A parallel microsimulation package for modelling cancer screening policies

Microsimulation with stochastic life histories is an important tool in the development of public policies. In this article, we use microsimulation to evaluate policies for prostate cancer testing. We implemented the microsimulations as an R package, with pre- and post-processing in R and with the si...

Celý popis

Uloženo v:
Podrobná bibliografie
Vydáno v:2016 IEEE 12th International Conference on e-Science : October 23-27, 2016, Baltimore, Maryland, USA s. 323 - 330
Hlavní autoři: Karlsson, Andreas, Olofsson, Niten, Laure, Erwin, Clements, Mark
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: IEEE 01.10.2016
Témata:
Antigens
Application programming interfaces (API)
C++ (programming language)
C++ languages
Cancer screening
Computational modeling
Computer software
Cost effectiveness
Costs
Diseases
Distributed-memory parallelisms
Libraries
Memory architecture
Microsimulation modeling
Parallel processing
Prostate cancer
Prostate cancers
Prostate specific antigen
Shared memory parallelism
Software disseminations
Stochastic systems
Testing
Testing protocols
Urology
ISBN:9781509042722, 1509042725
On-line přístup:Získat plný text
Tagy: Přidat tag
Žádné tagy, Buďte první, kdo vytvoří štítek k tomuto záznamu!
Popis
Shrnutí:Microsimulation with stochastic life histories is an important tool in the development of public policies. In this article, we use microsimulation to evaluate policies for prostate cancer testing. We implemented the microsimulations as an R package, with pre- and post-processing in R and with the simulations written in C++. Calibrating a microsimulation model with a large population can be computationally expensive. To address this issue, we investigated four forms of parallelism: (i) shared memory parallelism using R; (ii) shared memory parallelism using OpenMP at the C++ level; (iii) distributed memory parallelism using R; and (iv) a hybrid shared/distributed memory parallelism using OpenMP at the C++ level and MPI at the R level. The close coupling between R and C++ offered advantages for ease of software dissemination and the use of high-level R parallelisation methods. However, this combination brought challenges when trying to use shared memory parallelism at the C++ level: the performance gained by hybrid OpenMP/MPI came at the cost of significant re-factoring of the existing code. As a case study, we implemented a prostate cancer model in the microsimulation package. We used this model to investigate whether prostate cancer testing with specific re-testing protocols would reduce harms and maintain any mortality benefit from prostate-specific antigen testing. We showed that four-yearly testing would have a comparable effectiveness and a marked decrease in costs compared with two-yearly testing and current testing. In summary, we developed a microsimulation package in R and assessed the cost-effectiveness of prostate cancer testing. We were able to scale up the microsimulations using a combination of R and C++, however care was required when using shared memory parallelism at the C++ level.
ISBN:9781509042722
1509042725
DOI:10.1109/eScience.2016.7870915