Is it correct that Xeon W9-3495X offers 56-cores at 350W TDP
Yes, that is correct. The Intel Xeon W-3495X is a high-end workstation processor that offers 56 cores and 112 threads, making it well-suited for tasks that can make use of many cores and threads, such as rendering, simulation, and scientific modeling. It also has a TDP (thermal design power) of 350 watts, which is quite high and indicates that it will require a powerful cooling solution to keep it running at its best.
The Intel Xeon W-3495X is built on the LGA 2066 socket, also known as Socket R4, which is compatible with the X299 chipset. It also supports Intel Optane Memory and Intel RST, as well as Intel vPro technology, which is a set of hardware-assisted security and management features. It has a high TDP of 350W, which is much higher compared to mainstream processors, and it is important to have a robust cooling solution to keep the processor running at optimal temperatures. This processor also requires a high-end motherboard and power supply to support its high power requirements. It is a unlocked processor, which means that it can be overclocked to achieve even higher performance. However, overclocking can also increase the risk of stability issues and hardware damage, so it should be done with caution and proper cooling.
Overall, the Intel Xeon W-3495X is an extremely powerful processor designed for heavy workloads and demanding applications, and it is suitable for professionals and enthusiasts who need the best possible performance and are willing to invest in a high-end workstation.
The Intel Xeon W-3495X is part of the Xeon W family of processors, which are Intel’s flagship workstation processors, intended for use in high-end workstations and servers. These processors are designed to handle the most demanding workloads and applications, such as rendering, simulation, and scientific modeling.
One of the key advantages of the Xeon W-3495X is its large core count, with 56 cores and 112 threads, which allows it to handle multitasking and multithreaded workloads with ease. It also has a large amount of L3 cache, at 38.5MB, which helps to improve performance by reducing data access latency.
The processor also supports Intel’s Advanced Vector Extensions 512 (AVX-512), which are a set of instruction sets that accelerate performance for floating-point-intensive workloads, such as scientific simulations and machine learning.
It also supports Intel’s Turbo Boost Technology 2.0, which allows the processor to automatically increase its clock speed under certain conditions, providing an additional performance boost.
In summary, The Intel Xeon W-3495X is a powerful, high-end workstation processor that is designed to handle the most demanding workloads and applications. Its high core count, large amount of cache, and support for AVX-512 and Turbo Boost Technology 2.0 make it well suited for tasks that require a lot of processing power and parallelism.
One important thing to note about the Intel Xeon W-3495X is that it is not a consumer-grade processor, it is a professional grade processor intended for use in high-end workstations and servers. As such, it may not be compatible with all consumer-grade motherboards and may require a specialized workstation motherboard that supports the LGA 2066 socket and the X299 chipset.
Additionally, the high TDP of 350W means that it will generate a lot of heat and will require a robust cooling solution, such as a liquid cooling system, to keep it running at optimal temperatures.
Furthermore, the high power requirements of this processor also mean that it will require a high-end power supply, typically with a power output of at least 1000W, to provide enough power to the system.
Another important consideration is the cost, as the Intel Xeon W-3495X is a high-end workstation processor and it is significantly more expensive than consumer-grade processors.
In summary, the Intel Xeon W-3495X is a powerful, high-end workstation processor that is designed for the most demanding workloads and applications. However, it is not a consumer-grade processor and may require specialized hardware and cooling solutions, as well as a high-end power supply, and can be very expensive.
