| HEP software design : how to reconcile the immediate needs and the trends for the future?(p. 19) |
| by Bruyant, F |
| SLAC B factory computing (p. 23) |
| by Kunz, P F |
| Using meta-CASE technology to build a methods specific environment (p. 33) |
| by King, A |
| The use of Prolog for real-time software design (p. 103) |
| by Zaporozhets, S A |
| An encounter with F90 (p. 109) |
| by Metcalf, M |
| HippoDraw and Hippoplotamus (p. 119) |
| by Gravina, M F |
| The DELPHI histogram presenter (p. 125) |
| by Camporesi, T |
| Improving comparative HEP data analysis : proposal for a global graphical HEP database(p. 135) |
| by Di Rosa, O |
| Using motif in RD13 (p. 149) |
| by Ambrosini, G |
| World-Wide Web : an information infrastructure for high-energy physics(p. 157) |
| by Berners-Lee, Timothy J |
| VERDI : visual entity relationship data interface(p. 165) |
| by Aimar, A |
| HEPDB : a database management package for high energy physics(p. 171) |
| by Shiers, J D |
| Parallel distributed GEANT (p. 177) |
| by Rademakers, A A |
| Using ISIS and META for run control in RD13 (p. 199) |
| by Jones, R |
| Experience with MODSIM II (p. 203) |
| by Streets, J |
| Software tools for transputer networks (p. 209) |
| by Gingrich, D M |
| PAW/GKS implementation on IBM PC under MS DOS (p. 227) |
| by Ivanov, V V |
| Summary of the topical workshop on software engineering (p. 235) |
| by Sendall, D M |
| Tutorial on neural network applications in high energy physics : a 1992 perspective(p. 287) |
| by Denby, B |
| Analog neural networks in an upgraded muon trigger for the DZero detector (p. 381) |
| by Fortner, M R |
| Pion-kaon separation with a feed-forward neural network (p. 397) |
| by De Groot, N |
| Classification of jets from p$\overline{p}$ collisions at Tevatron energies (p. 405) |
| by Bianchin, S |
| Jets recognition and tagging with neural networks (p. 411) |
| by Jousset, J |
| Tagging of Z decays into b-quarks in the ALEPH detector using multivariate methods : discriminant analyses, artificial neural network(p. 419) |
| by Brandl, B |
| DELPHI results on the measurement of the partial hadronic widths of the Z0 using neural networks (p. 443) |
| by Cosmo, G |
| Neural networks and expert systems to solve the problems of large amounts of experimental data at JET (p. 479) |
| by Blackler, K |
| Nonlinear digital signal processing using the datawave processor (p. 493) |
| by Inkinen, S J |
| Distributed cooperative architecture for accelerator operation (p. 507) |
| by Fuchs, J |
| Knowledge acquisition and maintenance for the KEK PF LINAC diagnosis and operation support system (p. 517) |
| by Abe, I |
| Safety of high energy physics experiments by an expert system : temporal and statistical aspects(p. 529) |
| by Vinot, L |
| DEXPERT : an expert system for read-out error recovery in the ALEPH data acquisition system(p. 537) |
| by Mato, P |
| The DELPHI experiment control system (p. 543) |
| by Adye, T |
| DELPHI experiment control integration (p. 553) |
| by Gaspar, C |
| Blackboard architecture and qualitative model in a computer aided assitant designed to define computers for HEP computing (p. 571) |
| by Fernández-Nodarse, F |
| Which Feynman diagrams are algebraically computable? (p. 579) |
| by Broadhurst, D J |
| Techniques for the automatic manipulation of amplitudes and loops (p. 585) |
| by Vermaseren, Jos A M |
| Renormalization group calculations in QED and QCD : the 4-loop level(p. 631) |
| by Kataev, A L |
| The interaction between Form and high energy physics (p. 689) |
| by Vermaseren, Jos A M |
| Physica : a Mathematica package for the symbolic calculation of tree order processes(p. 703) |
| by Beringer, J |
| Analytical model of final focus structures for flat and round beams at the interaction point (p. 763) |
| by Autin, Bruno |