Dell 338-BDIM Intel Xeon E5-2643V2 3.5GHz 6-Core Processor

Processor Type: Intel Xeon

Enhanced Performance and Reliability

The Dell 338-BDIM Processor is equipped with an Intel Xeon processor, which offers enhanced performance and reliability for users. The Intel Xeon processors are specifically designed for server-class workloads and offer advanced features that can handle demanding tasks with ease. With its powerful processing capabilities, the Intel Xeon processor ensures that users can run resource-intensive applications and multitask efficiently without any lag or slowdown.

Improved Efficiency and Productivity

The Intel Xeon processor is known for its superior efficiency and productivity, making it an ideal choice for users who require high-performance computing. With its multi-core architecture, the Intel Xeon processor can handle multiple tasks simultaneously, improving overall system performance. This allows users to complete their work faster and more efficiently, leading to increased productivity.

Optimized for Workstation and Server Applications

The Intel Xeon processor is specifically optimized for workstation and server applications, making it an excellent choice for professionals in fields such as engineering, design, animation, and scientific research. These processors offer advanced features like ECC memory support and virtualization technology, which ensure data integrity, reliability, and efficient resource allocation.

ECC Memory Support

The Intel Xeon processors support Error Correcting Code (ECC) memory, which detects and corrects data errors in real-time. ECC memory is crucial for critical applications where data integrity is of utmost importance. By using ECC memory with the Intel Xeon processor, users can ensure that their data remains accurate and reliable.

Virtualization Technology

Virtualization technology enables users to create multiple virtual machines on a single physical server. This allows for better resource utilization and increased efficiency. The Intel Xeon processor includes advanced virtualization features that enable users to create, manage, and migrate virtual machines seamlessly, providing a flexible and scalable computing environment.

Core Count: 6

Enhanced Multitasking and Performance

The Dell 338-BDIM Processor features six cores, providing users with enhanced multitasking capabilities and improved overall performance. With multiple cores, the processor can handle multiple tasks simultaneously, allowing users to run multiple applications without experiencing any slowdown or performance issues.

Faster Data Processing

Having six cores enables the processor to process data at a faster rate. This is especially beneficial for users who work with large datasets or perform computationally intensive tasks. The increased core count ensures that data is processed quickly and efficiently, reducing the time required to complete tasks and improving overall productivity.

Smooth and Seamless Workflow

The six-core design of the Dell 338-BDIM Processor ensures a smooth and seamless workflow for users. Whether it's running complex software applications, editing high-resolution videos, or working with graphic-intensive programs, the increased core count allows for smoother multitasking and eliminates any performance bottlenecks that may occur with lower core count processors.

Task Distribution and Load Balancing

The additional cores in the processor enable efficient task distribution and load balancing. This means that each core can handle a specific task independently, optimizing resource utilization and ensuring that no single core is overloaded. This results in improved system responsiveness, reduced latency, and a more stable computing experience for users.

Improved Gaming Performance

For gamers, the six-core design of the Dell 338-BDIM Processor offers improved gaming performance. Many modern games are optimized to take advantage of multiple cores, allowing for smoother gameplay and better frame rates. With six cores, users can enjoy a more immersive gaming experience and play the latest titles without any performance issues.

Base Clock Speed: 3.5GHz

High Clock Speed for Quick Execution

The Dell 338-BDIM Processor features a base clock speed of 3.5GHz, providing users with fast and responsive performance. The clock speed determines how quickly the processor can execute instructions, and a higher clock speed translates to faster computing.

Improved Application Responsiveness

The high base clock speed of the processor ensures improved application responsiveness. Whether it's launching software, opening files, or browsing the web, users will experience minimal delay and near-instantaneous execution of tasks. This results in a smooth and seamless computing experience, allowing users to work efficiently without any frustrating delays.

Enhanced Single-Threaded Performance

Tasks that rely heavily on single-threaded performance, such as gaming or certain software applications, benefit greatly from a high base clock speed. The 3.5GHz base clock speed of the Dell 338-BDIM Processor ensures that single-threaded tasks are executed quickly and efficiently, providing users with a snappy and responsive computing experience.

Reduced Render and Encoding Times

For users who work with multimedia content or engage in content creation activities such as video editing or 3D rendering, a high base clock speed significantly reduces render and encoding times. The processor can process large files and complex calculations more quickly, allowing users to complete their tasks in less time and be more productive.

Better Gaming Performance

Gaming enthusiasts will appreciate the high base clock speed of the Dell 338-BDIM Processor as it directly impacts gaming performance. Many games rely heavily on single-threaded performance, and a high base clock speed ensures smooth gameplay, reduced input lag, and improved frame rates. Users can enjoy their favorite games without any performance bottlenecks.

Cache Size: 25MB L3

Improved Data Access and Performance

The Dell 338-BDIM Processor features a generous 25MB L3 cache size, which provides users with improved data access and overall performance. The cache is a small, high-speed memory that stores frequently accessed data, allowing the processor to retrieve information quickly without having to access the slower main memory.

Faster Data Retrieval

The large L3 cache size ensures faster data retrieval, reducing the time required for the processor to access frequently used instructions and data. This results in improved overall system performance as the processor can quickly access critical information, enhancing the responsiveness of applications and reducing latency.

Better Multitasking Performance

The 25MB L3 cache size enables better multitasking performance. With a larger cache, the processor can store more data from different applications simultaneously. This allows for smoother switching between tasks and reduces the need to constantly fetch data from the main memory, resulting in improved multitasking capabilities and overall system efficiency.

Reduced Memory Latency

The presence of a large L3 cache helps reduce memory latency. When data is stored in the cache, it can be accessed much faster compared to retrieving it from the main memory. This reduces the time it takes for the processor to access instructions and data, resulting in improved overall system responsiveness and reduced latency.

Optimized for Large Data Sets

Users working with large datasets, such as those involved in scientific research or big data analytics, benefit greatly from a larger cache size. The 25MB L3 cache can store more data, allowing for faster processing and analysis of large data sets. This improves productivity and enables users to derive meaningful insights from their data more quickly.

QPI Speed: 8GT/S

High-Speed Data Transfer

The Dell 338-BDIM Processor features a Quick Path Interconnect (QPI) speed of 8GT/S, providing high-speed data transfer between the processor and other components in the system. The QPI technology enables fast and efficient communication, ensuring smooth operation and optimal performance.

Improved System Responsiveness

The high QPI speed ensures improved system responsiveness. With faster data transfer rates, the processor can quickly communicate with other components such as memory modules and graphics cards. This results in reduced latency and improved overall system performance, allowing users to work more efficiently without any slowdowns or bottlenecks.

Enhanced Multi-Processor Scalability

The high QPI speed is particularly beneficial for systems that utilize multiple processors or have a multi-socket configuration. The fast data transfer between processors ensures efficient communication and coordination, enabling improved multi-processor scalability. This is crucial for tasks that require high parallel processing capabilities, such as scientific simulations or rendering farms.

Optimized Memory Bandwidth

The high QPI speed optimizes memory bandwidth, resulting in improved data access speeds. This is particularly important for memory-intensive applications that require frequent access to large data sets. The fast communication between the processor and memory modules ensures that data can be retrieved quickly, reducing memory latency and improving overall system performance.

Seamless Graphics Performance

For users who engage in graphics-intensive activities such as gaming or graphic design, the high QPI speed ensures seamless graphics performance. The fast data transfer between the processor and graphics card allows for smooth rendering, reduced input lag, and improved overall visual quality. Users can enjoy immersive gaming experiences and work with complex graphics without any performance limitations.

Socket Type: FCLGA2011

Compatibility and Upgradeability

The Dell 338-BDIM Processor features the FCLGA2011 socket type, ensuring compatibility with compatible motherboards. The socket type determines the physical connection between the processor and the motherboard, and having a matching socket type is crucial for successful installation and operation.

Easy Upgrade Path

The FCLGA2011 socket type allows for easy upgradeability. Users can replace their existing processor with the Dell 338-BDIM Processor without having to replace the entire motherboard. This provides a cost-effective upgrade solution, allowing users to benefit from improved performance without significant hardware expenses.

Wide Range of Motherboard Options

The FCLGA2011 socket type is widely supported by various motherboard manufacturers, providing users with a wide range of options to choose from. Whether it's a consumer-grade motherboard or a high-end workstation-class board, users can find a suitable motherboard that meets their specific requirements and preferences.

Support for Advanced Features

Motherboards compatible with the FCLGA2011 socket often come equipped with advanced features such as multiple PCIe slots, support for high-speed RAM modules, and enhanced connectivity options. This allows users to build a powerful system that can handle demanding tasks and supports future expansion.

Server-Grade Stability

The FCLGA2011 socket type is commonly used in server-class systems, indicating its stability and reliability. By using a motherboard that supports the FCLGA2011 socket, users can benefit from server-grade stability, ensuring uninterrupted operation even under heavy workloads or extended usage.

Manufacturing Process: 22NM

Efficiency and Power Optimization

The Dell 338-BDIM Processor is manufactured using a 22nm process, which offers enhanced efficiency and power optimization. The manufacturing process refers to the size of the transistors used in the processor, and a smaller manufacturing process allows for improved performance and reduced power consumption.

Improved Performance per Watt

The 22nm manufacturing process enables improved performance per watt. With smaller transistors, the processor can execute instructions more quickly and efficiently, resulting in improved overall performance while consuming less power. This is particularly important for energy-conscious users who want to reduce their carbon footprint without compromising on performance.

Lower Power Consumption

The 22nm manufacturing process reduces power consumption compared to larger process sizes. The smaller transistors require less power to operate, resulting in lower energy consumption and reduced heat generation. This not only benefits users in terms of energy savings but also contributes to a cooler and more stable operating environment.

Extended Battery Life for Mobile Devices

For users with mobile devices such as laptops or tablets, the 22nm manufacturing process offers extended battery life. The reduced power consumption allows for longer usage on a single charge, enabling users to work or play on their devices for extended periods without having to worry about running out of power.

Cooler and Quieter Operation

The lower power consumption and reduced heat generation of the 22nm manufacturing process contribute to cooler and quieter operation. The processor runs at lower temperatures, reducing the need for active cooling solutions such as fans or liquid cooling. This results in a quieter computing experience and a more comfortable working environment.

Power Consumption: 130W

Energy Efficiency and Cost Savings

The Dell 338-BDIM Processor has a power consumption of 130W, ensuring energy efficiency and potential cost savings for users. Power consumption refers to the amount of electrical power required by the processor to operate, and a lower power consumption translates to reduced energy usage and lower electricity bills.

Reduced Environmental Impact

The 130W power consumption of the processor helps reduce the environmental impact. By consuming less energy, users contribute to a smaller carbon footprint and help conserve natural resources. This is particularly important in today's environmentally conscious world, where sustainability is a key consideration.

Potential Cost Savings

The lower power consumption of the processor can lead to potential cost savings for users. By consuming less electricity, users can reduce their monthly electricity bills, resulting in long-term cost savings. This is especially beneficial for users who operate systems with high power requirements, such as servers or workstations that run continuously.

Energy Star Compliance

The 130W power consumption of the processor ensures compliance with Energy Star requirements. Energy Star is a voluntary program that promotes energy efficiency in consumer products, and compliance with its standards indicates that the processor meets strict energy efficiency guidelines. Users can be assured that they are using an energy-efficient product that aligns with industry standards.

Cooler Operating Temperatures

A lower power consumption of 130W results in reduced heat generation, leading to cooler operating temperatures. This contributes to a more stable operating environment and ensures that the system remains within safe temperature ranges. Cooler operating temperatures also extend the lifespan of components by reducing thermal stress.