Description
Intel Advanced Vector Extensions 512 (AVX-512)
Intel Advanced Vector Extensions 512 (AVX-512) is a set of 512-bit instruction set extensions to the x86 instruction set architecture. AVX-512 provides a significant performance boost for floating-point-intensive applications such as scientific simulations, financial analytics, and machine learning algorithms. It enables the processor to perform more floating-point operations per clock cycle, leading to faster performance.
AVX-512 also introduces new instruction types, including masked operations and scatter/gather memory access, which allow for more efficient processing of data-parallel algorithms. These new instructions and optimizations make the Xeon Gold 6230 processor a powerful choice for demanding workloads in data centers and enterprise-level computing environments.
Intel Deep Learning Boost (Intel DL Boost)
Intel Deep Learning Boost (Intel DL Boost) is a feature of Intel’s Xeon Scalable processors, including the Xeon Gold 6230, that provides a performance boost for deep learning workloads. Deep learning is a type of machine learning that uses artificial neural networks to analyze large amounts of data and identify patterns. This type of workload is computationally intensive and requires a lot of processing power.
Intel DL Boost enhances the performance of deep learning workloads by using the processor’s Vector Neural Network Instructions (VNNI) to accelerate the processing of large matrix operations. These instructions allow for faster processing of deep learning algorithms, resulting in reduced latency and improved performance for these types of applications.
With Intel DL Boost, the Xeon Gold 6230 can provide significant performance gains for data centers and other enterprise-level computing environments that rely on deep learning algorithms for their operations. This makes the Xeon Gold 6230 an excellent choice for organizations looking to enhance their deep learning capabilities.
14NM Technology for Improved Power Efficiency
14nm technology refers to the process technology used to manufacture the transistors on a microprocessor’s die. It refers to the size of the transistors, which determines the density of transistors on the die and, therefore, the performance and power efficiency of the processor.
The Intel Xeon Gold 6230 processor is manufactured using 14nm technology, which provides improved power efficiency compared to older, larger process technologies. This means that the processor can perform more operations per clock cycle while using less power, resulting in lower power consumption and improved thermal performance.
This improved power efficiency has several benefits for data centers and enterprise-level computing environments. For example, it can lead to lower operating costs due to reduced energy usage and cooling requirements. It can also allow for the deployment of more processors in a given power and thermal envelope, enabling increased compute density.
General Information
- Product Type : Server Processor
- Product Manufacturer : Intel Corporation
- Product Model : Gold 6230
Technical information
- Processor Core : 20 Core
- Clock Speed : 2.10GHz
- Max Turbo Frequency : 3.90GHz
- Ultrapath Interconnect(Upi) Speed : 10.4GT/S
- No. Of UPI Links : 3
- Instruction Set : 64-Bit
- Instruction Set Extensions : Intel® AVX-512
- Smart Cache : 28MB
- Lithography : 14NM
- Max Thermal Design Power (TDP) : 125W
- Compatible Processor Socket : FCLGA3647
- Max Memory Size (Dependent On Memory Type) : 1TB
- Memory Types : DDR4-2933
- Maximum Memory Speed : 2.9GHz
- Max No. Of Memory Channels : 6
- ECC Memory Supported : Yes.