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The new wave of the APE Project: APEmille

Abstract

We describe APEmille, the latest generation of the APE parallel processors. This machine, an evolution of the APE100 concept, is very efficient for LGT simulations as well as for a broader class of applications requiring massive floating point computations. Several new features characterise this evolution. In particular local addressing capabilities are added to all computing nodes. APEmille also exhibits a higher degree of integration with a network of workstations acting as a global host system. An APEmille system in the Teraflops range will be completed in three-four years. The architecture proposed in this paper is being currently simulated and evaluated. ((orig.)).
Authors:
Bartoloni, A; [1]  Battista, C; [1]  Bellacci, M; [1]  Cabasino, S; [1]  Cabibbo, N; [1]  Cosimi, M; [1]  Dagostino, U; [1]  Marzano, F; [1]  Panizzi, E; [1]  Paolucci, P S; [1]  Rapuano, F; [1]  Rinaldi, W; [1]  Sarno, R; [1]  Todesco, G M; [1]  Torelli, M; [1]  Vicini, P; [1]  Laico, F; [2]  Tripiccione, R [2] 
  1. Universita di Roma `La Sapienza` (Italy). Dipartimento di Fisica and INFN
  2. INFN Sezione di Pisa and Dipartimento di Fisica, Universita di Pisa, Via Livornese, 56010 Pisa (Italy)
Publication Date:
Apr 01, 1995
Product Type:
Journal Article
Report Number:
CONF-9409269-
Reference Number:
SCA: 990200; PA: AIX-26:064187; EDB-95:133389; SN: 95001458245
Resource Relation:
Journal Name: Nuclear Physics B, Proceedings Supplements; Journal Volume: 42; Conference: Lattice `94, Bielefeld (Germany), 25 Sep - 1 Oct 1994; Other Information: PBD: Apr 1995
Subject:
99 MATHEMATICS, COMPUTERS, INFORMATION SCIENCE, MANAGEMENT, LAW, MISCELLANEOUS; ARRAY PROCESSORS; COMPUTER ARCHITECTURE; COMPUTER CALCULATIONS; COMPUTER CODES; COMPUTER NETWORKS; COMPUTERIZED SIMULATION; EFFICIENCY; LATTICE FIELD THEORY; MEMORY DEVICES; PARALLEL PROCESSING; UNIFIED GAUGE MODELS
OSTI ID:
101007
Country of Origin:
Netherlands
Language:
English
Other Identifying Numbers:
Journal ID: NPBSE7; ISSN 0920-5632; TRN: NL95FF598064187
Submitting Site:
NLN
Size:
pp. 17-20
Announcement Date:
Oct 05, 1995

Citation Formats

Bartoloni, A, Battista, C, Bellacci, M, Cabasino, S, Cabibbo, N, Cosimi, M, Dagostino, U, Marzano, F, Panizzi, E, Paolucci, P S, Rapuano, F, Rinaldi, W, Sarno, R, Todesco, G M, Torelli, M, Vicini, P, Laico, F, and Tripiccione, R. The new wave of the APE Project: APEmille. Netherlands: N. p., 1995. Web. doi:10.1016/0920-5632(95)00182-9.
Bartoloni, A, Battista, C, Bellacci, M, Cabasino, S, Cabibbo, N, Cosimi, M, Dagostino, U, Marzano, F, Panizzi, E, Paolucci, P S, Rapuano, F, Rinaldi, W, Sarno, R, Todesco, G M, Torelli, M, Vicini, P, Laico, F, & Tripiccione, R. The new wave of the APE Project: APEmille. Netherlands. doi:10.1016/0920-5632(95)00182-9.
Bartoloni, A, Battista, C, Bellacci, M, Cabasino, S, Cabibbo, N, Cosimi, M, Dagostino, U, Marzano, F, Panizzi, E, Paolucci, P S, Rapuano, F, Rinaldi, W, Sarno, R, Todesco, G M, Torelli, M, Vicini, P, Laico, F, and Tripiccione, R. 1995. "The new wave of the APE Project: APEmille." Netherlands. doi:10.1016/0920-5632(95)00182-9. https://www.osti.gov/servlets/purl/10.1016/0920-5632(95)00182-9.
@misc{etde_101007,
title = {The new wave of the APE Project: APEmille}
author = {Bartoloni, A, Battista, C, Bellacci, M, Cabasino, S, Cabibbo, N, Cosimi, M, Dagostino, U, Marzano, F, Panizzi, E, Paolucci, P S, Rapuano, F, Rinaldi, W, Sarno, R, Todesco, G M, Torelli, M, Vicini, P, Laico, F, and Tripiccione, R}
abstractNote = {We describe APEmille, the latest generation of the APE parallel processors. This machine, an evolution of the APE100 concept, is very efficient for LGT simulations as well as for a broader class of applications requiring massive floating point computations. Several new features characterise this evolution. In particular local addressing capabilities are added to all computing nodes. APEmille also exhibits a higher degree of integration with a network of workstations acting as a global host system. An APEmille system in the Teraflops range will be completed in three-four years. The architecture proposed in this paper is being currently simulated and evaluated. ((orig.)).}
doi = {10.1016/0920-5632(95)00182-9}
journal = {Nuclear Physics B, Proceedings Supplements}
volume = {42}
journal type = {AC}
place = {Netherlands}
year = {1995}
month = {Apr}
}