Built on 14 nm process technology, the Intel® Xeon® Gold 6000 processor family offers up to 22 cores/44 threads per socket for increased performance.
Software enhanced with Intel® Advanced Vector Extensions 512 (Intel® AVX-512) allows to you accelerate data through 512 “lanes” of performance. Enabling processing of up to 512 bits of data with a single command, this accelerated processing takes compute to incredible levels. With support for up-to two Intel AVX-512 channels, the Intel Xeon Gold 6000 processor family delivers a level of compute for the most demanding workloads and services.
Experience the difference Intel delivers advanced hardware-enhanced reliability, availability and serviceability (Advanced RAS) available in the Intel® Xeon® Gold 5000 processor family-based solutions.
With double the flops per clock cycle compared to previous generation Intel® Advanced Vector Extensions 2 (Intel® AVX2), boost performance for your most demanding computational tasks in applications such as modelling and simulation, data analytics and machine learning, data compression, visualization and digital content creation.
New enhancements deliver advanced RAS (reliability, availability and serviceability) and server uptime for your most critical workloads. Hardware-assisted capabilities diagnose and recover from previously fatal errors, and also help ensure data integrity within the memory subsystem.
Intel® QAT enables hardware acceleration for cryptography and data compression, freeing the host processor to focus on other critical workloads.
High speed integrated data interconnect fabric for cost-effective deployment of HPC clusters.
Provides up to 4x10GbE high speed Ethernet capability for high data throughput and low latency workloads, reducing total system cost, power consumption and network latency1. Ideal for software-defined storage solutions, NVM Express* over fabric solutions and virtual machine migrations.
Network latency and throughput data were collected with select performance tool and workload compared to equivalent non-RDMA latency and throughput data with Intel® Ethernet Controller X710 on the same server platforms under the same settings and conditions. Cost and power consumption savings are based on the estimation with comparison to Intel® Ethernet Controller XL710 on formerly known Grantly platform.