Difference between revisions of "QUonG initiative"

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==The '''QUonG''' Proposal==
 
==The '''QUonG''' Proposal==
  
[[File:Elemento_QUonG.png|border|left|300px]]
+
The '''QUonG''' proposal is an initiative by [[image:Logo-infn.png|30px]]
[[File:QUonG_rack.png|border|right]]
+
[http://www.infn.it INFN] (Istituto Nazionale di Fisica Nucleare) aimed
 
+
at nurturing a hardware-software ecosystem targeted  
'''QUonG''' is an [[image:Logo-infn.png|30px]][http://www.infn.it INFN]
 
(Istituto Nazionale di Fisica Nucleare) initiative targeted to develop
 
 
a High Performance Computing system dedicated (but not limited) to
 
a High Performance Computing system dedicated (but not limited) to
 
[http://en.wikipedia.org/wiki/Lattice_qcd Lattice QCD] computations.
 
[http://en.wikipedia.org/wiki/Lattice_qcd Lattice QCD] computations.
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The network is built upon the [[APEnet+_project|APEnet+]] project.
 
The network is built upon the [[APEnet+_project|APEnet+]] project.
 +
 +
[[File:Elemento_QUonG.png|border|right|300px]]
  
 
=== The '''QUonG''' Prototype ===
 
=== The '''QUonG''' Prototype ===
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As a consequence, the '''QUonG''' elementary mechanical assembly is a
 
As a consequence, the '''QUonG''' elementary mechanical assembly is a
3U "sandwich" made of two Intel-based servers plus a NVIDIA S2050
+
3U "sandwich" made of two Intel-based servers plus a NVIDIA
multiple GPU system equipped with the APEnet+ network board.
+
S2050/70/90 multiple GPU system equipped with the APEnet+ network
 +
board.
  
 
The assembly collects two '''QUonG''' elementary computing units, each
 
The assembly collects two '''QUonG''' elementary computing units, each
 
made of one server hosting the interface board to control 2 (out of 4)
 
made of one server hosting the interface board to control 2 (out of 4)
GPU's inside the S2050 and one APEnet+ board. In this way, a
+
GPU's inside the S2050/70/90 and one APEnet+ board. In this way, a
 
'''QUonG''' elementary computing unit is topologically equivalent to
 
'''QUonG''' elementary computing unit is topologically equivalent to
 
two vertexes of the APEnet+ 3-dim mesh.
 
two vertexes of the APEnet+ 3-dim mesh.
 +
  
 
=== The envisioned '''QUonG''' Rack ===
 
=== The envisioned '''QUonG''' Rack ===
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be characterized by an estimated power consumption of the order of 400
 
be characterized by an estimated power consumption of the order of 400
 
kW and a cost ratio of the order of 5 kEuro/TFlops.
 
kW and a cost ratio of the order of 5 kEuro/TFlops.
 +
 +
[[File:QUonG_rack.png|border|left]]

Revision as of 16:22, 21 June 2011

The QUonG Proposal

The QUonG proposal is an initiative by Logo-infn.png INFN (Istituto Nazionale di Fisica Nucleare) aimed at nurturing a hardware-software ecosystem targeted a High Performance Computing system dedicated (but not limited) to Lattice QCD computations.

QUonG is a massively parallel computing platform built up from commodity multi-core processors coupled with latest generation GPUs; its communication mesh - being tailored to the characteristics of LQCD algorithms - is a point-to-point, high performance, low latency network where the computing nodes are topologically arranged as vertexes of a 3 dimensional torus.

The network is built upon the APEnet+ project.

Elemento QUonG.png

The QUonG Prototype

The first prototype of the QUonG parallel system is expected to be delivered before the end of 2011. The chosen ratio for this first deliverable is one (multi-core) host for two GPU's.

As a consequence, the QUonG elementary mechanical assembly is a 3U "sandwich" made of two Intel-based servers plus a NVIDIA S2050/70/90 multiple GPU system equipped with the APEnet+ network board.

The assembly collects two QUonG elementary computing units, each made of one server hosting the interface board to control 2 (out of 4) GPU's inside the S2050/70/90 and one APEnet+ board. In this way, a QUonG elementary computing unit is topologically equivalent to two vertexes of the APEnet+ 3-dim mesh.


The envisioned QUonG Rack

Building from the configuration of the first QUonG prototype equipped with current NVIDIA Tesla GPU's with Fermi architecture, we envision a final shape for a deployed QUonG system as an assembly of fully populated standard 42U height QUonG racks, each one capable of 60 TFlops/rack in single precision (30 TFlops/rack in double precision) of peak performance, at a cost of 5kEuro/TFlops and for an estimated power consumption of 25 kW/rack.

A typical QUonG PFlops scale installation, composed of 16 QUonG racks interconnected via APEnet+ 3-dim torus network, will be characterized by an estimated power consumption of the order of 400 kW and a cost ratio of the order of 5 kEuro/TFlops.

QUonG rack.png