Microservers Powered by Intel® Xeon® and Intel® Atom™ Processors

Microservers are an emerging form factor of servers designed to process workloads for hyper-scale data centers. Because of its high density and energy-efficient design, the infrastructure (such as fan and power supply) of a microserver can be shared by tens or, potentially, hundreds of physical server nodes, eliminating the space and power consumption of duplicate infrastructure components.

Intel® Xeon® processor E3-1200 v3 product family for microservers

When you’re looking for a microserver with the best performance per watt, look no further than an efficient Intel® Xeon® processor E3-1200 v3 product family-based solution¹,²,³. With up to 52%⁴ better performance per watt and 24%⁵ lower power than the previous generation, the Intel Xeon processor E3-1200 v3 product family lets you scale out your web services while scaling down your power consumption.

Learn more about the Intel® Xeon® processor E3 >

Intel® Atom™ processor S1200 product family

Need microservers that are big on density and energy efficiency? The Intel® Atom™ processor S1200 product family allows you to maximize rack space and reduce energy costs with microservers that require less than 10 watts per server node. The Intel Atom processor supports full server class features, including a 64-bit instruction set, ECC memory, Intel® Hyper-Threading Technology (Intel® HT Technology), Intel® Virtualization Technology, and more. With common x86 architecture, your software environment can be easily scaled across all platforms with Intel Xeon and Intel Atom processors. No software porting is required.

Learn more about the Intel® Atom™ processor S1200 product family >

Diagram comparing Xeon LV E3 and Atom S1200 web hosters

*A server node includes processor, memory, and required discrete I/O controllers

Which one is better?

You may ask, "Which is going to be better, Xeon E3 or Atom S1200?" The answer is that it depends on the application and usage. The usage model, the data center power envelope, and the system type are all key factors.

To illustrate that, consider two types of web serving. One, there is a dedicated hoster that serves up lightweight web pages and needs as many low cost instances as possible. Two, there are web tiers that require maximum throughput but may not require as many distinct images.

For the first case, the Intel Atom processor S1200 family represents a potential solution. A reasonably powered rack could support 560 nodes. In some instances, you can expect to see racks with as many as 1,500 nodes in it. That kind of dedicated server density has not existed before. And comparing it to the Intel Xeon processor E3 equivalent, that is up to 5x⁶the server density. For the second case, the Intel Xeon processor E3 provides substantially higher performance due to more cores and higher perf/core. We see it delivering up to 2x⁶the number of web transactions despite fewer servers.

Intel® Microservers

Lightweight microservers

Microservers are a high-density yet low-power solution for workloads that need to scale as demand grows.

See how microservers work >

Microserver lab

Test your own software on microservers featuring Intel® Atom™ and Intel® Xeon® processors and analyze potential options and benefits.

Learn how >

Intel® Chip Chat: Microservers

From microservers to hyper-scaling, learn about the Intel® microserver platform and how it can be innovated upon.

Listen now >

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Información sobre productos y desempeño

1. El software y las cargas de trabajo que se utilizan en las pruebas de desempeño pueden haber sido optimizados para desempeño sólo en microprocesadores Intel. Las pruebas de desempeño, como SYSmark y MobileMark, se miden utilizando sistemas de computación, componentes, software, operaciones y funciones específicos. Cualquier cambio en alguno de estos factores puede dar lugar a que los resultados varíen. Debe consultar otra información y pruebas de desempeño para que lo ayuden a evaluar en forma completa sus compras contempladas, incluido el desempeño de ese producto cuando se lo combina con otros.

2. Los resultados se han calculado en función de un análisis interno de Intel y sólo se proveen para fines informativos. Cualquier diferencia en el diseño o la configuración del hardware o software del sistema podría afectar el desempeño real.

3. Intel no ejerce control ni inspección sobre el diseño o la implementación de los valores de referencia o sitios web de terceros a los que se hace referencia en este documento. Intel recomienda a todos sus clientes visitar los sitios web a los que se hace referencia u otros donde se publiquen referencias de desempeño similares y confirmar si las referencias citadas son precisas y reflejan el desempeño de los sistemas disponibles para la compra.

4. Configuración básica: Fujitsu* TX140 S1p con un procesador Intel® Xeon® E3-1265L v2 (caché de 8 M, 2,50 GHz), 16 GB (2 x 8 GB 2R x 8 PC3-10600E-11, ECC), SATA de 1 x 500 GB, 7200 RPM, tecnología Intel® Hyper-Threading® habilitada, tecnología Intel® Turbo Boost habilitada, Red Hat* Enterprise Linux Server versión 6.2, Kernel 2.6.32-220.el6.x86_64, versión de compilador 12.1.0.293 de Intel C++ Compiler XE. Representa los mejores resultados publicados al mes de abril de 2013. Calificación: SPECint*_rate_base2006=169. http://www.spec.org/cpu2006/results/res2012q2/cpu2006-20120522-22364.html. TDP del procesador = 45 W, Desemp./W=3,76 Nueva configuración: Plataforma Intel® Xeon® para servidores basada en el chipset Intel® C226 con un procesador Intel® Xeon® E3-1230L v3 (caché de 8 M, 1,8 GHz), 16 GB (DDR3 de doble rango 2 x 8 GB-UDIMM 1600 ECC), HDD SATA de 250 GB 6 Gb/s, tecnología Intel® Hyper-Threading® habilitada, tecnología Intel® Turbo Boost habilitada, Red Hat* Enterprise Linux Server 6.3 para x86_64, versión de compilador 13.0.0.133 de Intel® C++ Studio XE e Intel Fortran. Fuente: Mediciones estimadas internas de Intel, abril de 2013. Calificación: SPECint*_rate_base2006=143. TDP del procesador = 25 W, Desemp./W=5,72

5. Reducción del consumo de energía del procesador Intel® Xeon® E3-1220L v2 con TDP de v17 W al procesador Intel® Xeon® E3-1220L v3 con TDP de 13 W.

6. Hoja Dell* C5220 con chasis Dell PowerEdge* 5000 utilizando 112 nodos de procesador Intel® Xeon® E3-1265L v2 por bastidor (14 chasis/bastidor * 8 hojas/chasis) con DDR3 de 16 GB, SSD 2 x 480 GB, 2 x 10 GbE por nodo. Utilizando una carga de trabajo web de transacciones dinámicas, servicio web/nodo: 15,303, servicio web/bastidor: 1,713,986, energía/nodo: 60 W (estimación basada en TDP de CPU, chipset, memoria, interfaz de red, HDD y energía amortizada para ventiladores y PSU). Un bastidor de 560 nodos de procesador Intel® Atom® S1260 con DDR3 de 8 GB, SSD 2 x 150 GB, 2 x 1 GbE por nodo. Utilizando una carga de trabajo web de transacciones dinámicas, servicio web/nodo:1,522, servicio web/bastidor: 852,320, potencia/nodo: 20 W (estimación basada en TDP de CPU, chipset, memoria, interfaz de red, HDD y energía amortizada para ventiladores y PSU).

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Microservers Powered by Intel® Xeon® and Intel® Atom™ Processors