LHAPDF6: parton density access in the LHC precision era

Buckley, A.G. and Ferrando, James Edward and Lloyd, Stephen and Nordstrom, Karl and Page, B. and Rüfenacht, Martin and Schoenherr, Marek and Watt, G (2015) LHAPDF6: parton density access in the LHC precision era. Eur. Phys. J., C (75): 132.

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Abstract

The Fortran LHAPDF library has been a long-term workhorse in particle physics, providing standardised access to parton density functions for experimental and phenomenological purposes alike, following on from the venerable PDFLIB package. During Run 1 of the LHC, however, several fundamental limitations in LHAPDF’s design have became deeply problematic, restricting the usability of the library for important physics-study procedures and providing dangerous avenues by which to silently obtain incorrect results. In this paper we present the LHAPDF 6 library, a ground-up re-engineering of the PDFLIB/LHAPDF paradigm for PDF access which removes all limits on use of concurrent PDF sets, massively reduces static memory requirements, offers improved CPU performance, and fixes fundamental bugs in multi-set access to PDF metadata. The new design, restricted for now to interpolated PDFs, uses centralised numerical routines and a powerful cascading metadata system to decouple software releases from provision of new PDF data and allow completely general parton content. More than 200 PDF sets have been migrated from LHAPDF 5 to the new universal data format, via a stringent quality control procedure. LHAPDF 6 is supported by many Monte Carlo generators and other physics programs, in some cases via a full set of compatibility routines, and is recommended for the demanding PDF access needs of LHC Run 2 and beyond.

Item Type:
Journal Article
Journal or Publication Title:
Eur. Phys. J.
ID Code:
206470
Deposited By:
Deposited On:
06 Oct 2023 10:15
Refereed?:
Yes
Published?:
Published
Last Modified:
13 Sep 2024 12:38