Proceedings of ACAT2013, to appear in Journal of Physics: Conference Series in May or June 2014

Track 1. Computing Technology for Physics Research

Plenaries:

122. Lessons learned from the Kei computer project

125. Opportunities and choice in a new vector era

Parallels:

079. Performance quality monitoring system PQM for the Daya Bay reactor neutrino experiment

012. A concurrent vector-based steering framework for particle transport

003. ALICE expert system

078. Experience, Use, and Performance Measurement of the Hadoop File System in a Typical Nuclear Physics Analysis Workflows

046. GPU for Real Time processing in HEP trigger systems

036. High performance computing activities in hadron spectroscopy at BESIII.

055. Initial explorations of ARM processors for scientific computing

112. JAliEn - A new interface between the AliEn jobs and the central services

038. Less is more. Why Oberon beats mainstream in complex applications

061. Managing a Tier-2 Computer Centre with a Private Cloud Infrastructure

074. Analysis of performance improvements for host and gpu interface of the APENet+ 3D Torus network.

011. Performance optimizations for distributed analysis in ALICE

093. Use of Checkpoint-Restart for Complex HEP Software on Traditional Architectures and Intel MIC

022. Study of cache performance in distributed environment for data processing

005. TGeoCad ACAT2013 An interface between ROOT and CAD systems

020. The ATLAS Muon and Tau Trigger

018. The evolution of the Trigger and Data Acquisition System in the ATLAS experiment

068. ATLAS Distributed Computing Experience and Evolution

047. A Web-Based Development Environment for Collaborative Data Analysis

Track 2. Data Analysis - Algorithms and Tools

Plenaries:

126. Advances in tracking and trigger concepts

Parallels:

069. A Neural-Network Clusterisation Algorithm for the ATLAS Silicon Pixel Detector

067. The Alignment of the CMS Silicon Tracker

080. Maximum likelihood reconstruction in the Daya Bay Reactor Antineutrino Experiment

062. Data Analysis of Tracks of Heavy Ion Particles in Timepix Detectors

034. Simulation-aided optimization of detector design using portable representation of 3D objects

015. The automated matrix element methods and its applications at LHC

013. Multidimensional polynomial regression and fit function uncertainty

042. Quasi-optimal weights a versatile tool of data analysis

053. ATLAS Trigger Simulation with Legacy Code using Virtualization Techniques

023. MadAnalysis 5 : a framework dedicated to phenomenological investigations at LHC

007. DELPHES 3 A modular framework for fast-simulation of generic collider experiments

043. Event Reconstruction and Analysis in the R3BRoot Framework

102. Concepts and Plans towards fast large scale Monte Carlo production for ATLAS

070. Optimizing the ATLAS code with different profilers

Track 3. Computations in Theoretical Physics: Techniques and Methods

Plenaries:

009. Solution of Loop Integrals in Quantum Field Theory using Modern Summation Methods

000. Analitical calculation of heavy quarkonia production processes in computer

033. Automatic calculation in Quarkonium Physics

049. Automated computation of scattering amplitudes

Parallels:

040. Automated One-loop Computation in Quarkonium Process within NRQCD Framework

088. Generators BCVEGPY and GENXICC for doubly heavy mesons and baryons

031. SANC system and its applications for LHC

010. New developments in FeynRules

014. Three-loop beta-functions and anomalous dimensions in the SM

065. Development of an object oriented lattice QCD code ``Bridge++''

082. Recent developments on FORM

016. Numerical multi-loop calculations with SecDec 2.1

001. Theory of phase transitions and critical phenomena new approach for numerical calculation of anomalous dimensions.

024. FormCalc 8

092. The BlackHat Library for One-Loop Amplitudes

101. Feynman Loop Integral Computation on Hybrid Platforms

002. QCD Corrections to the Drell-Yan Process for Experiments at the Large Hadron Collider

027. Precise calculation for heavy gauge boson production in the LHT model

035. The computation of cross sections in brane world models

025. Automated NLO calculations with GoSam

039. Computation of multi-leg amplitudes with NJet

060. Automatic one-loop calculations with OpenLoops

041. LiteRed a new powerful tool for the reduction of multiloop integrals

008. Special functions in Higher Loop Calculations harmonic, generalized harmonic, and binomial sums, polylogarityms and special constants

037. Multi-loop Integrand Reduction with Computational Algebraic Geometry

056. FAPT a Mathematica package for calculations in QCD Fractional Analytic Perturbation Theory

066. One loop integration with hypergeometric series by using recursion formulae

059. The NLO Calculations of heavy quarkonium production at B factories

Discussions and Others:

137. From Black Holes to Cosmology The Universe in the Computer

142. Round Table Open-source, knowledge sharing and scientific collaboration