Description
Introduction to 81Y5166 IBM Intel Xeon Processor
The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor is a powerful processor that has been designed to deliver exceptional performance for servers and workstations. This processor is part of the Intel Xeon E5 family, which is known for its reliability, scalability, and high-performance capabilities. In this article, we will explore the features and specifications of the 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor.
Processor Specifications
The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor has several notable specifications that make it a popular choice for servers and workstations. These specifications include:Core Count: Six Clock Speed: 2.5GHz L3 Cache: 15MB QPI Speed: 7.2GT/s Socket Type: FCLGA2011 Manufacturing Process: 32nm Thermal Design Power: 95WWe will now explore these specifications in greater detail.
Core Count
The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor has six cores, which means it can process six tasks simultaneously. This makes it a powerful processor that can handle demanding workloads such as data analytics, virtualization, and scientific simulations.
Clock Speed
The clock speed of a processor refers to the number of cycles it can perform in one second. The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor has a clock speed of 2.5GHz, which means it can perform 2.5 billion cycles per second. This high clock speed makes it a fast processor that can handle complex tasks quickly.
L3 Cache
The L3 cache is a type of memory that is built into the processor. It is used to store frequently accessed data, which can be retrieved quickly by the processor. The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor has a 15MB L3 cache, which is a large amount of memory that can help improve the processor’s performance.
QPI Speed
QPI (QuickPath Interconnect) is a technology that is used to connect the processor to other components in the system, such as memory and input/output devices. The QPI speed of a processor refers to the speed at which it can transfer data using this technology. The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor has a QPI speed of 7.2GT/s, which is a fast speed that can help improve system performance.
Socket Type
The socket type of a processor refers to the type of connector that is used to attach it to the motherboard. The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor uses the FCLGA2011 socket, which is a high-performance socket that is commonly used in servers and workstations.
Manufacturing Process
The manufacturing process of a processor refers to the technology used to create its transistors and other components. The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor is manufactured using a 32nm process, which is a relatively advanced technology that can help improve performance and reduce power consumption.
Thermal Design Power
The thermal design power (TDP) of a processor refers to the amount of heat it generates under normal operating conditions. The 81Y5166 IBM Intel Xeon Six Core E5 2640 Processor has a TDP of 95W, which is a moderate amount of heat that can be easily managed by most cooling systems.
General Information
- Product Type : Server Processor
- Product Manufacturer : IBM Corporation
- Model Number or SKU# 81Y5166
- Product Model : E5-2640
Technical Information
- Processor Core : Six-Core
- Clock Speed : 2.5 GHz
- Max Turbo Frequency : 3.0 GHz
- Quickpath Interconnect(Qpi) Speed : 7.2 GT/S
- Instruction Set : 64-Bit
- Instruction Set Extensions : AVX
Cache memory detail
- L3 Cache : 15 MB
- Lithography : 32 NM
- Max Thermal Design Power (Tdp) : 95 W
- Compatible Processor Socket : Fclga-2011
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 TechnologiesAdditional Information •Demand Based Switching
• Aes New Instructions
• Execute Disable Bit
• Flex Memory Access
• Idle States