Description
Performance Intel Xeon X5670 2.93GHZ 12MB L3 Cache QPI Processor
The Intel Xeon X5670 is a high-performance processor, built on the Westmere-EP architecture and manufactured using the 32nm process. It has a base clock speed of 2.93GHz and a maximum turbo frequency of 3.33GHz. It features 12MB of L3 cache, which allows for rapid access to frequently used data, and a QuickPath Interconnect (QPI) of 6.4 GT/s, providing high-speed communication between the processor and other system components.
In terms of performance, the Xeon X5670 is well-suited for heavily-threaded workloads, such as scientific simulations, financial modeling, and data analytics. It supports up to 96GB of DDR3 memory, providing ample memory bandwidth for large data sets. Additionally, it has a TDP (thermal design power) of 95W, which is relatively low for a processor of its class, making it a good choice for power-sensitive applications.
Compatibility Intel Xeon X5670 2.93GHZ Processor
The Intel Xeon X5670 is compatible with motherboards that have a Socket LGA 1366, also known as Socket B. This socket is used for the Xeon processors that use the Westmere-EP microarchitecture. It is important to check that the motherboard supports the Xeon processors and that it has the LGA 1366 socket before purchasing the X5670 processor.
Additionally, it is important to check the BIOS version of the motherboard, as some older versions may not support the Xeon X5670 processor. It is recommended to check with the motherboard manufacturer for the latest BIOS version and instructions on how to update it.
The X5670 is also compatible with DDR3 memory, which is the standard memory type for LGA 1366 motherboards. It is recommended to use memory with a speed of 1333MHz or higher for optimal performance.
It is also important to note that the X5670 processor is not compatible with consumer-grade motherboards and processors, such as those based on the LGA 1156 or LGA 1155 sockets. It is designed for use in enterprise-grade servers and workstations, and is not intended for use in consumer PCs.
Power Consumption
The Intel Xeon X5670 has a thermal design power (TDP) of 95 watts, which refers to the maximum amount of power that the cooling system in a computer or server needs to dissipate in order to keep the processor at its safe operating temperature. This TDP value is relatively low for a processor of its class, which makes it a good choice for power-sensitive applications.
It is important to note that the actual power consumption of the processor can vary depending on the workload and operating conditions. For example, when the processor is idle or performing light tasks, its power consumption will be lower than when it is running at full load. Additionally, the power consumption of the processor can also be affected by factors such as the memory speed and voltage, the number of active cores, and the speed of the cooling system.
In addition to the processor’s TDP, it’s also important to consider the overall power consumption of the system it will be used in. Factors such as the number and type of additional components, as well as the efficiency of the power supply unit, can also have a significant impact on the overall power consumption of the system.
To summarize, the Intel Xeon X5670 processor has a TDP of 95 watts, which is relatively low for a processor of its class and makes it suitable for power-sensitive applications. The actual power consumption of the processor may vary depending on the workload, operating conditions and the overall power consumption of the system.
PRODUCT DETAILS
- Brand : Intel
- Part Number : BX80614X5670
- Type : Processor
- Sub-Type: Intel Xeon 6 Core
CACHE MEMORY DETAILS
- Clock Speed : 2.93 GHz
- L2 Cache Size : 1.5 MB
- L3 Cache Size : 12 MB
- Bus/Core Ratio : 22
Technical Information
- QPI Speed : 6.4 GT/S
- Number Of QPI Links : 2
- Socket Type : Fclga1366
- Process Technology : 32NM
Advanced Technologies
- Intel Turbo Boost Technology
- Hyper-Threading Technology
- Intel Virtualization Technology
- Intel Trusted Execution Technology