Description
Product Information of the Dell Intel Xeon E5-2699V4 Processor
The Dell Intel Xeon E5-2699V4 Processor is a high-performance processor designed for use in servers and workstations. It features 22 cores, a base clock speed of 2.2GHz, and a large 55MB L3 cache. This processor is built using Intel’s advanced 14nm manufacturing process, which delivers excellent performance while maintaining power efficiency.
In this article, we will explore the features and capabilities of the Dell Intel Xeon E5-2699V4 Processor in detail. We will explain what each of its specifications means and how they contribute to its overall performance. We will also discuss the benefits of using this processor in different applications and use cases.
Features and Specifications of the Dell Intel Xeon E5-2699V4 Processor
The Dell Intel Xeon E5-2699V4 Processor is a powerful processor that delivers exceptional performance. It features 22 cores, which means it can handle up to 44 threads simultaneously with Intel’s Hyper-Threading technology. This makes it an ideal choice for applications that require high computational power, such as data analysis, scientific simulations, and virtualization.
The processor has a base clock speed of 2.2GHz, which can be boosted up to 3.6GHz with Intel’s Turbo Boost technology. This allows the processor to deliver fast and responsive performance, even when running resource-intensive applications.
One of the key features of the Dell Intel Xeon E5-2699V4 Processor is its large 55MB L3 cache. The cache is a small amount of high-speed memory that is used to store frequently accessed data. By storing this data in the cache, the processor can access it quickly and reduce the time it takes to fetch data from main memory. This results in faster performance and improved overall system responsiveness.
The processor also features a fast QPI (QuickPath Interconnect) speed of 9.6GT/s. QPI is a high-speed interconnect technology that is used to connect processors to other components in a system, such as memory and I/O devices. A fast QPI speed means that the processor can communicate with other components quickly and efficiently, reducing latency and improving overall system performance.
The Dell Intel Xeon E5-2699V4 Processor is designed to work with Socket FCLGA2011, which is a socket used in high-end servers and workstations. The processor has a thermal design power (TDP) of 145W, which means it consumes up to 145 watts of power when running at full capacity. This is a relatively high power consumption, but it is necessary to deliver the high performance that this processor is capable of.
Benefits of Using the Dell Intel Xeon E5-2699V4 Processor
The Dell Intel Xeon E5-2699V4 Processor is a versatile processor that can be used in a variety of applications and use cases. Here are some of the benefits of using this processor:
- High performance: The Dell Intel Xeon E5-2699V4 Processor is a high-performance processor that is capable of handling even the most demanding workloads. It features 22 cores and a large L3 cache, which means it can handle a large number of threads simultaneously and access frequently used data quickly.
- Energy efficient: Despite its high performance, the Dell Intel Xeon E5-2699V4 Processor is designed to be power efficient. It is built using Intel’s advanced 14nm manufacturing process, which delivers excellent performance while maintaining power efficiency.
- Scalability: The Dell Intel Xeon E5-2699V4 Processor is designed to work in multi-processor configurations, which means that it can be used
General Information
- Product Type : Server Processor
- Product Manufacturer : Dell
- Manufacturer Part Number : 338-BJFK
- Product Model : E5-2699V4
Technical Information
- Processor Core : 22-Core
- Clock Speed : 2.2GHz
- Max Turbo Frequency : 3.6GHz
- Quickpath Interconnect(Qpi) Speed : 9.6GT/S
- No Of Qpi Links: 2
- Instruction Set : 64-BIT
- Instruction Set Extensions : AVX 2.0
CACHE MEMORY DETAIL
- L3 Cache : 55MB
- Lithography : 14NM
- Max Thermal Design Power (Tdp) : 145W
- Compatible Processor Socket : FCLGA2011