The Mont-Blanc project brings together a purely European consortium gathering industrial technology providers and supercomputing research centres
Jülich / Garching / Barcelona, 26th October 2011. Energy efficiency is already a primary concern for the design of any computer system and it is unanimously recognized that future Exascale systems will be strongly constrained by theirpower consumption. This is why the Mont-Blanc project, whichwas launched on 14th October in Barcelona with a kick-off meeting, has set itself the following objective: to design a new type of computer architecture capable of setting future global High Performance Computing (HPC) standards that will deliverExascale performance while using 15 to 30 times less energy.
This new project is coordinated by the Barcelona Supercomputing Center (BSC) and has a budget of over 14 million Euros, including over 8 million Euros funded by the European Commission, has 3 objectives:
■ to develop a fully functional energy-efficient HPC prototype using low-power commercially available embedded technology
■ to design a next-generation HPC system together with a range of embedded technologies in order to overcome the limitations identified in the prototype system, and
■ to develop a portfolio of Exascale applications to be run on this new generation of HPC systems.
With energy efficiency being a key issue, supercomputers are expected to achieve 200Petaflop/s (PF) in 2017 with a power budget of 10MW, and 1000PF (1 Exaflops/s) in 2020 with a power budget of 20MW. That means an increase in energy-efficiency of more than 20 times compared with the most efficient supercomputers today. “First, we must take into account that not all energy is used for computing within the cores. In current systems the processors consume thelion’s share of the energy, often 40% or more. The remaining energy is used to power up the memory,
interconnection network, and storage system. Furthermore, a significant fraction is wasted in power supply overheads, and in thermal dissipation (cooling), which do not contribute to performance at all”, says Alex Ramirez, leader of the Mont-Blanc project. The system architecture in Mont-Blanc will rely on energy-efficient ARM processors, also used in embedded and mobile devices. It is expected to achieve from4 to 10 times increasein energy-efficiency compared with current technologies. The Mont-Blanc project brings together a purely European consortium which joinsindustrial technology providers and research supercomputing centers: Bull, as the major HPC system vendor, ARM, as the world leader in embedded highperformance processors, and Gnodal, as interconnect partner that focuses its new product on scalability and power efficiency. Besides the technology providers, Mont-Blancunites the supercomputing centres from the four Tier-0 hosting partners in PRACE who haveleading roles in system software and Exascale application development: Germany (ForschungszentrumJülich, BADW-LRZ), France (GENCI, CNRS), Italy (CINECA), and Spain (BSC).
They also run thousands of real applications on a daily basis on their Tier-0 and Tier-1 systems, coming from a vast number of scientific domains and serving a largecommunity of academic and industrial users. In order to assess the different hardware and software components made available during the project, an incremental approach will be used, working on both the porting and the optimisation ofsmall kernels, and then onreal end-users scientific applications.
For further information
Barcelona Supercomputing Center
Tel: +34 93 413-4082/+34 93 413-7514
Renata Giménez Binder/Sara Ibañez