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Dell 338-BLNE Xeon Gold 6130 16 Core 2.1GHz Processor 22MB L3 Cache

338-BLNE
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Dell 338-BLNE Intel Xeon Gold 6130 16 Core 2.1GHz Processor 22MB L3 Cache 10.4GT/S UPI Speed Socket FCLGA3647 14NM 125W. New (System) Pull with 6-Month Replacement Warranty
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SKU/MPN338-BLNEAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerDell Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
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Description

Product Insights

Dell 338-BLNE Intel Xeon Gold 6130 Processor Specifications

  • Manufacturer: Dell
  • Product Category: CPU & Processor
  • Part Number: 338-BLNE
  • Model: Gold 6130

Technical Details

Processor Features

  • Cores: 16-core
  • Base Clock Speed: 2.10 GHz
  • Max Turbo Speed: 3.70 GHz
  • Ultrapath Interconnect (UPI) Rate: 10.4 GT/s
  • UPI Links Count: 3
  • Instruction Set Architecture: 64-bit
  • Instruction Set Extensions:
    • Intel® SSE4.2
    • Intel® AVX
    • Intel® AVX2
    • Intel® AVX-512

Cache Memory Specifications

  • L3 Cache Capacity: 22 MB
  • Manufacturing Process: 14nm
  • Maximum Thermal Design Power (TDP): 125W
  • Compatible Socket Type: FCLGA3647

Memory Support and Capabilities

Memory Configuration

  • Maximum Memory Size: 768 GB (dependent on memory type)
  • Supported Memory Types: DDR4-2666
  • Peak Memory Speed: 2.67 GHz
  • Number of Memory Channels: 6
  • ECC Memory Compatibility: Yes

Key Advantages

  • High-performance 16-core architecture for demanding applications
  • Efficient 14nm lithography for improved power management
  • Robust support for large memory capacities, enhancing multitasking
  • Advanced instruction set for optimized computational tasks

Processor Type: Intel Xeon Gold 6130

The Dell 338-BLNE Processor features the powerful Intel Xeon Gold 6130 processor. The Intel Xeon Gold 6130 is a high-performance processor designed for demanding workloads and complex computing tasks. With its advanced architecture and cutting-edge technology, this processor delivers exceptional performance and reliability.

Enhanced Performance

The Intel Xeon Gold 6130 processor is built on the latest Intel microarchitecture, providing improved performance over previous generations. With 16 cores and 32 threads, this processor delivers exceptional multi-threaded performance, making it ideal for tasks that require intensive processing power, such as scientific simulations, data analysis, and virtualization.

Efficient Virtualization

Virtualization has become an essential technology in modern computing environments. The Intel Xeon Gold 6130 processor includes advanced features that enhance virtualization performance, allowing you to run multiple virtual machines efficiently. This enables businesses to consolidate their server infrastructure, reducing costs and improving resource utilization.

Optimized Workloads

The Intel Xeon Gold 6130 processor is designed to handle a wide range of workloads efficiently. Whether you're running complex database queries, performing data analytics, or rendering high-resolution graphics, this processor can handle it all with ease. Its high clock speeds and large cache size ensure that your applications run smoothly and deliver results quickly.

Reliability and Stability

One of the key benefits of the Intel Xeon Gold 6130 processor is its reliability and stability. Designed for mission-critical applications, this processor undergoes rigorous testing to ensure it can handle demanding workloads without compromising performance or stability. This makes it an ideal choice for businesses that require uninterrupted operation and minimal downtime.

Future-Proof Technology

The Intel Xeon Gold 6130 processor incorporates advanced technologies that ensure it remains relevant and capable in the future. With support for the latest industry standards and features, this processor can handle emerging workloads and technologies, providing you with a future-proof solution that can grow with your business.

Core Count: 16

The Dell 338-BLNE Processor boasts an impressive core count of 16. This means that it has 16 independent processing units, each capable of handling its own set of instructions simultaneously. The high core count of this processor offers several benefits for users.

Improved Multitasking

With 16 cores, the Dell 338-BLNE Processor allows for efficient multitasking. It can handle multiple tasks simultaneously without sacrificing performance. This is particularly useful in scenarios where you need to run multiple resource-intensive applications at the same time, such as video editing or 3D rendering.

Enhanced Parallel Processing

The high core count enables enhanced parallel processing capabilities. This means that the processor can divide complex tasks into smaller sub-tasks and process them concurrently. This results in faster execution times for applications that can take advantage of parallel processing, such as scientific simulations or data analysis.

Improved System Responsiveness

A higher core count translates to improved system responsiveness. The additional cores allow the processor to allocate resources more efficiently, ensuring smoother multitasking and faster response times. This is especially beneficial in scenarios where you need quick access to data or when running applications that require real-time interaction.

Optimized Resource Allocation

With a greater number of cores, the Dell 338-BLNE Processor can allocate resources more effectively, distributing the workload evenly across the cores. This results in improved overall system performance and better utilization of available resources. This is particularly important in server environments where efficient resource allocation is critical for maximizing productivity.

Future-Proofing

The 16-core count of the Dell 338-BLNE Processor ensures that it can handle future workloads and applications. As technology advances and software becomes more demanding, having a high core count will be essential for maintaining optimal performance. Investing in a processor with a high core count now ensures that your system will remain capable and efficient in the years to come.

Base Clock Speed: 2.1GHz

The Dell 338-BLNE Processor features a base clock speed of 2.1GHz. The base clock speed represents the minimum frequency at which the processor operates under normal conditions. The base clock speed of this processor offers several benefits for users.

Improved Responsiveness

A higher base clock speed results in improved system responsiveness. The processor can execute instructions more quickly, reducing latency and ensuring faster response times. This is particularly important in scenarios where you need quick access to data or when running applications that require real-time interaction, such as gaming or video editing.

Smooth Multitasking

The higher base clock speed enables smoother multitasking. It allows the processor to handle multiple tasks simultaneously without sacrificing performance. This is particularly useful in scenarios where you need to run multiple resource-intensive applications at the same time, such as photo editing or virtualization.

Efficient Single-Threaded Performance

While multi-threaded performance is important for handling complex workloads, single-threaded performance is crucial for tasks that cannot be parallelized effectively. The higher base clock speed of the Dell 338-BLNE Processor ensures efficient single-threaded performance, making it suitable for applications that rely on single-threaded operations, such as certain gaming scenarios or legacy software.

Optimized Power Consumption

The base clock speed plays a role in determining the power consumption of the processor. By operating at a lower base clock speed, the Dell 338-BLNE Processor can deliver energy-efficiency without sacrificing performance. This is beneficial for users who are conscious of power consumption or are running systems with limited cooling capabilities.

Overclocking Potential

The base clock speed serves as a starting point for overclocking. Overclocking refers to the process of increasing the clock speed of a processor to achieve higher performance. With a higher base clock speed, the Dell 338-BLNE Processor has greater potential for overclocking, allowing enthusiasts and power users to push its performance even further.

L3 Cache: 22MB

The Dell 338-BLNE Processor comes equipped with an L3 cache size of 22MB. The L3 cache, also known as the last-level cache, is an important feature of modern processors that offers several benefits for users.

Faster Data Access

The larger L3 cache size allows for faster data access. The cache stores frequently accessed data and instructions closer to the processor, reducing the time required to retrieve them from the main memory. This results in improved overall system performance and reduced latency.

Improved Application Performance

A larger L3 cache size enables processors to store more data and instructions, reducing the need to access the main memory frequently. This leads to improved application performance, as the processor can quickly access the required data without waiting for it to be fetched from slower memory locations.

Better Multitasking Performance

The larger L3 cache size enhances multitasking performance. With more available cache space, the processor can store a greater amount of data and instructions from different applications simultaneously. This allows for smoother multitasking, as the processor can quickly switch between tasks without needing to access the main memory as frequently.

Improved Gaming Experience

A larger L3 cache size can greatly benefit gaming enthusiasts. Games often require quick access to a large amount of data, such as textures, models, and game logic. With a larger L3 cache, the processor can store more of this data, resulting in faster load times, smoother gameplay, and reduced stuttering or lag.

Enhanced Virtualization Performance

Virtualization environments can also benefit from a larger L3 cache size. Multiple virtual machines running on the same physical server can share the cache resources, improving overall performance and reducing resource contention. This allows for more efficient resource allocation and higher virtual machine density.

Upi Speed: 10.4GT/S

The Dell 338-BLNE Processor features an impressive Upi Speed of 10.4GT/S. UPI stands for "Ultra Path Interconnect" and refers to the high-speed interconnect technology used in modern processors. The Upi Speed of this processor offers several benefits for users.

Improved Data Transfer

The higher Upi Speed allows for faster data transfer between multiple processors or sockets in a multi-socket system. This is particularly important in server environments where multiple processors need to work together to handle demanding workloads. The increased Upi Speed ensures efficient communication between processors, reducing latency and improving overall system performance.

Enhanced Scalability

A higher Upi Speed enables better scalability in multi-socket systems. It allows for more efficient communication between processors, ensuring that the system can scale effectively as more processors are added. This is crucial for businesses that require high-performance computing or need to handle large-scale data processing.

Improved Workload Distribution

The higher Upi Speed facilitates efficient workload distribution in multi-socket systems. It enables processors to share the workload evenly, ensuring that each processor receives the necessary data and instructions in a timely manner. This results in improved overall system performance and better resource utilization.

Optimized Memory Access

The Upi Speed also plays a role in optimizing memory access in multi-socket systems. It ensures that processors can access the shared memory without significant latency, allowing for faster data retrieval and storage. This is particularly beneficial for applications that require large memory capacity or perform frequent memory operations.

Improved System Reliability

A higher Upi Speed enhances system reliability in multi-socket systems. It ensures that processors can communicate effectively, minimizing the risk of data corruption or communication errors. This is important for businesses that rely on continuous operation and cannot afford downtime or data loss.

Socket Type: FCLGA3647

The Dell 338-BLNE Processor utilizes the FCLGA3647 socket type. The socket type refers to the physical interface between the processor and the motherboard. The FCLGA3647 socket type offers several benefits for users.

Scalability and Future Compatibility

The FCLGA3647 socket type is designed for high-performance processors, offering scalability and future compatibility. It supports a wide range of processors, including those with multiple cores and high core counts. This ensures that you have the flexibility to upgrade your system in the future without needing to change the motherboard.

Enhanced Performance and Features

The FCLGA3647 socket type supports advanced features and technologies that enhance performance and functionality. It allows for higher memory bandwidth, faster data transfer rates, and improved power delivery. This results in better overall system performance and the ability to take advantage of cutting-edge technologies.

Robust Socket Design

The FCLGA3647 socket type features a robust design that ensures reliable connectivity between the processor and the motherboard. The socket provides secure attachment, preventing any accidental disconnections or damage during installation or operation. This guarantees the stability and longevity of your system.

Support for Server-grade Processors

The FCLGA3647 socket type is commonly used in server-grade systems due to its support for high-performance processors. It allows for the installation of processors designed for demanding workloads and mission-critical applications. This makes it an ideal choice for businesses that require powerful computing capabilities and maximum reliability.

Industry Standard Compatibility

The FCLGA3647 socket type is an industry-standard, ensuring compatibility with a wide range of motherboards and server platforms. This provides you with flexibility when choosing a system or upgrading your existing setup. You can easily find compatible components and take advantage of the latest advancements in processor technology.

Manufacturing Technology: 14NM

The Dell 338-BLNE Processor utilizes a 14nm manufacturing technology. The manufacturing technology refers to the size of the transistors used in the processor's fabrication process. The 14nm manufacturing technology offers several benefits for users.

Improved Power Efficiency

A smaller transistor size enables improved power efficiency. With 14nm technology, the Dell 338-BLNE Processor can deliver high-performance computing while consuming less power. This is important for reducing energy costs and minimizing the environmental impact of your system.

Increased Performance

A smaller transistor size allows for increased transistor density, resulting in more transistors packed into a smaller space. This translates to improved performance as more transistors can perform calculations simultaneously. The 14nm manufacturing technology helps maximize the processor's performance potential.

Reduced Heat Generation

The smaller transistor size of the Dell 338-BLNE Processor reduces heat generation. With less power dissipation and improved power efficiency, the processor produces less heat during operation. This is beneficial for maintaining optimal system temperatures, especially in high-performance computing environments or systems with limited cooling capabilities.

Higher Transistor Count

The 14nm manufacturing technology allows for a higher transistor count within the same physical area compared to larger transistor sizes. This enables the Dell 338-BLNE Processor to have more advanced features and capabilities, such as larger cache sizes, improved instruction sets, and enhanced security features.

Support for Advanced Technologies

The 14nm manufacturing technology enables the integration of advanced technologies into the processor. This includes support for features such as virtualization, hardware-assisted security, and encryption acceleration. These technologies enhance system performance, security, and overall user experience.

Power Consumption: 125W

The Dell 338-BLNE Processor has a power consumption of 125W. Power consumption refers to the amount of electrical power a processor requires to operate under normal conditions. The 125W power consumption of this processor offers several benefits for users.

Efficient Performance

The Dell 338-BLNE Processor delivers efficient performance while consuming 125W of power. It strikes a balance between performance and power consumption, ensuring that you have a high-performance processor without excessive energy usage. This is important for reducing energy costs and minimizing the environmental impact of your system.

Optimized Cooling Requirements

A power consumption of 125W allows for optimized cooling requirements. Cooling plays a crucial role in maintaining optimal system temperatures and preventing overheating. The power consumption of the Dell 338-BLNE Processor ensures that it can be adequately cooled using standard cooling solutions, eliminating the need for specialized or additional cooling infrastructure.

Stability and Reliability

The power consumption of a processor can have an impact on its stability and reliability. The 125W power consumption of the Dell 338-BLNE Processor ensures that it operates within its recommended thermal design limits, minimizing the risk of thermal throttling or overheating. This contributes to the stability and longevity of your system.

Compatibility with Standard Power Supplies

The 125W power consumption of the Dell 338-BLNE Processor allows for compatibility with standard power supplies commonly found in desktop and server systems. This ensures that you can easily integrate the processor into your existing setup without requiring specialized or high-capacity power supply units.

Energy Efficiency and Environmental Impact

With a power consumption of 125W, the Dell 338-BLNE Processor is designed to be energy-efficient. It helps reduce overall energy consumption, resulting in lower electricity bills and a smaller carbon footprint. Choosing a processor with lower power consumption contributes to environmental sustainability and demonstrates a commitment to energy-efficient computing.

Features
Product/Item Condition:
New (System) Pull
ServerOrbit Replacement Warranty:
Six-Month (180 Days)