Intel S3647 XEON SILVER 4214 TRAY 12×2.2 85W

Description

Intel Xeon 4214. Processor family: Intel® Xeon Silver, processor socket: LGA 3647 (Socket P), component for: Server / workstation. Memory channels: Hexa-channel, maximum internal memory, supported by the processor: 1024 GB, memory types, supported by the processor: DDR4-SDRAM. Supported instruction sets: SSE4.2, AVX, AVX 2.0, AVX-512, Scalability: 2S, Market segment: Server. Packaging type: retail box. Processor package size: 76mm x 56.5mm

Intel® Turbo Boost Technology

Intel® Turbo Boost Technology dynamically increases the frequency of a processor as required by utilizing the temperature and power reserves in order to offer more speed if required and otherwise more energy efficiency.

Intel® vPro ™ platform qualification

Intel® vPro ™ technology is a set of security and manageability functions that are built into the processor and handle four critical areas in IT security: 1) threat management, including protection against rootkits, viruses and malware, 2) protection of identities and website access points, 3) protection of confidential personal and business data, 4) remote and local monitoring, correction and repair of PCs and workstations.

Intel® Hyper-Threading Technology

Intel® Hyper-Threading Technology enables two processing threads per physical core. Applications with many threads can do more tasks in parallel and finish tasks earlier.

Intel® Virtualization Technology (VT-x)

With the Intel® virtualization technology (VT-x), a hardware platform can be used as several “virtual” platforms. It provides improved manageability by reducing downtime and maintaining productivity by moving compute operations to separate partitions.

Intel® Directed-I / O Virtualization Technology (VT-d)

The Intel® Directed-I / O virtualization technology (VT-d) continues the existing support of virtualization solutions for the IA-32 (VT-x) and systems with Itanium® processors (VT-i) and expands this with new support for the I / O device virtualization. The Intel VT-d can help users improve the security and reliability of systems and the performance of I / O devices in virtualized environments.

Intel® VT-x with Extended Page Tables (EPT)

Intel® VT-x with Extended Page Tables (EPT), also known as Second Level Address Translation (SLAT), accelerates memory-intensive virtualization applications. The use of extended page tables on platforms with Intel® virtualization technology reduces the total costs for memory and power supply and increases battery life through hardware optimization of the page table management.

Intel® TSX-NI

The Intel® Transactional Synchronization Extensions New Instructions (Intel® TSX-NI) are a set of instructions for multi-threaded performance scaling. This technique improves the efficiency of parallel processes through the improved control of locks in software.

Intel® 64

In conjunction with the appropriate software, the Intel® 64 architecture enables 64-bit processing on servers, workstations, PCs and mobile platforms. 1 Intel 64 improves performance because the system can address more than 4 GB of virtual and physical memory with this processor expansion .

Instruction set

An instruction set refers to the set of basic instructions and instructions that a microprocessor understands and can execute. The displayed value indicates which Intel instruction set this processor is compatible with.

Extensions to the instruction set

Instruction set extensions are additional instructions to improve performance when performing the same operations on multiple data objects. These can include SSE (Streaming SIMD Extensions) and AVX (Advanced Vector Extensions).

Number of AVX-512 FMA units

Intel® Advanced Vector Extensions 512 (AVX-512) are new instruction set extensions that provide ultra-broadband (512-bit) vector operation capabilities with up to 2 Fused Multiply Adds (FMAs) to accelerate your most demanding computational tasks.

Advanced Intel SpeedStep® technology

The Advanced Intel SpeedStep® Technology is an advanced functionality for the combination of high performance with the lowest possible energy consumption required on mobile devices. The conventional Intel SpeedStep® technology switches the voltage and the frequency simultaneously between high and low values depending on the processor load. The Advanced Intel SpeedStep® Technology builds on this architecture and uses design strategies such as separation between voltage and frequency changes and clock partitioning and recovery.

Intel® Speed Shift Technology

Intel® Speed Shift Technology uses hardware-controlled P-states to achieve a significantly faster response time with temporary, single-thread workloads of short duration (such as when browsing the Internet). This enables the processor to select the best operating frequency and voltage in each case in order to achieve optimum performance and energy efficiency.