Description
Product overview of the HP P10940-B21
P10940-B21 is a model of the HP Xeon processor family that has 12 cores, a base frequency of 2.2GHz, and a smart cache of 17mb. This processor has a UPI speed of 9.6GT/s and a thermal design power of 85 watts. It is designed for use in servers and workstations, and it is compatible with the FCLGA3647 socket. In this article, we will provide a detailed explanation of the features and specifications of the P10940-B21 HP Xeon processor.
12 Cores
The P10940-B21 HP Xeon processor has 12 cores, which means it can handle up to 12 tasks simultaneously. This makes it an ideal choice for servers and workstations that require high-performance computing. With 12 cores, this processor can handle demanding applications such as data analysis, scientific simulations, and virtualization.
2.2GHz Base Frequency
The base frequency of a processor is the speed at which it operates when it is not under any load. The P10940-B21 HP Xeon processor has a base frequency of 2.2GHz, which means it can perform basic computing tasks quickly and efficiently. The base frequency is important because it determines the speed at which the processor operates when it is idle.
17MB Smart Cache
The smart cache is a type of memory that is built into the processor. It is used to store frequently accessed data and instructions, which helps to reduce the amount of time it takes for the processor to access them. The P10940-B21 HP Xeon processor has a smart cache of 17mb, which is a large amount of memory compared to other processors. This means that the processor can access data quickly, which helps to improve overall system performance.
9.6GT/s UPI Speed
The UPI speed is the speed at which the processor communicates with other components in the system. The P10940-B21 HP Xeon processor has a UPI speed of 9.6GT/s, which means it can transfer data quickly and efficiently. This is important for servers and workstations that require high-bandwidth connections between components.
FCLGA3647 Socket
The FCLGA3647 socket is a type of socket used for high-end processors. It is designed to provide a high-bandwidth connection between the processor and other components in the system. The P10940-B21 HP Xeon processor is compatible with the FCLGA3647 socket, which means it can be used in systems that support this socket.
14nm Manufacturing Process
The manufacturing process used to make a processor is an important factor that affects its performance and efficiency. The P10940-B21 HP Xeon processor is manufactured using a 14nm process, which means it has a small die size. This allows more transistors to be packed into a smaller area, which helps to improve performance and reduce power consumption.
85W Thermal Design Power
The thermal design power (TDP) is the amount of power that a processor is designed to consume under typical operating conditions. The P10940-B21 HP Xeon processor has a TDP of 85 watts, which is a moderate amount of power consumption compared to other processors. This means that it can be used in systems that have limited power budgets.
In Summary,The P10940-B21 HP Xeon processor is a high-performance processor designed for use in servers and workstations. It has 12 cores, a base frequency of 2.2GHz, and a smart cache of 17mb. It also has a UPI speed of 9.6GT/s and is compatible with the FCLGA3647 socket. The processor is manufactured using a 14nm process and has a
Product features
- product type : server processor
- manufacturer part number : P10940-B21
- product model : silver 4214
technical information
- processor core : 12-core
- clock speed : 2.20GHz
- max turbo frequency : 3.20GHz
- ultrapath interconnect(upi) speed : 9.6GT/S
- no. Of upi links : 2
- instruction set : 64-bit
- instruction set extensions : intel® AVX-512
cache memory detail
- • smart cache : 17MB
- lithography : 14NM
- max thermal design power (TDP) : 85W
- compatible processor socket : FCLGA3647
- max memory size (dependent on memory type) : 1TB
- memory types : DDR4-2400
- maximum memory speed : 2.40GHz
- max no. Of memory channels : 6
- ecc memory supported : YES