Description
Product overview of the Dell D45XK
The Dell D45XK Processor Upgrade is a high-performance processor upgrade option for Dell servers. It is based on the Intel Xeon E5-2609 Quad Core Processor, which provides advanced features and capabilities to support demanding workloads and applications. The D45XK Processor Upgrade offers a clock speed of 2.40GHz, with 6.40GT/s QPI and 10MB L3 Cache. This makes it ideal for data centers, enterprise environments, and other demanding applications that require high levels of computing power and performance. Additionally, the D45XK Processor Upgrade is designed to be easily upgradeable and compatible with a wide range of Dell server models, allowing organizations to easily upgrade their existing hardware to support new and evolving business needs.
Key Features
- Quad Core: The Intel Xeon E5-2609 processor has four cores, allowing for concurrent processing of multiple tasks and improved overall system performance.
- 2.40GHz clock speed: The processor has a base clock speed of 2.40GHz, providing fast processing speeds for demanding applications.
- 6.40GT/s QPI: The processor has a Quick Path Interconnect (QPI) speed of 6.40GT/s, which allows for high-speed communication between the processor and other system components.
- 10MB L3 Cache: The processor has 10MB of L3 cache, which helps to improve performance by allowing the processor to quickly access frequently-used data.
- Xeon E5 Family: This processor is part of the Xeon E5 family, which are Xeon processors that are specifically designed for use in enterprise-level servers and workstations.
- Virtualization support: The processor supports Intel Virtualization Technology (VT-x), allowing multiple operating systems to run on the same hardware.
- Intel Turbo Boost Technology: The processor supports Intel Turbo Boost Technology, allowing for temporary overclocking of the processor for improved performance when needed.
- 64-bit Support: The processor supports 64-bit operating systems, allowing for access to more memory and improved performance for memory-intensive applications.
Performance Benefits
- Faster processing speeds: The 2.40GHz clock speed of the Intel Xeon E5-2609 processor allows for fast processing of data, making it well-suited for demanding applications such as data analysis, scientific simulations, and large-scale database management.
- Improved communication between system components: The 6.40GT/s QPI speed allows for high-speed communication between the processor and other system components, such as memory and storage, improving overall system performance.
- Enhanced data access: The 10MB L3 cache of the processor allows for quick access to frequently-used data, improving performance by reducing the time required to access data from memory or storage.
- Multitasking capabilities: The quad-core design of the processor allows for concurrent processing of multiple tasks, improving overall system performance and allowing for multiple users or applications to run simultaneously.
- Virtualization support: The processor support Intel Virtualization Technology (VT-x), allowing multiple operating systems to run on the same hardware, which can improve the utilization of hardware resources.
- Overclocking: The processor supports Intel Turbo Boost Technology, allowing for temporary overclocking of the processor for improved performance when needed.
- 64-bit Support: The processor supports 64-bit operating systems, allowing for access to more memory and improved performance for memory-intensive applications.
General Information
Manufacturer: Dell
Part Number or SKU#D45XK
Type : Processor
Technical Information
- Processor Type Server
- Processor Family E5-2600
- Series Xeon Processor
- Core Model Type/ProcNo. E5-2609
- Processor Code Name Sandy Bridge EP
- Core Stepping M0
- Manufacturing Technology 32 nm
- CPU ID String 206D6
- of Cores 4
- of Threads 4
- Clock Speed 2.40 GHz
- L3 Cache Size 10 MB
- Front Side Bus / QuickPath Interconnect 6.40 GT/s QPI
- Thermal Power 80 Watts
- VID Voltage Range 0.60V-1.35V
- CPU Socket Type LGA 2011
