Description
Product overview of HPE 1.8GHz Processor
The 819846-B21 HPE Intel Xeon E5-2630LV4 is a processor designed to meet the demands of modern computing applications. It is an important component of high-performance computing systems that require fast, reliable, and energy-efficient processing power. In this article, we will explain in detail what this processor is, its features, and its benefits for users.
Features
The 819846-B21 HPE Intel Xeon E5-2630LV4 Processor is a 10-core processor with a base clock speed of 1.8GHz. It is built using a 14nm manufacturing process, which makes it energy-efficient while providing high performance. The processor has a 25MB L3 cache, which helps to reduce data access times and improve the overall performance of the system.
The processor uses the Socket FCLGA 2011 socket, which is designed for high-performance computing systems. This socket provides support for quad-channel memory, which allows for faster data transfer rates between the processor and memory. The processor also supports up to 768GB of RAM, which is a significant amount of memory that can support complex computing workloads.
The processor has a QPI speed of 8GT/s, which stands for “GigaTransfers per second.” QPI is a high-speed interface that connects the processor to other components in the system, such as the chipset and memory. This high-speed connection allows for fast data transfer rates and improved system performance.
The processor has a TDP of 55W, which stands for “Thermal Design Power.” TDP is a measure of the maximum amount of heat that a processor generates under normal operating conditions. A lower TDP means that the processor is more energy-efficient, which can lead to lower power consumption and reduced energy costs.
Benefits of the 819846-B21 Intel Xeon E5-2630LV4 Processor
There are several benefits to using the 819846-B21 HPE Intel Xeon E5-2630LV4 Processor. Some of these benefits include:
- High Performance: The processor is designed for high-performance computing workloads. Its 10 cores and high clock speed allow for fast processing of complex data sets, making it an ideal choice for applications such as scientific simulations, financial modeling, and data analytics.
- Energy Efficiency: The processor has a low TDP of 55W, which means that it consumes less power than other processors with similar performance capabilities. This makes it an ideal choice for energy-efficient computing systems, such as those used in data centers and cloud computing environments.
- Memory Support: The processor supports up to 768GB of RAM, which is a significant amount of memory that can support complex computing workloads. This high memory capacity allows for faster data access and improved system performance.
- High-Speed Interface: The processor uses a high-speed QPI interface that allows for fast data transfer rates between the processor and other components in the system. This high-speed connection helps to improve system performance and reduce data access times.
- Scalability: The processor is designed to be scalable, which means that it can be used in systems with multiple processors. This allows for even higher levels of performance and improved system scalability.
Overall, the 819846-B21 HPE Intel Xeon E5-2630LV4 Processor is a high-performance processor that is designed for modern computing workloads. Its 10 cores, high clock speed, and low TDP make it an ideal choice for energy-efficient computing systems that require fast and reliable processing power. The processor’s support for quad-channel memory, high-speed QPI interface
General Information
- Product type : server processor
- Model Number or SKU# 819846-B21
- Product model : E5-2630LV4
Technical Information
- Processor core : 10-core
- Clock speed : 1.8GHz
- Max turbo frequency : 2.9GHz
- Quick path interconnect(QPI) speed : 8GT/S
- No of QPI links: 2
- Instruction set : 64-bit
- Instruction set extensions : AVX 2.0
- CACHE MEMORY DETAIL :
- • L3 cache : 25MB
- Lithography : 14NM
- Max thermal design power (TDP) : 55W
- Compatible processor socket : FCLGA-2011.
