- Beck, HP
- Abolins, M
- Dos Anjos, A
- Barisonzi, M
- Beretta, MM
- Blair, R
- Bogaerts, JA
- Boterenbrood, H
- Botterill, D
- Ciobotaru, MD
- Cortezon, EP
- Cranfield, R
- Crone, G
- Dawson, J
- Di Girolamo, B
- Dobinson, RW
- Ermoline, Y
- Ferrer, ML
- Francis, D
- Gadomski, S
- Gameiro, SM
- Golonka, P
- Gorini, B
- Green, B
- Gruwe, M
- Haas, S
- Haeberli, C
- Hasegawa, Y
- Hauser, R
- Hinkelbein, C
- Hughes-Jones, R
- Knezo, E
- Jansweijer, P
- Joos, M
- Kaczmarska, A
- Kieft, G
- Korcyl, K
- Kugel, A
- Lankford, AJ
- Lehmann, G
- LeVine, MJ
- Liu, W
- Maeno, T
- Maia, ML
- Mapelli, L
- Martin, B
- McLaren, R
- Meirosu, C
- Misiejuk, AS
- Mommsen, R
- Mornacchi, G
- Müller, M
- Nagasaka, Y
- Nakayoshi, K
- Papadopoulos, I
- Petersen, J
- De Matos Lopes Pinto, P
- Prigent, D
- Reale, VF
- Schlereth, J
- Shimojima, M
- Spiwoks, R
- Stancu, SN
- Strong, J
- Tremblet, L
- Vermeulen, J
- Werner, P
- Wickens, FJ
- Yasu, Y
- Yu, M
- Zobernig, H
- Zurek, M
- et al.
The base-line design and implementation of the ATLAS DAQ DataFlow system is described. The main components of the DataFlow system, their interactions, bandwidths, and rates are discussed and performance measurements on a 10% scale prototype for the final ATLAS TDAQ DataFlow system are presented. This prototype is a combination of custom design components and of multithreaded software applications implemented in C++ and running in a Linux environment on commercially available PCs interconnected by a fully switched gigabit Ethernet network.