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Intel Launches Its 14nm Broadwell-EX Platform - Led By A Monstrous Xeon E7-8890 v4 With 24 Cores / 48 Threads For Scalable HPC - dickersonthang1941

Intel has finally launched its 14nm based Broadwell-EX platform that volition win the 22nm based Haswell-EX platform. The Xeon E7 8890 v4 monster of a processor will represent leading the pack in its lineup of SKUs. The 8890 v4 boasts 24 Cores (and 48 duds) on a single R1 socket and will feature turbo frequency of as high as 3.4 Ghz. Which considering this is an go-ahead solution, is jolly impressive. The platform maxes out 3 DIMMs per channel on 8 channels for a tally of 24 DIMMs or 3 Terabyte/socket capacitance. 3rd Party node controllers will be supported on Brickland (E7 v4) to plunk fo smooth larger custom setups.

Intel formally launches Xeon E7-8800 v4 and Xeon E7-4800 v4 lineup of processors

The Xeon 8800 v4 platform or Brickland focuses entirely on scalable performance. Accordant to the pressure bodily we have, Intel is claiming 1.4x better performance than an equivalent IBM Power8 system at ½ the TDP. Not only that but its offer 10x better performance per dollar bill – which is the go-to metric (apart from performance per Watt) for HPC systems. Brickland supports broadloom integration of equal to 8 Socket designs for a grand total of 192 cores / 384 threads and 24 TB of DDR4 Memory support. That is a pretty insane amoun and should offer cost savings to business that will be able to shipshape the figurative herd of servers by using processors with more cores on them.

Owners of the E7 v3 series of processors will comprise able to use the same systems to run the newborn batting order of CPUs after a orbiculate BIOS update. Intel recently launched its 3D XPoint memory and this will follow supported on the brand-new political platform through use of NVDIMMs. It backside be used as bit-addressable not-volatile memory which features 10x the density of DRAM albeit at a slower pace than that of square RAM. The block diagram also shows that Intel has added a third QPI link that wish reduce the number of hops required for the CPUs in a multi-socket configuration to talk instantly with each other.

Very well, and so let's get down to the nitty spunky. The flagship processor will feature 60MB cache (sprouted from 45 MB max for Haswell-EX) and three QPI channels (9.6 GT/s Max). PCIe 3.0 bequeath be supported as well atomic number 3 the habitual plethora of Retention RAS such as ECC and Scrubbing features. One John R. Major difference between Haswell-Old-fashioned and Broadwell-EX is the fact that 4S Befool Mode (Cluster-on-Die) is finally backed up. 2S Owed Mode was already ever-present in Haswell-EX but with Broadwell-EX, 4S Befool is finally supported. RAS capabilities have likewise achieved OS/ISC integration starting from Broadwell-EX.

The Xeon E7-8890 v4, Xeon E7-8880 v4, Xeon E7-8870 v4, Xeon E7-8860 v4 and Xeon E7-8855 v4 will every last support 8S mode. Which his jargon for locution that they will be scalable capable 8 sockets. This is also why the terminology of the card starts with an E7-8XXX. The Xeon E7-4850 v4, Xeon E7-4830 v4, Xeon E7-4820 v4 and Xeon E7-4809 v4 will support 4S mode or scalability capable 4 sockets. There are also troika specialized variants present in the lineup. Namely Xeon E7-8893 v4, Xeon E7-8891 v4 and Xeon E7-8867 v4. All three bequeath funding 8S mode. A full specifications table is inclined beneath for comparing:

Intel Xeon E7-8800 v4 / E7-4400 v4 "Broadwell-Passe" Mainframe Family Specifications

WCCFTech Cores / Togs Time / Turbo L3 Cache QPI TDP MSRP
Intel® Xeon® Processor E7-8890 v4 24 / 48 2.2 / 3.4 Ghz 60 MB 9.6 GT / s 165 W $7174.00
Intel® Xeon® CPU E7-8880 v4 22 / 44 2.2 / 3.3 Ghz 55 MB 9.6 GT / s 150 W $5895.00
Intel® Xeon® Processor E7-8870 v4 20 / 40 2.1 / 3.0 Ghz 50 Bachelor of Medicine 9.6 GT / s 140 W $4672.00
Intel® Xeon® Processor E7-8860 v4 18 / 36 2.2 / 3.2 Ghz 45 MB 9.6 GT / s 140 W $4061.00
Intel® Xeon® Central processor E7-8855 v4 14 / 28 2.1 / 2.8 Ghz 35 MB 9.6 GT / s 140 W N/A
Intel® Xeon® Processor E7-8867 v4 18 / 36 2.4 / 3.3 Ghz 45 MB 9.6 GT / s 165 W $4672.00
Intel® Xeon® Central processing unit E7-8891 v4 10 / 20 2.8 / 3.5 Gc 60 MB 9.6 GT / s 165 W $6841.00
Intel® Xeon® Processor E7-8893 v4 4 / 8 3.2 / 3.5 Ghz 60 MB 9.6 GT / s 140 W $6841.00
Intel® Xeon® Processor E7-4850 v4 16 / 36 2.1 / 2.8 Ghz 40 MB 8.0 GT / s 115 W $3003.00
Intel® Xeon® Processor E7-4830 v4
14 / 28 2.0 / 2.8 GHz 35 MB 8.0 GT / s 115 W $2170.00
Intel® Xeon® Processor E7-4820 v4 10 / 20 2.0 Ghz 25 MB 6.4 GT / s 115 W $1502.00
Intel® Xeon® Processor E7-4809 v4 8 / 16 2.1 Ghz 20 Bachelor of Medicine 6.4 GT / s 115 W $1223.00

Broadwell-EX will be succeeded aside Skylake Purley Platform

Skylake Purley is composed to be the biggest update since the age doddery Nehalem platform. On with the improved carrying into action per watt that comes with every article iteration, Skylake EX Purley will actually ship with 6 Channels of DDR4 as opposing to 4. Information technology will also include the AVX 512 instruction set and will boast the 100G OmniPath interconnect. Skylake Purley will also have Cannonlake graphics support not to honorable mention FPGA integration (some other important upgrade). The FPGA will be able to fulfill programmable logic As opposed to the Skylake processor.

The sloping trough above details everything about the Purley platform for Skylake Xeon E5 and Xeon E7. One of the biggest advancements that Skylake bequeath have is the Intel Omnipath Computer architecture integration which will exist called Storm Lake (Multiplication 1). The PCH bequeath be codenamed Lewisburg while as it will also ship with updated Ethernet controllers. Another very Copernican point to note is that the platform will be scalable up to 8 Sockets – which is frankly an utterly insane amount for CPUs working in tandem in any given configuration. Specific SKUs have not been disclosed at this metre. Skylake EX Purley wish constitute spread prohibited amongst the entire scalable segment – different the previous iterations. The TDP will be configurable from 45W to 165W and will require Socket P. Another interesting point to note is the fact that non only will Purley update the number of PCIe slots to 48 but they will finally constitute configurable in x4, x8 and x16 divisions ( a major update).

Intel 'Braodwell-EX' - Xeon Processor E7 Family Feature Overview

The Intel® Xeon® processor E7-8800/4800 v4 families offer beefy performance, the manufacture's largest storage capacity per socket, advanced dependableness and hardware enhanced security system for period of time analytics so that businesses can rapidly gain actionable insights from monolithic and complex information sets. They are optimal for scale-aweigh platforms, delivering larger-than-life in-store computing for very-time analytics too as data-intensive workloads such A online dealing processing (OLTP), supply chain management (SCM) and enterprise imagination planning (ERP), among others. The Intel Xeon processor E7 v4 family delivers busy 1.4 times higher operation, adequate to 10 times punter performance for dollar and half the system power compared to IBM Power8*-based solutions3.

High Performance and In-Memory Capacity for Demanding Real-Time Analytics Workloads

The new processor crime syndicate offers clearance for growth with traditional four- and eight-socket support, is designed for configurations up to 256 sockets via third-party client controllers, and is old in OEM system designs that currently feature up to 64 sockets. It also offers industry-leading memory capacity of adequate 24TB in an eight-socket system, allowing massive datasets to embody stored completely in memory, rather than on hard drives, to accelerate clock time to insight and decision-fashioning.

Advanced Reliableness for Deprecative Uptime of Services

The radical processors admit more 70 reliability, availability and serviceability (RAS) features, including Intel® Endure Predestinate Technology that is incomparable to the Intel Xeon processor E7 family. These RAS features declare oneself civilised information integrity and mission-critical system readiness that reduces the frequency and cost of server downtime. In addition, improved misplay recovery mechanisms and features such atomic number 3 memory mirroring offer exceptional data reliability without driving up system-wide retentivity requirements.

Hardware Increased Security for Data Integrity and Developed Protection Against Malicious Attacks New security measur features built into the processors protect the virtually mission-critical, data-rich applications by encrypting data much faster, improving detection of svelte threats and increasing shelter against malicious attacks. The hardware-enhanced security department capabilities in the processors ply upward to 70 percent Thomas More encryption performance per sum4 significance that organizations nates better protect a growth amount of information with minimal impact to their organisation's performance, while delivering improved malware safeguards. In addition, the Intel® OS Guard now includes Supervisor Mode Access Protection to enable privileged accession implementations that offer IT much control over which users have access to sensitive system data and also help prevent a bitchy user from extending those vulnerabilities and exploiting other systems crossways the information center.

Hardware-Assisted Virtualization for Reinforced Efficiency of Go-ahead Workloads

Enhanced ironware-assisted virtualization allows IT to virtualize mission-critical endeavor workloads and move them into cloud-scale environments for new levels of agility and efficiency. Improvements in virtualization performance and resource management include lower latencies when entering and exiting virtual machines (VMs), fewer VM interrupts via posted interrupts, and less overhead in fault-tolerant environments with page limiting logging.

Smarter Resource Orchestration

The Intel Xeon CPU E7 v4 family enables great Information technology infrastructure controls by including advanced telemetry features and orchestration technologies such equally the Intel® Resource Director Technology. These features provide deeper profile and control over shared platform resources, resultant in efficient scheduling, load balancing and workload migration crossways virtual machines. As a issue, IT is able-bodied to improve asset utilization to deliver optimal select of service levels across multiple applications.

Source: https://wccftech.com/intel-broadwell-ex-xeon-e7-8890-24-cores/

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