitations, accommodating future growth and increasing performance as required.
3. Compatibility with High-Speed Memory
The FCLGA2011-3 socket is compatible with high-speed memory modules, such as DDR4, which offer faster data transfer rates and increased bandwidth. This allows users to take full advantage of the processor's capabilities and ensures optimal performance when working with memory-intensive applications or large datasets.
4. Long-Term Support
The FCLGA2011-3 socket has been widely adopted by server and workstation manufacturers, guaranteeing long-term support and availability of compatible hardware. Users can rely on the FCLGA2011-3 socket for future upgrades or replacement parts, ensuring the longevity of their systems and minimizing compatibility issues.
Power
Introduction
The HPE Xeon E5-2699V4 Processor has a power rating of 145W. The power rating indicates the amount of electrical power required to operate the processor under typical workload conditions.
Benefits of 145W Power Rating
The power rating is an important consideration for system builders and users concerned with power consumption and thermal management. Here are the benefits of the 145W power rating:
1. Performance-Optimized Design
The 145W power rating reflects a performance-optimized design that allows the processor to deliver exceptional performance without compromising on efficiency. It provides the necessary power to drive demanding workloads while maintaining stable operation and preventing thermal throttling.
2. Efficient Power Management
Despite its high power rating, the HPE Xeon E5-2699V4 Processor incorporates advanced power management technologies that optimize energy usage. These technologies dynamically adjust power consumption based on workload demands, ensuring that the processor operates efficiently and minimizes power wastage when idle or under light loads. This results in lower energy costs and a reduced environmental footprint.
3. Compatibility with Existing Power Infrastructure
The 145W power rating makes the processor compatible with standard power supply units and existing power infrastructure commonly found in server and workstation systems. Users can seamlessly integrate the processor into their current setups without the need for additional power upgrades or modifications, saving time and resources.
4. Thermal Management
The higher power rating requires robust thermal management solutions to dissipate the heat generated by the processor effectively. The HPE Xeon E5-2699V4 Processor incorporates advanced thermal design features, such as integrated heat spreaders and efficient cooling technologies, to ensure that the processor operates within safe temperature limits. This promotes system stability, prolongs the lifespan of components, and prevents performance degradation due to overheating.
Manufacturing Technology
Introduction
The HPE Xeon E5-2699V4 Processor is manufactured using a 14nm process technology. The manufacturing technology refers to the size of the transistors used in the processor's fabrication.
Benefits of 14nm Manufacturing Technology
The 14nm manufacturing technology offers several advantages in terms of performance, power efficiency, and transistor density. Here are some of the benefits:
1. Improved Performance
The smaller transistor size allows for more transistors to be packed into a given area, resulting in increased processing power and improved performance. This is achieved by reducing the distance between transistors, enabling faster electrical signals and minimizing signal degradation. The 14nm manufacturing technology ensures that the HPE Xeon E5-2699V4 Processor delivers exceptional performance for demanding workloads.
2. Enhanced Power Efficiency
With a smaller transistor size, the processor can operate at lower voltages while maintaining high performance levels. This leads to improved power efficiency and reduced energy consumption. The 14nm manufacturing technology allows the HPE Xeon E5-2699V4 Processor to deliver high performance while minimizing power requirements, resulting in lower energy costs and reduced environmental impact.
3. Higher Transistor Density
The 14nm manufacturing technology enables a higher transistor density, allowing for more complex circuitry and larger caches within the same physical space. The increased transistor density translates into better memory performance, improved cache efficiency, and enhanced multi-core scalability. Users can benefit from faster data access and increased computational power when working with memory-intensive applications or running multiple tasks simultaneously.
4. Future-Proofing
The 14nm manufacturing technology ensures that the HPE Xeon E5-2699V4 Processor remains competitive and future-proofed for years to come. As manufacturing processes continue to advance, having a processor built on a smaller node ensures compatibility with emerging technologies and allows users to take advantage of future improvements in performance, power efficiency, and feature sets.
Part Number
Introduction
The HPE Xeon E5-2699V4 Processor is identified by the part number 864654-001. The part number serves as a unique identifier for the specific processor model.
Benefits of 864654-001 Part Number
The part number plays a crucial role in ensuring accurate identification and compatibility. Here are some of the benefits of the 864654-001 part number:
1. Accurate Identification
The unique part number allows users to accurately identify the HPE Xeon E5-2699V4 Processor model, ensuring compatibility with other system components and avoiding potential compatibility issues. It simplifies the process of ordering replacement parts or upgrades, as users can confidently select the specific processor they require based on the part number.
2. Seamless Integration
The 864654-001 part number ensures seamless integration of the processor into compatible server or workstation systems. Manufacturers and system builders can easily reference the part number to verify compatibility with specific socket types, motherboard chipsets, and other hardware requirements. This simplifies the system integration process, reduces the risk of incompatibility, and ensures optimal performance.
3. Warranty and Support
The part number serves as a reference for warranty and support purposes. Users can provide the part number when seeking technical assistance or warranty services, ensuring that they receive accurate and timely support. Additionally, manufacturers can use the part number to track the production batch, manufacturing date, and other relevant information, facilitating efficient customer service and product management.
4. Documentation and Specifications
The specific part number allows users to access detailed documentation, specifications, and technical information related to the HPE Xeon E5-2699V4 Processor model. This includes datasheets, user manuals, compatibility guides, and software drivers. Users can leverage this information to make informed decisions, optimize system configurations, and troubleshoot any potential issues that may arise during operation.