AMD Opteron 6386se 2.8GHz 16MB L2 Cache 16MB L3 Cache Processor

Base Clock Speed

The AMD 6386se Processor boasts a base clock speed of 2.8GHz, making it a powerful and efficient choice for users seeking high-performance computing. The base clock speed refers to the frequency at which the processor operates without any turbo or overclocking features enabled. This speed determines the overall processing power and responsiveness of the CPU.

Improved Performance

With a base clock speed of 2.8GHz, the AMD 6386se Processor delivers exceptional performance across a wide range of tasks. Whether you are running resource-intensive applications, multitasking, or gaming, this processor ensures smooth and lag-free performance. The higher the clock speed, the faster the processor can execute instructions, resulting in quicker data processing and response times.

Efficient Multitasking

The higher base clock speed of the AMD 6386se Processor allows for seamless multitasking. With multiple cores and higher clock speeds, you can effortlessly switch between applications without experiencing any slowdowns or performance issues. This is particularly beneficial for professionals who need to run several resource-intensive programs simultaneously.

Enhanced Gaming Experience

Gamers will appreciate the benefits of the AMD 6386se Processor's base clock speed. The faster clock speed ensures smooth gameplay and reduces lag, providing an immersive gaming experience. Whether you are playing graphically demanding games or engaging in online multiplayer battles, this processor delivers the power needed to run games at optimal settings.

Quick Data Processing

The 2.8GHz base clock speed enables rapid data processing, allowing for faster loading times and smoother operation of applications. This feature is particularly advantageous for tasks that involve manipulating large datasets, such as video editing, 3D rendering, and scientific simulations. The higher clock speed enables you to complete these tasks in less time, increasing overall productivity.

L2 Cache

The AMD 6386se Processor comes equipped with a generous 16MB L2 cache. The L2 cache is a small, high-speed memory storage located on the CPU chip. It serves as a buffer between the processor and the main memory, providing faster access to frequently used data.

Improved Data Access

The large 16MB L2 cache of the AMD 6386se Processor allows for quicker data access, resulting in enhanced overall performance. As the processor frequently requests data from the cache, having a larger L2 cache reduces the need to access slower main memory, leading to reduced latency and improved system responsiveness.

Efficient Instruction Execution

The L2 cache plays a crucial role in storing instructions and data that are frequently accessed by the processor. By having a larger cache, the processor can quickly retrieve these instructions, reducing the time it takes to execute tasks. This results in improved efficiency and faster overall system performance.

Smooth Multitasking

The AMD 6386se Processor's 16MB L2 cache enables efficient multitasking by storing a significant amount of frequently used data. This allows the processor to quickly switch between tasks without needing to retrieve data from main memory, ensuring smooth operation even when running multiple applications simultaneously.

Optimized Gaming Performance

Gamers will benefit from the large L2 cache as it allows for quick retrieval of game-related data. This results in reduced loading times and smoother gameplay, enhancing the overall gaming experience. The 16MB L2 cache ensures that game assets are readily available to the processor, minimizing lag and improving frame rates.

L3 Cache

The AMD 6386se Processor is equipped with a substantial 16MB L3 cache. The L3 cache acts as a shared pool of memory for all the processor cores, providing a higher level of caching and further improving performance.

Enhanced Data Sharing

The 16MB L3 cache of the AMD 6386se Processor allows for efficient data sharing between processor cores. As each core can access the shared cache, it reduces the need to retrieve data from main memory, resulting in improved performance and reduced latency. This feature is particularly beneficial for applications that require extensive inter-core communication.

Improved Workload Distribution

The larger L3 cache enables better workload distribution among the processor cores. As the cache can store more data, each core has access to a larger pool of frequently used instructions and data, reducing contention and improving overall performance. This is particularly advantageous for multi-threaded applications that can take advantage of multiple cores.

Optimal Resource Utilization

With a substantial 16MB L3 cache, the AMD 6386se Processor ensures optimal resource utilization. By storing frequently accessed data in the cache, the processor can quickly retrieve information without needing to access slower main memory. This results in improved efficiency and reduced power consumption, making it an excellent choice for energy-conscious users.

Seamless Virtualization

The large L3 cache enhances virtualization performance by providing ample space for storing virtual machine instructions and data. This allows for smoother operation of virtualized environments, reducing latency and improving overall responsiveness. Whether you are running multiple virtual machines or utilizing virtualization for software development or testing purposes, the AMD 6386se Processor's L3 cache ensures optimal performance.

HT Speed

The AMD 6386se Processor features a high HT (HyperTransport) speed of 3200MHz. HT technology allows for fast communication between the processor and other system components, such as memory, graphics cards, and I/O devices.

Faster Data Transfer

The 3200MHz HT speed of the AMD 6386se Processor enables faster data transfer between the processor and other system components. This results in reduced latency and improved overall system performance. Whether you are transferring large files, accessing network resources, or running data-intensive applications, the high HT speed ensures smooth and efficient data transfer.

Improved System Responsiveness

With a high HT speed, the AMD 6386se Processor ensures improved system responsiveness by minimizing the time it takes for data to travel between components. This is particularly beneficial for tasks that involve real-time data processing or require quick access to external devices. The high HT speed enables near-instantaneous communication, resulting in a seamless user experience.

Enhanced Multi-GPU Performance

The high HT speed is especially advantageous for users utilizing multiple graphics cards in a CrossFire or SLI configuration. The fast data transfer rate allows for efficient communication between the processor and graphics cards, optimizing multi-GPU performance. Whether you are a gamer or a professional working with graphic-intensive applications, the AMD 6386se Processor's high HT speed ensures smooth and responsive graphics rendering.

Efficient I/O Operations

The 3200MHz HT speed greatly improves I/O (input/output) operations by reducing the time it takes to transfer data to and from peripherals. Whether you are connecting external storage devices, audio interfaces, or networking equipment, the high HT speed ensures efficient and rapid data exchange. This results in reduced wait times and improved overall system performance.

Socket Type

The AMD 6386se Processor is designed for use with the G34 socket type. The socket type refers to the physical interface between the processor and the motherboard. Choosing a compatible socket type is essential for proper installation and optimal performance.

Broad Compatibility

The G34 socket type of the AMD 6386se Processor offers broad compatibility with a range of motherboards. This ensures that users have a wide selection of motherboards to choose from, allowing them to find one that meets their specific requirements and preferences. Whether you are building a new system or upgrading an existing one, the G34 socket type provides flexibility and compatibility.

Scalability and Expansion

With the G34 socket type, users can take advantage of multi-processor configurations. This allows for scalability and expansion, making it an ideal choice for users who require additional processing power or plan to upgrade their systems in the future. The G34 socket type also supports features such as ECC (Error-Correcting Code) memory, which ensures data integrity and reliability.

Server Grade Performance

The G34 socket type is commonly found in server-grade motherboards, making it suitable for users who require high-performance computing capabilities. Whether you are running server applications, virtualization environments, or data-intensive workloads, the AMD 6386se Processor's G34 socket type provides the necessary power and reliability for demanding tasks.

Enterprise-Grade Features

The G34 socket type supports features tailored for enterprise-grade environments. These include support for multiple processors, extensive memory capacity, and advanced management capabilities. Whether you are setting up a small business server or a data center, the AMD 6386se Processor's G34 socket type ensures compatibility with enterprise-grade infrastructure.

Pin Count

The AMD 6386se Processor has a pin count of 1944. The pin count refers to the number of electrical contacts on the processor package, which connect it to the motherboard. Choosing a processor with a compatible pin count is crucial for proper installation and functionality.

Secure and Reliable Connection

The 1944-pin count of the AMD 6386se Processor ensures a secure and reliable connection between the processor and the motherboard. The large number of pins allows for a greater number of electrical contacts, reducing the risk of poor connections or signal interference. This results in stable system operation and reduces the likelihood of performance issues or system failures.

Enhanced Thermal Conductivity

The large pin count enables efficient heat dissipation from the processor to the motherboard. By providing more contact points, heat can be transferred more effectively, ensuring optimal temperature management. This is particularly important for maintaining stable performance and extending the lifespan of the processor.

Future-Proof Compatibility

The 1944-pin count ensures future-proof compatibility with a wide range of motherboards. Choosing a processor with a high pin count allows for compatibility with newer motherboard models that may require additional pins for advanced features or technologies. This ensures that your system remains upgradable and compatible with future hardware advancements.

Easy Installation

While a higher pin count may seem daunting, installing a processor with 1944 pins is a straightforward process. Motherboards designed for the AMD 6386se Processor's pin count provide clear indications and alignment mechanisms to ensure proper installation. With careful handling and following the manufacturer's instructions, you can easily install the processor without any complications.

Nm Technology

The AMD 6386se Processor utilizes 32nm (nanometer) technology. The nm technology refers to the size of the transistors used in the processor's manufacturing process. Smaller transistor sizes offer several benefits in terms of performance, power efficiency, and heat dissipation.

Improved Performance per Watt

The 32nm technology of the AMD 6386se Processor enables improved performance per watt compared to previous generations. The smaller transistor size allows for more transistors to be packed into the same area, increasing the processor's computational power while consuming less power. This results in improved energy efficiency and reduced operating costs.

Reduced Heat Generation

The smaller transistor size leads to reduced heat generation during operation. With less heat being generated, the AMD 6386se Processor can maintain lower operating temperatures, ensuring system stability and longevity. Additionally, lower heat generation allows for more effective cooling solutions, which can help maintain optimal performance even under heavy workloads.

Increased Clock Speeds

Smaller transistor sizes enable higher clock speeds due to improved electrical properties and reduced resistance within the processor. The 32nm technology of the AMD 6386se Processor allows for higher clock speeds, resulting in improved overall performance and faster data processing. This is particularly beneficial for tasks that require quick response times or involve heavy computational loads.

Optimized Power Consumption

The 32nm technology ensures optimized power consumption by reducing leakage currents within the processor. Leakage currents can waste power and generate unnecessary heat. By minimizing these currents, the AMD 6386se Processor delivers better power efficiency, resulting in lower energy costs and reduced environmental impact.

Power Consumption

The AMD 6386se Processor has a power consumption of 140w. Power consumption refers to the amount of electrical power required by the processor during operation. Choosing a processor with an appropriate power consumption is crucial for maintaining system stability, managing energy costs, and ensuring compatibility with power supply units.

Efficient Power Management

The 140w power consumption of the AMD 6386se Processor ensures efficient power management. The processor is designed to balance performance and power requirements, providing optimal performance while minimizing power consumption. This results in reduced energy costs and a smaller environmental footprint.

Compatibility with Power Supply Units

The 140w power consumption is within the range supported by most standard power supply units (PSUs). This ensures compatibility and allows users to easily integrate the AMD 6386se Processor into their existing systems without the need for additional hardware upgrades. It is always important to check the PSU specifications to ensure it can support the processor's power requirements.

Reduced Heat Generation

A lower power consumption leads to reduced heat generation during processor operation. The AMD 6386se Processor's 140w power consumption ensures that heat generation is kept at manageable levels, minimizing the strain on cooling solutions and improving overall system stability. This is particularly advantageous for systems that require extended periods of high-performance computing.

Energy Efficiency

With a power consumption of 140w, the AMD 6386se Processor offers excellent energy efficiency without sacrificing performance. The processor's efficient design ensures that power is utilized effectively, reducing wasted energy and lowering overall operating costs. Users can enjoy powerful computing capabilities while maintaining a greener and more sustainable approach to energy consumption.