6th BSC Severo Ochoa Doctoral Symposium, 7th, 8th and 9th May 2019
http://hdl.handle.net/2117/166636
Book of abstracts2024-03-28T16:29:35ZAn ILP-based real-time scheduler for distributed and heterogeneous computing environments
http://hdl.handle.net/2117/167774
An ILP-based real-time scheduler for distributed and heterogeneous computing environments
Sabaté, Eudald; Serrano, Maria A.; Quiñones, Eduardo
2019-08-28T12:01:37ZSabaté, EudaldSerrano, Maria A.Quiñones, EduardoDeciphering the interactions between the immune system and cancer cells to enable precision medicine
http://hdl.handle.net/2117/167772
Deciphering the interactions between the immune system and cancer cells to enable precision medicine
Ruiz-Serra, Victoria; Porta-Pardo, Eduard
2019-08-28T11:49:52ZRuiz-Serra, VictoriaPorta-Pardo, EduardC/R support for heterogeneous HPC applications
http://hdl.handle.net/2117/167771
C/R support for heterogeneous HPC applications
Parasyris, Konstantinos; Bautista Gomez, Leonardo
2019-08-28T11:38:40ZParasyris, KonstantinosBautista Gomez, LeonardoA multilayer network approach to elucidate severity in Congenital Myasthenic Syndromes
http://hdl.handle.net/2117/167770
A multilayer network approach to elucidate severity in Congenital Myasthenic Syndromes
Núñez-Carpintero, Iker; Cirillo, Davide; Valencia, Alfonso
2019-08-28T11:31:48ZNúñez-Carpintero, IkerCirillo, DavideValencia, AlfonsoTechniques for reducing and bounding OpenMP dynamic memory
http://hdl.handle.net/2117/167769
Techniques for reducing and bounding OpenMP dynamic memory
Munera, Adrian; Royuela, Sara; Quiñones, Eduardo
OpenMP offers a tasking model very convenient
to develop critical real-time parallel applications by virtue of
its time predictability. However, current implementations make
an intensive use of dynamic memory to efficiently manage the
parallel execution. This jeopardizes the qualification process
and limits the use of OpenMP in architectures with limited
amount of memory. This work introduces an OpenMP framework
that statically allocates the data structures needed to efficiently
manage parallel execution in OpenMP programs. We achieve the
same performance than current implementations, while bounding
and reducing the dynamic memory requirements at runtime.
2019-08-28T11:18:40ZMunera, AdrianRoyuela, SaraQuiñones, EduardoOpenMP offers a tasking model very convenient
to develop critical real-time parallel applications by virtue of
its time predictability. However, current implementations make
an intensive use of dynamic memory to efficiently manage the
parallel execution. This jeopardizes the qualification process
and limits the use of OpenMP in architectures with limited
amount of memory. This work introduces an OpenMP framework
that statically allocates the data structures needed to efficiently
manage parallel execution in OpenMP programs. We achieve the
same performance than current implementations, while bounding
and reducing the dynamic memory requirements at runtime.Development of HPC multiphysics framework for HTS magnets in fusion
http://hdl.handle.net/2117/167768
Development of HPC multiphysics framework for HTS magnets in fusion
Lorenzo, José; Castillo-Reyes, Octavio; Granados García, Javier A.J.; Mantsinen, Mervi; Sáez, Xavier; Soba, Alejandro
2019-08-28T11:10:03ZLorenzo, JoséCastillo-Reyes, OctavioGranados García, Javier A.J.Mantsinen, MerviSáez, XavierSoba, AlejandroA FM-index transformation to enable large k-steps
http://hdl.handle.net/2117/167767
A FM-index transformation to enable large k-steps
Langarita, Rubén; Armejach Sanosa, Adrià; Moretó Planas, Miquel
2019-08-28T10:57:45ZLangarita, RubénArmejach Sanosa, AdriàMoretó Planas, MiquelDeep learning phase picking of large-N experiments
http://hdl.handle.net/2117/167766
Deep learning phase picking of large-N experiments
Fernandez-Prieto, Luis; Villaseñor, Antonio
2019-08-28T10:45:55ZFernandez-Prieto, LuisVillaseñor, AntonioPerformance optimization of fully anisotropic elastic wave propagation on 2nd Generation Intel R PhiTM processors
http://hdl.handle.net/2117/167765
Performance optimization of fully anisotropic elastic wave propagation on 2nd Generation Intel R PhiTM processors
Farres, Albert; Rosas, Claudia; Hanzich, Mauricio; Duran, Alejandro; Yount, Charles
2019-08-28T09:09:38ZFarres, AlbertRosas, ClaudiaHanzich, MauricioDuran, AlejandroYount, CharlesPluriZymes: new enzymes for new times
http://hdl.handle.net/2117/167764
PluriZymes: new enzymes for new times
Domingo-Cabasés, Marc; Rodà, Sergi; Santiago, Gerard; Guallar, Victor
2019-08-28T08:55:00ZDomingo-Cabasés, MarcRodà, SergiSantiago, GerardGuallar, Victor