Description
Product Overview of Dell Intel Xeon E5-2695V3 14-Core
The 338-BGKS Dell Intel Xeon E5-2695V3 is a powerful processor that is designed for high-performance computing applications. It has 14 cores, 35MB of L3 cache, and a clock speed of 2.3GHz. The processor is built on the 22nm manufacturing process and is designed for the LGA2011-3 socket. The processor has a thermal design power of 120W and supports up to 768GB of DDR4 memory. In this article, we will take a closer look at the features and specifications of the 338-BGKS Dell Intel Xeon E5-2695V3 processor.
Architecture
The 338-BGKS Dell Intel Xeon E5-2695V3 processor is based on the Haswell microarchitecture. Haswell is the successor to the Ivy Bridge microarchitecture and was introduced in 2013. The Haswell microarchitecture introduced a number of improvements over its predecessor, including a more efficient pipeline, better branch prediction, and improved instruction set extensions.
Core Count and Clock Speed
The 338-BGKS Dell Intel Xeon E5-2695V3 processor has 14 cores, which allows it to process more tasks simultaneously. This is particularly useful for applications that require a lot of processing power, such as video editing, scientific computing, and rendering. The processor has a base clock speed of 2.3GHz, which can be boosted up to 3.3GHz with Intel’s Turbo Boost technology. The high clock speed ensures that the processor can handle demanding workloads and maintain optimal performance.
Cache Memory
The 338-BGKS Dell Intel Xeon E5-2695V3 processor has 35MB of L3 cache memory, which is shared among all 14 cores. Cache memory is a type of high-speed memory that stores frequently used data and instructions. The larger the cache memory, the more data can be stored, and the faster the processor can access it. The large amount of cache memory on the 338-BGKS Dell Intel Xeon E5-2695V3 processor ensures that it can handle complex tasks efficiently and quickly.
Socket and Manufacturing Process
The 338-BGKS Dell Intel Xeon E5-2695V3 processor is designed for the LGA2011-3 socket. The LGA2011-3 socket is a high-performance socket that is designed for Intel’s Xeon processors. It supports up to 14 cores and provides high-speed communication between the processor and the motherboard. The processor is built on the 22nm manufacturing process, which allows for greater transistor density and better power efficiency.
Memory Support
The 338-BGKS Dell Intel Xeon E5-2695V3 processor supports DDR4 memory, which is the latest generation of memory technology. DDR4 memory provides higher bandwidth and lower power consumption than its predecessor, DDR3. The processor supports up to 768GB of DDR4 memory, which is more than enough for most high-performance computing applications.
Power Consumption
The 338-BGKS Dell Intel Xeon E5-2695V3 processor has a thermal design power (TDP) of 120W. TDP is the maximum amount of power that a processor can dissipate when operating at base frequency. The TDP of a processor is an important factor to consider when selecting a processor, as it determines the cooling requirements and power consumption of the system.
In summary, the 338-BGKS Dell Intel Xeon E5-2695V3 processor is a high-performance processor that is designed for demanding applications. With 14 cores, 35MB of L3 cache, and a clock speed of 2.3GHz, the processor is capable
General Information
- Product Type : Server Processor
- Manufacturer Part Number : 338-BGKS
- Product Model : E5-2695V3
Technical Information
- Processor Core : 14-Core
- Clock Speed : 2.3 GHz
- Max Turbo Frequency : 3.3 GHz
- Quickpath Interconnect(Qpi) Speed : 9.6 Gt/S
- Instruction Set : 64-Bit
- Instruction Set Extensions : AVX 2.0
Cache Memory Detail
- L3 Cache : 35 MB
- LITHOGRAPHY : 22 NM
- Max Thermal Design Power TDP : 120 W
- Compatible Processor Socket : SOCKET-LGA2011-3
Advanced Technologies
- Turbo Boost Technology : 2.0
- Hyper-Threading Technology
- Vpro Technology
- Virtualization Technology(VT-X)
- Virtualization Technology For Directed I/O(Vt-D)
- Extended Memory 64 Technology
- Enhanced Speedstep Technology
- Trusted Execution Technology
- Thermal Monitoring Technologies
Additional Information
- Demand Based Switching
- Aes New Instructions
- Execute Disable Bit
- Flex Memory Access
- Idle States
