Description
Overview Understanding the AMD EPYC 7413 Processor
AMD EPYC 7413 is a high-performance processor designed for servers and data centers. It belongs to the AMD EPYC 7003 series of processors that are based on the Zen 3 architecture. The EPYC 7413 has 24 cores and 48 threads, which makes it suitable for handling demanding workloads such as virtualization, database management, and high-performance computing. This processor has a base clock speed of 2.65 GHz and a boost clock speed of up to 3.5 GHz. It also features a massive 128 MB L3 cache, which helps reduce memory access latency and improve overall performance.
In this article, we will dive deeper into the features and specifications of the AMD EPYC 7413 processor, and explore why it is a popular choice among server builders and data center operators.
24 Cores and 48 Threads
The AMD EPYC 7413 processor has 24 cores and 48 threads, which means it can execute up to 48 instructions simultaneously. This is achieved through a technology called Simultaneous Multithreading (SMT), which allows multiple threads to run on a single core. With 24 cores and 48 threads, the EPYC 7413 is capable of handling complex workloads that require a lot of parallel processing.
For example, virtualization software such as VMware and Hyper-V can take advantage of the EPYC 7413’s multiple cores and threads to run multiple virtual machines simultaneously. This allows for greater consolidation of workloads and reduces the need for physical servers. Similarly, database management systems such as MySQL and Oracle can benefit from the EPYC 7413’s processing power to execute queries and transactions quickly and efficiently.
Clock Speeds and Boost Technology
The AMD EPYC 7413 processor has a base clock speed of 2.65 GHz, which means it operates at this speed under normal conditions. However, it also features a boost clock speed of up to 3.5 GHz, which means it can increase its clock speed temporarily to handle more demanding workloads. This boost technology is called Precision Boost 2, and it works by dynamically adjusting the clock speed based on the processor’s power consumption and temperature.
The EPYC 7413’s boost technology is particularly useful for workloads that require short bursts of high processing power. For example, machine learning algorithms that require a lot of matrix calculations can benefit from the EPYC 7413’s boost technology to execute these calculations quickly. Similarly, scientific simulations that require high processing power for short periods can also benefit from the EPYC 7413’s boost technology.
Cache Sizes: How Much Data can the EPYC 7413 Store
The AMD EPYC 7413 processor has a massive 128 MB L3 cache, which is the largest cache size among all the EPYC 7003 series processors. Cache is a type of memory that stores frequently accessed data and instructions close to the processor, which helps reduce memory access latency and improve overall performance.
Overall, the EPYC 7413’s large cache size is particularly useful for workloads that require a lot of data processing. For example, video transcoding software that needs to read and write large amounts of data can benefit from the EPYC 7413’s large cache size to reduce data access times. Similarly, scientific simulations that require a lot of data processing can also benefit from the EPYC 7413’s large cache size to improve performance.
General Information
- Manufacturer: AMD
- Part Number or SKU# 100-100000323WOF
- Series: AMD EPYC 7003
- Core Model Type: 7413
- Processor Code Name: Milan
Technical Information
- Manufacturing Technology: 7 nm
- 64-Core
- # of Threads: 48
- Clock Speed: 2650 MHz
- L3 Cache Size: 128 MB
- Thermal Power: 180 Watts
- CPU Socket Type: Socket SP3