AMD 100-000001235 EPYC 128-Core 2.2-3.0GHz Server CPU, 256MB L3 Cache, 340W Power
- — Free Ground Shipping
- — Min. 6-month Replacement Warranty
- — Genuine/Authentic Products
- — Easy Return and Exchange
- — Different Payment Methods
- — Best Price
- — We Guarantee Price Matching
- — Tax-Exempt Facilities
- — 24/7 Live Chat, Phone Support
- — Visa, MasterCard, Discover, and Amex
- — JCB, Diners Club, UnionPay
- — PayPal, ACH/Wire Transfer
- — Apple Pay, Amazon Pay, Google Pay
- — Buy Now, Pay Later - Affirm, Afterpay
- — GOV/EDU/Institutions PO's Accepted
- — Invoices
- — Deliver Anywhere
- — Express Delivery in the USA and Worldwide
- — Ship to -APO -FPO
- — For USA - Free Ground Shipping
- — Worldwide - from $30
Clock Speed: 2.2-3.0GHz
The clock speed of the AMD EPYC 128-Core Server CPU is an essential feature that determines the processing power and speed of the CPU. Clock speed refers to the number of cycles per second that a CPU can execute. In the case of this server CPU, it operates at a range of 2.2 to 3.0GHz, which indicates the speed at which it can perform tasks and process data.
Enhanced Performance
The clock speed directly affects the performance of a CPU. A higher clock speed means that the CPU can execute more instructions per second, resulting in faster processing and improved overall performance. With a clock speed range of 2.2 to 3.0GHz, the AMD EPYC 128-Core Server CPU offers enhanced performance capabilities, enabling users to complete demanding tasks efficiently.
Seamless Multitasking
Multitasking is a common requirement for server CPUs, as they often handle multiple processes simultaneously. The clock speed plays a crucial role in enabling smooth multitasking by allowing the CPU to quickly switch between different tasks without experiencing significant performance drops. With a clock speed range of 2.2 to 3.0GHz, this server CPU ensures seamless multitasking, even when dealing with resource-intensive applications and workloads.
Improved Responsiveness
The clock speed also impacts the responsiveness of a CPU. It determines how quickly the CPU can respond to user input and execute commands. A higher clock speed translates into faster response times, resulting in a snappy and smooth user experience. With a clock speed range of 2.2 to 3.0GHz, the AMD EPYC 128-Core Server CPU delivers excellent responsiveness, allowing users to interact with their applications and systems without any noticeable delays.
Efficient Data Processing
Efficient data processing is crucial for server CPUs, as they handle vast amounts of data and perform complex calculations. The clock speed directly influences the CPU's ability to process data quickly and accurately. A higher clock speed allows for faster data processing, enabling tasks to be completed in a shorter amount of time. With a clock speed range of 2.2 to 3.0GHz, this server CPU ensures efficient data processing, making it suitable for demanding workloads and data-intensive applications.
Optimized Workflows
The clock speed of the AMD EPYC 128-Core Server CPU plays a vital role in optimizing workflows. By providing fast and efficient processing capabilities, it enables businesses and organizations to streamline their operations and increase productivity. The CPU's ability to quickly execute instructions and process data allows for smooth workflow execution, reducing bottlenecks and ensuring that tasks are completed promptly.
High-Performance Computing
The clock speed is particularly important for high-performance computing (HPC) applications that require significant computational power. HPC tasks often involve complex simulations, scientific research, financial modeling, or machine learning algorithms. The AMD EPYC 128-Core Server CPU's clock speed range of 2.2 to 3.0GHz provides the necessary horsepower to handle these demanding HPC workloads efficiently, accelerating time-to-insights and enabling breakthrough discoveries.
Cache: 256MB L3
The cache is an integral part of a CPU that stores frequently accessed data and instructions, allowing for faster retrieval and execution. The AMD EPYC 128-Core Server CPU boasts an impressive cache size of 256MB L3, which brings several benefits and importance to users.
Reduced Memory Latency
The cache plays a crucial role in reducing memory latency, which is the time it takes for the CPU to access data from the main memory. By storing frequently accessed data in the cache, the CPU can retrieve it much faster compared to accessing it directly from the main memory. With a large 256MB L3 cache, the AMD EPYC 128-Core Server CPU minimizes memory latency, resulting in improved performance and responsiveness.
Improved Data Access Speed
The cache size directly impacts the speed at which data can be accessed by the CPU. A larger cache allows for more data to be stored closer to the processing cores, reducing the time it takes to retrieve information. With a generous 256MB L3 cache, this server CPU enables faster data access, enhancing overall system performance and efficiency.
Enhanced Instruction Execution
The cache not only stores data but also holds frequently used instructions. By caching instructions, the CPU can quickly retrieve them when needed, avoiding the need to fetch them from the main memory repeatedly. This speeds up instruction execution and improves overall system performance. With a substantial 256MB L3 cache, the AMD EPYC 128-Core Server CPU ensures efficient instruction execution, allowing for swift and seamless task completion.
Optimized Workload Handling
The cache size is crucial for optimizing workload handling. A larger cache allows for more data and instructions to be stored, reducing the need to access external resources such as RAM or storage devices. This helps minimize bottlenecks and ensures that the CPU can handle demanding workloads efficiently. With a generous 256MB L3 cache, this server CPU enables smooth and optimized workload handling, making it suitable for a wide range of applications and tasks.
Accelerated Virtualization Performance
Virtualization is a key technology for modern server environments, enabling efficient resource utilization and workload consolidation. The cache size significantly impacts virtualization performance by allowing for faster access to virtual machine data and instructions. With its 256MB L3 cache, the AMD EPYC 128-Core Server CPU delivers accelerated virtualization performance, allowing businesses to run multiple virtual machines simultaneously with minimal performance degradation.
Seamless Data-Intensive Applications
Data-intensive applications, such as big data analytics, database management systems, or content delivery networks, require fast and efficient data access. The large 256MB L3 cache of the AMD EPYC 128-Core Server CPU ensures seamless execution of these applications by providing quick access to frequently used data. This results in improved performance and responsiveness, enabling businesses to derive valuable insights from their data in a timely manner.
Power: 340W
The power consumption of a CPU is an essential consideration for server deployments. The AMD EPYC 128-Core Server CPU has a power rating of 340W, which brings several benefits and importance for users.
Energy Efficiency
Efficient power consumption is crucial for server environments where multiple CPUs are running simultaneously. By consuming only 340W of power, the AMD EPYC 128-Core Server CPU delivers high-performance computing capabilities while minimizing energy consumption. This translates into cost savings for businesses as they can run their servers more efficiently without compromising on performance.
Reduced Cooling Requirements
The power consumption of a CPU directly affects the cooling requirements of the system. CPUs that consume less power generate less heat, reducing the need for extensive cooling solutions. With a power rating of 340W, the AMD EPYC 128-Core Server CPU helps minimize cooling requirements, resulting in lower operational costs and improved energy efficiency.
Environmentally Friendly
Reducing energy consumption is not only beneficial for businesses but also for the environment. By opting for a low-power CPU like the AMD EPYC 128-Core Server CPU with its 340W power rating, organizations contribute to a greener and more sustainable future. Lower power consumption means fewer greenhouse gas emissions and a reduced carbon footprint, aligning with the growing importance of environmental responsibility.
Optimized System Design
The power rating of a CPU is a crucial factor in system design and architecture. CPUs with high power consumption require more substantial power delivery systems and cooling solutions, which can increase the overall complexity and cost of the server infrastructure. With a power rating of 340W, the AMD EPYC 128-Core Server CPU enables optimized system design by allowing for more streamlined power delivery and cooling solutions.
Scalability and Flexibility
The power consumption of the AMD EPYC 128-Core Server CPU also makes it suitable for scalability and flexibility in server deployments. With its 340W power rating, businesses can easily scale their server infrastructure without worrying about exceeding power capacity or compromising performance. This flexibility enables organizations to adapt to changing workloads and demands, ensuring that their server resources can grow alongside their business needs.