HPE EPYC 7f32 8-Core CPU 3.7GHz 128MB L3 Cache P28784-B21.

Core Count: 8

The HPE EPYC 7f32 CPU is equipped with an impressive core count of 8, making it a powerful choice for users who require high-performance computing capabilities. With each core operating independently, the processor can handle multiple tasks simultaneously, providing improved efficiency and faster processing speeds.

Enhanced Multitasking

The 8-core design allows users to run multiple applications and processes concurrently without experiencing significant performance degradation. This is particularly beneficial for professionals working with resource-intensive software, such as video editing or 3D rendering applications, as they can execute complex tasks more efficiently.

Seamless Virtualization

Virtualization is a critical aspect of modern computing environments, enabling users to create multiple virtual machines on a single physical server. The 8 cores of the HPE EPYC 7f32 CPU ensure smooth virtualization performance, allowing businesses to optimize their server resources and effectively manage their workloads.

Improved Gaming Experience

Gamers can also benefit from the increased core count. With more cores available, the CPU can handle demanding gaming applications with ease, delivering smoother gameplay and reducing the chances of lag or frame drops. This allows gamers to fully immerse themselves in their favorite titles without any interruptions.

Base Clock: 3.7GHz

The HPE EPYC 7f32 CPU features a base clock speed of 3.7GHz, providing users with a solid foundation for processing tasks. The base clock represents the minimum frequency at which the processor operates, ensuring reliable performance even during less demanding workloads.

Faster Single-Threaded Performance

A higher base clock speed translates to improved single-threaded performance. This is especially advantageous for applications that are not optimized for multi-threading, as they rely on a single core to execute tasks. With a base clock of 3.7GHz, the CPU can handle these tasks swiftly and efficiently.

Responsive System Operations

Operating systems and everyday computing tasks heavily rely on single-threaded performance. The HPE EPYC 7f32 CPU's 3.7GHz base clock ensures that users experience smooth and responsive system operations, such as web browsing, document editing, and multimedia playback.

Efficient Software Compilation

Software developers will appreciate the faster compilation times provided by the HPE EPYC 7f32 CPU's high base clock speed. Compiling large codebases can be a time-consuming process, but with a base clock of 3.7GHz, developers can significantly reduce the time required to build their applications, improving productivity.

L3 Cache: 128MB

The HPE EPYC 7f32 CPU boasts an impressive L3 cache size of 128MB, enhancing overall performance and responsiveness. L3 cache serves as a high-speed memory buffer between the processor cores and the main memory, enabling quick access to frequently used data.

Accelerated Data Access

The large L3 cache size ensures that frequently accessed data is readily available to the CPU cores, reducing latency and improving overall system performance. This is especially crucial for workloads that involve complex calculations or data-intensive operations, as it minimizes the time spent waiting for data to be fetched from main memory.

Seamless Multitasking

The substantial L3 cache size enables seamless multitasking by providing sufficient space to store data and instructions from various running processes. This allows the CPU to switch between tasks efficiently, ensuring smooth performance even when handling multiple applications simultaneously.

Improved Gaming Performance

Gamers will also notice the benefits of the HPE EPYC 7f32 CPU's large L3 cache during gameplay. The cache stores frequently accessed game assets, such as textures and models, reducing load times and improving overall gaming performance. This results in a more immersive and enjoyable gaming experience.

Socket Type: Sp3

The HPE EPYC 7f32 CPU utilizes the Sp3 socket type, providing compatibility with server-grade motherboards designed specifically for AMD EPYC processors. The Sp3 socket offers a range of benefits that cater to the needs of enterprise users and data center environments.

Scalability and Flexibility

The Sp3 socket type supports multi-socket configurations, allowing users to scale their server infrastructure to meet growing demands. With multiple CPUs installed on compatible motherboards, businesses can achieve higher levels of performance and handle more concurrent workloads.

ECC Memory Support

The Sp3 socket is designed to support Error Correcting Code (ECC) memory, which is crucial for maintaining data integrity in mission-critical applications. ECC memory detects and corrects single-bit errors, ensuring that data remains accurate and reliable, even in high-stakes scenarios.

Server-Grade Reliability

The Sp3 socket type is primarily used in server-grade systems, where reliability is of utmost importance. By choosing a CPU with the Sp3 socket type, users can ensure that their infrastructure meets the demanding standards required for enterprise-level operations, minimizing the risk of system failures and downtime.

Manufacturing Technology: 7nm

The HPE EPYC 7f32 CPU is manufactured using a cutting-edge 7nm process technology, which offers numerous advantages in terms of performance, power efficiency, and overall chip design.

Enhanced Performance

The 7nm manufacturing process allows for the creation of smaller transistors, enabling a higher density of components on the CPU die. This leads to improved performance, as signals can travel shorter distances and at higher speeds, resulting in faster data processing and reduced latency.

Power Efficiency

With smaller transistors, the HPE EPYC 7f32 CPU consumes less power while delivering enhanced performance. The 7nm manufacturing technology enables better power management and reduces leakage current, resulting in improved energy efficiency and lower operational costs for users.

Future-Proof Architecture

By utilizing the latest manufacturing technology, the HPE EPYC 7f32 CPU ensures that users have access to a cutting-edge processor that is well-positioned to handle emerging technologies and workloads. The 7nm architecture offers scalability and flexibility, allowing businesses to adapt to evolving computing demands without needing to upgrade their hardware frequently.

Power Consumption: 180W

The HPE EPYC 7f32 CPU operates with a power consumption of 180W, striking a balance between high-performance computing capabilities and energy efficiency. The power consumption of a CPU is an essential consideration for users looking to optimize their systems for power usage and cooling requirements.

Optimized Performance per Watt

The 180W power consumption of the HPE EPYC 7f32 CPU ensures that users can achieve high-performance computing without sacrificing energy efficiency. The processor's architecture and design allow it to deliver optimal performance per watt, making it an ideal choice for environments that prioritize power usage optimization.

Reduced Operating Costs

By consuming 180W of power, the HPE EPYC 7f32 CPU helps businesses reduce their operating costs. Lower power consumption translates to lower electricity bills and decreased cooling requirements, resulting in long-term cost savings for organizations that operate servers or data centers.

Thermal Management

The 180W power consumption of the HPE EPYC 7f32 CPU demands efficient thermal management to ensure the processor operates within safe temperature limits. Users can pair the CPU with appropriate cooling solutions, such as high-performance heatsinks or liquid cooling systems, to maintain optimal operating temperatures and prevent overheating.