APE is a family of supercomputers architecturally optimized for the numerical simulation of quantum field theories. Current generation APE systems (APEmille) have been commissioned at several European sites. When all planned systems are installed, later this year, a total peak processing power of about 2 TFlops will be available. A new generation system, apeNEXT, is under development. It adds several new features to the established APE architecture. Performance will be boosted towards the 10 Tflops range. (C) 2002 Published by Elsevier Science B.V
The APEmille high performance computer is a parallel SIMD machine, with local addressing, suited for...
This paper briefly describes the physics motivations and strategies of Lattice Gauge Theory (LGT), t...
The apeNEXT system is the latest in the APE collaboration's series of parallel computers for computa...
APE is a family of supercomputers architecturally optimized for the numerical simulation of quantum ...
We present the APE (Array Processor Experiment) project for the development of dedicated parallel co...
We present the current status of the apeNEXT project. Aim of this project is the development of the ...
Publisher Summary This chapter discusses the apeNEXl project, which is currently developing a mass...
We present the APE (Array Processor Experiment) project for the development of dedicated parallel co...
Numerical simulations in theoretical high-energy physics (Lattice QCD) require huge computing resour...
We present the current status of the apeNEXT project. Aim of this project is the development of the ...
We describe APE-100, a SIMD, modular parallel processor architecture for large scale scientific comp...
We present the apeNEXT project which is currently developing a massively parallel computer with a mu...
APEmille is a SIMD parallel processor under development at the Italian National Institute for Nuclea...
As the Lattice QCD develops improved techniques to shed light; on new physics, it demands increa...
to be published in the ProceedingsWe present the current status of the apeNEXT project. Aim of this ...
The APEmille high performance computer is a parallel SIMD machine, with local addressing, suited for...
This paper briefly describes the physics motivations and strategies of Lattice Gauge Theory (LGT), t...
The apeNEXT system is the latest in the APE collaboration's series of parallel computers for computa...
APE is a family of supercomputers architecturally optimized for the numerical simulation of quantum ...
We present the APE (Array Processor Experiment) project for the development of dedicated parallel co...
We present the current status of the apeNEXT project. Aim of this project is the development of the ...
Publisher Summary This chapter discusses the apeNEXl project, which is currently developing a mass...
We present the APE (Array Processor Experiment) project for the development of dedicated parallel co...
Numerical simulations in theoretical high-energy physics (Lattice QCD) require huge computing resour...
We present the current status of the apeNEXT project. Aim of this project is the development of the ...
We describe APE-100, a SIMD, modular parallel processor architecture for large scale scientific comp...
We present the apeNEXT project which is currently developing a massively parallel computer with a mu...
APEmille is a SIMD parallel processor under development at the Italian National Institute for Nuclea...
As the Lattice QCD develops improved techniques to shed light; on new physics, it demands increa...
to be published in the ProceedingsWe present the current status of the apeNEXT project. Aim of this ...
The APEmille high performance computer is a parallel SIMD machine, with local addressing, suited for...
This paper briefly describes the physics motivations and strategies of Lattice Gauge Theory (LGT), t...
The apeNEXT system is the latest in the APE collaboration's series of parallel computers for computa...