Description
Product Details
The 338-BHJR Dell Intel Xeon E5-2695V3 14-Core 2.3GHz 35MB L3 Cache 9.6GT/S QPI Socket-LGA2011-3 120W 22NM Processor is a high-end processor that is designed for use in servers, workstations, and other high-performance computing applications. This processor is part of the Intel Xeon E5 v3 family and is based on the Haswell microarchitecture.
Processor Overview
The 338-BHJR Dell Intel Xeon E5-2695V3 processor is a 14-core processor with a base clock speed of 2.3GHz. The processor has a maximum turbo frequency of 3.3GHz, which means that it can deliver excellent performance when dealing with demanding workloads. The processor has a TDP of 120 watts, which is relatively high for a server-grade processor.
The processor supports a wide range of memory technologies, including DDR4-2133, DDR4-1866, and DDR4-1600. The maximum memory capacity of the processor is 768GB, which means that it can support a large amount of memory. The processor also supports ECC memory, which can help to ensure the reliability of data in memory.
The processor has a 35MB L3 cache, which is a large cache that can help to improve performance by reducing the time it takes to access frequently used data. The processor also supports Intel Hyper-Threading technology, which means that each core can handle two threads at the same time. This can help to improve performance when running multithreaded applications.
Architecture
The 338-BHJR Dell Intel Xeon E5-2695V3 processor is based on the Haswell microarchitecture. The Haswell microarchitecture is the fourth generation of Intel’s Core microarchitecture, which is designed for use in desktops, laptops, and servers.
The Haswell microarchitecture introduced several new features, including the AVX2 instruction set, which can help to improve performance when dealing with floating-point operations. The microarchitecture also introduced the Transactional Synchronization Extensions (TSX), which can help to improve the performance of multithreaded applications.
Socket and Compatibility
The 338-BHJR Dell Intel Xeon E5-2695V3 processor uses the LGA2011-3 socket, which is designed for use in servers and high-performance workstations. The LGA2011-3 socket is compatible with a wide range of motherboards, which means that it is possible to build a system using this processor with a motherboard that is suitable for a particular use case.
The processor is compatible with a wide range of operating systems, including Windows Server, Linux, and VMware. The processor is also compatible with a wide range of virtualization technologies, including VMware ESXi, Microsoft Hyper-V, and Citrix XenServer.
Performance
The 338-BHJR Dell Intel Xeon E5-2695V3 processor is a high-performance processor that can deliver excellent performance when dealing with demanding workloads. The processor has a base clock speed of 2.3GHz, which means that it can deliver excellent performance when dealing with single-threaded applications.
The processor also has a large L3 cache, which can help to improve performance when dealing with frequently accessed data. The processor supports Intel Hyper-Threading technology, which means that it can handle up to 28 threads at the same time.
General Information about the Dell 338-BHJR
- Manufacturer : Dell
- Manufacturer Part Number : 338-BHJR
- Product Type : Server Processor
- 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
