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Sergei Gorlatch
Sergei P. Gorlatch
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- affiliation: University of Münster, Germany
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2020 – today
- 2024
- [j59]Bastian Köpcke, Sergei Gorlatch, Michel Steuwer:
Descend: A Safe GPU Systems Programming Language. Proc. ACM Program. Lang. 8(PLDI): 841-864 (2024) - [c162]Florian Fey, Sergei Gorlatch:
Compiler-Driven SWAR Parallelism for High-Performance Bitboard Algorithms. IPDPS (Workshops) 2024: 938-946 - [c161]Sezar Jarrous-Holtrup, Jona Abdinghoff, Folker Schamel, Sergei Gorlatch:
Towards an Autoscaling Service for Real-Time Online Interactive Applications on Clouds. PDP 2024: 1-8 - 2023
- [j58]Bastian Hagedorn, Johannes Lenfers, Thomas Koehler, Xueying Qin, Sergei Gorlatch, Michel Steuwer:
Achieving High Performance the Functional Way: Expressing High-Performance Optimizations as Rewrite Strategies. Commun. ACM 66(3): 89-97 (2023) - [j57]Mina Abadeer, Sameh Magharious, Sergei Gorlatch:
Modeling and interactive simulation of measures against infection transmission. Simul. 99(4): 327-346 (2023) - [c160]Ari Rasch, Richard Schulze, Denys Shabalin, Anne C. Elster, Sergei Gorlatch, Mary W. Hall:
(De/Re)-Compositions Expressed Systematically via MDH-Based Schedules. CC 2023: 61-72 - [c159]Sezar Jarrous-Holtrup, Sergei Gorlatch, Michael Dey, Folker Schamel:
An OpenVPN-Based Interconnection in Multi-Clouds with Windows and Linux nodes. CCNC 2023: 867-870 - [c158]Yu Zhang, Mengze Cui, Mina Abadeer, Sergei Gorlatch:
A QoS-Aware Routing Mechanism for SDN-Based Integrated Networks. ICOIN 2023: 287-292 - [c157]Florian Fey, Alexander Gerwing, Sergei Gorlatch:
GPU-Parallelized Simulation of Optical Forces on Nanoparticles in a Fluid Medium. IPDPS Workshops 2023: 666-672 - [c156]Sezar Jarrous-Holtrup, Sergei Gorlatch, Michael Dey, Folker Schamel:
Multi-Cloud Container Orchestration for High-Performance Real-Time Online Applications. PDP 2023: 307-313 - [c155]Juri Tomak, Adrian Liermann, Sergei Gorlatch:
Performance Evaluation of a Legacy Real-Time System: An Improved RAST Approach. SimuTools 2023: 18-33 - [i5]Bastian Köpcke, Sergei Gorlatch, Michel Steuwer:
Descend: A Safe GPU Systems Programming Language. CoRR abs/2305.03448 (2023) - [i4]Natalia Olegovna Garanina, Sergey M. Staroletov, Sergei Gorlatch:
Auto-Tuning High-Performance Programs Using Model Checking in Promela. CoRR abs/2305.09130 (2023) - 2022
- [j56]Natalia Olegovna Garanina, Sergei P. Gorlatch:
Autotuning Parallel Programs by Model Checking. Autom. Control. Comput. Sci. 56(7): 634-648 (2022) - [c154]Florian Fey, Alexander Gerwing, Sergei Gorlatch:
Towards a Generic Framework for GPU-Parallelized Simulations of Light-Driven Nano-Particles. CSCI 2022: 1366-1371 - [c153]Natalya Olegovna Garanina, Sergey M. Staroletov, Sergei Gorlatch:
Model Checking Meets Auto-Tuning of High-Performance Programs. LOPSTR 2022: 63-82 - [c152]Juri Tomak, Sergei Gorlatch:
RAST: Evaluating Performance of a Legacy System Using Regression Analysis and Simulation. MASCOTS 2022: 49-56 - [c151]Lukas Siefke, Bastian Köpcke, Sergei Gorlatch, Michel Steuwer:
Systematically extending a high-level code generator with support for tensor cores. GPGPU@PPoPP 2022: 3:1-3:6 - 2021
- [j55]Natalia Olegovna Garanina, Igor S. Anureev, Vladimir E. Zyubin, Sergey M. Staroletov, Tatiana V. Liakh, Andrei S. Rozov, Sergei P. Gorlatch:
A Temporal Logic for Programmable Logic Controllers. Autom. Control. Comput. Sci. 55(7): 763-775 (2021) - [j54]Andrey Borisenko, Sergei Gorlatch:
Efficient GPU-parallelization of batch plants design using metaheuristics with parameter tuning. J. Parallel Distributed Comput. 154: 74-81 (2021) - [j53]Ari Rasch, Richard Schulze, Michel Steuwer, Sergei Gorlatch:
Efficient Auto-Tuning of Parallel Programs with Interdependent Tuning Parameters via Auto-Tuning Framework (ATF). ACM Trans. Archit. Code Optim. 18(1): 1:1-1:26 (2021) - [j52]Ivan Kholod, Andrey Rukavitsyn, Alexey A. Paznikov, Sergei Gorlatch:
Parallelization of the self-organized maps algorithm for federated learning on distributed sources. J. Supercomput. 77(6): 6197-6213 (2021) - [c150]Florian Fey, Sergei Gorlatch:
CPRIC: Collaborative Parallelism for Randomized Incremental Constructions. IPDPS Workshops 2021: 490-499 - [c149]Yu Zhang, Sergei Gorlatch:
Optimizing Energy Efficiency of QoS-Based Routing in Software-Defined Networks. Q2SWinet 2021: 87-94 - [c148]Vladyslav Kucher, Sergei Gorlatch:
Implicit Data Layout Optimization for Portable Parallel Programming in C++. PaCT 2021: 223-234 - [c147]Mina Abadeer, Sameh Magharious, Sergei Gorlatch:
Introducing Interactivity in Disaster Recovery Simulations. SoMeT 2021: 267-280 - [c146]Sezar Jarrous-Holtrup, Folker Schamel, Kerstin Hofer, Sergei Gorlatch:
A Scalable Cloud Deployment Architecture for High-Performance Real-Time Online Applications. ISC Workshops 2021: 395-405 - 2020
- [j51]Ivan Kholod, Andrey Shorov, Sergei Gorlatch:
Efficient Distribution and Processing of Data for Parallelizing Data Mining in Mobile Clouds. J. Wirel. Mob. Networks Ubiquitous Comput. Dependable Appl. 11(1): 2-17 (2020) - [j50]Bastian Hagedorn, Johannes Lenfers, Thomas Koehler, Xueying Qin, Sergei Gorlatch, Michel Steuwer:
Achieving high-performance the functional way: a functional pearl on expressing high-performance optimizations as rewrite strategies. Proc. ACM Program. Lang. 4(ICFP): 92:1-92:29 (2020) - [j49]Igor S. Anureev, Natalya Olegovna Garanina, Tatiana V. Lyakh, Andrei S. Rozov, Vladimir E. Zyubin, Sergei P. Gorlatch:
Dedicative Verification of Reflex Programs. Program. Comput. Softw. 46(4): 261-272 (2020) - [j48]Larisa Stoltzfus, Bastian Hagedorn, Michel Steuwer, Sergei Gorlatch, Christophe Dubach:
Tiling Optimizations for Stencil Computations Using Rewrite Rules in Lift. ACM Trans. Archit. Code Optim. 16(4): 52:1-52:25 (2020) - [j47]Huihui Sun, Sergei Gorlatch, Rongcai Zhao:
Vectorizing programs with IF-statements for processors with SIMD extensions. J. Supercomput. 76(6): 4731-4746 (2020) - [j46]Ari Rasch, Julian Bigge, Martin Wrodarczyk, Richard Schulze, Sergei Gorlatch:
dOCAL: high-level distributed programming with OpenCL and CUDA. J. Supercomput. 76(7): 5117-5138 (2020) - [c145]Vladyslav Kucher, Sergei Gorlatch:
Towards Implicit Memory Management for Portable Parallel Programming in C++. ASSE 2020: 52-56 - [c144]Juri Tomak, Sergei Gorlatch:
Measuring Performance of Fault Management in a Legacy System: An Alarm System Study. MASCOTS (Revised Selected Papers) 2020: 129-146 - [c143]Yu Zhang, Sergei Gorlatch:
A Bilateral Recommendation Strategy for Mobile Event-Based Social Networks. MobiQuitous 2020: 415-424 - [c142]Toomas Remmelg, Bastian Hagedorn, Lu Li, Michel Steuwer, Sergei Gorlatch, Christophe Dubach:
High-level hardware feature extraction for GPU performance prediction of stencils. GPGPU@PPoPP 2020: 21-30 - [i3]Bastian Hagedorn, Johannes Lenfers, Thomas Koehler, Sergei Gorlatch, Michel Steuwer:
A Language for Describing Optimization Strategies. CoRR abs/2002.02268 (2020)
2010 – 2019
- 2019
- [j45]Ari Rasch, Sergei Gorlatch:
ATF: A generic directive-based auto-tuning framework. Concurr. Comput. Pract. Exp. 31(5) (2019) - [j44]Ivan Kholod, Andrey Shorov, Evgenii Titkov, Sergei Gorlatch:
A formally based parallelization of data mining algorithms for multi-core systems. J. Supercomput. 75(12): 7909-7920 (2019) - [j43]Andrey Borisenko, Sergei Gorlatch:
Comparing GPU-parallelized metaheuristics to branch-and-bound for batch plants optimization. J. Supercomput. 75(12): 7921-7933 (2019) - [c141]Ari Rasch, Richard Schulze, Sergei Gorlatch:
Generating Portable High-Performance Code via Multi-Dimensional Homomorphisms. PACT 2019: 354-369 - [c140]Mina Abadeer, Sergei Gorlatch:
Distributed Simulation of Crowds with Groups in CrowdSim. DS-RT 2019: 1-8 - [c139]Igor S. Anureev, Natalia Olegovna Garanina, Tatiana V. Liakh, Andrei Rozov, Vladimir Zyubin, Sergei Gorlatch:
Two-Step Deductive Verification of Control Software Using Reflex. Ershov Informatics Conference 2019: 50-63 - [c138]Natalia Olegovna Garanina, Igor S. Anureev, Elena A. Sidorova, Dmitry Koznov, Vladimir Zyubin, Sergei Gorlatch:
An Ontology-Based Approach to Support Formal Verification of Concurrent Systems. FM Workshops (1) 2019: 114-130 - [c137]Bastian Köpcke, Michel Steuwer, Sergei Gorlatch:
Generating efficient FFT GPU code with Lift. FHPNC@ICFP 2019: 1-13 - [c136]Huihui Sun, Florian Fey, Jie Zhao, Sergei Gorlatch:
WCCV: improving the vectorization of IF-statements with warp-coherent conditions. ICS 2019: 319-329 - [c135]Ivan Kholod, Andrey Shorov, Sergei Gorlatch:
Improving Parallel Data Mining for Different Data Distributions in IoT Systems. IDC 2019: 75-85 - [c134]Andrey Borisenko, Sergei Gorlatch:
Optimal Batch Plants Design on Parallel Systems: A Comparative Study. IPDPS Workshops 2019: 549-558 - [c133]Ari Rasch, Richard Schulze, Sergei Gorlatch:
Developing High-Performance, Portable OpenCL Code via Multi-Dimensional Homomorphisms. IWOCL 2019: 4:1 - [c132]Andrey Borisenko, Sergei Gorlatch:
Optimizing a GPU-Parallelized Ant Colony Metaheuristic by Parameter Tuning. PaCT 2019: 151-165 - [c131]Ivan Kholod, Andrey Shorov, Maria Efimova, Sergei Gorlatch:
Parallelization of Algorithms for Mining Data from Distributed Sources. PaCT 2019: 289-303 - [c130]Ari Rasch, Richard Schulze, Waldemar Gorus, Jan Hiller, Sebastian Bartholomäus, Sergei Gorlatch:
High-performance probabilistic record linkage via multi-dimensional homomorphisms. SAC 2019: 526-533 - [c129]Yu Zhang, Tim Humernbrum, Sergei Gorlatch:
A Plug-in Framework for Efficient Multicast Using SDN. WiCON 2019: 271-284 - [p4]Sergei Gorlatch:
Send-Receive Considered Harmful: Toward Structured Parallel Programming. The Art of Structuring 2019: 515-525 - 2018
- [j42]Dominik Meiländer, Sergei Gorlatch:
Modeling the Scalability of Real-Time Online Interactive Applications on Clouds. Future Gener. Comput. Syst. 86: 1019-1031 (2018) - [j41]Sergei Gorlatch, Herbert Kuchen:
Guest Editorial: High-Level Parallel Programming with Algorithmic Skeletons. Int. J. Parallel Program. 46(1): 1-3 (2018) - [j40]Michael Haidl, Sergei Gorlatch:
High-Level Programming for Many-Cores Using C++14 and the STL. Int. J. Parallel Program. 46(1): 23-41 (2018) - [j39]Ari Rasch, Sergei Gorlatch:
Multi-dimensional Homomorphisms and Their Implementation in OpenCL. Int. J. Parallel Program. 46(1): 101-119 (2018) - [c128]Sergei Gorlatch:
Toward Structured Parallel Programming: Send-Receive Considered Harmful. Models, Mindsets, Meta 2018: 208-217 - [c127]Bastian Hagedorn, Larisa Stoltzfus, Michel Steuwer, Sergei Gorlatch, Christophe Dubach:
High performance stencil code generation with lift. CGO 2018: 100-112 - [c126]V. Nithin, A. Rathod, Venkataramana Badarla, Tim Humernbrum, Sergei Gorlatch:
Efficient load balancing for multicast traffic in data center networks using SDN. COMSNETS 2018: 113-120 - [c125]Huihui Sun, Sergei Gorlatch, Rongcai Zhao:
Refactoring Loops with Nested IFs for SIMD Extensions Without Masked Instructions. Euro-Par Workshops 2018: 769-781 - [c124]Ari Rasch, Sergei Gorlatch:
ATF: A Generic Auto-Tuning Framework. HPDC (Posters/Doctoral Consortium) 2018: 3-4 - [c123]Tim Humernbrum, Christian Ahlbrand, Sergei Gorlatch:
Evaluating QoS for Real-Time Applications Using a Lightweight Simulation of Network Traffic. ICNC 2018: 383-387 - [c122]Ari Rasch, Martin Wrodarczyk, Richard Schulze, Sergei Gorlatch:
OCAL: An Abstraction for Host-Code Programming with OpenCL and CUDA. ICPADS 2018: 408-416 - [c121]Chidchanok Choksuchat, Sergei Gorlatch, Chantana Chantrapornchai:
CBM: a compact representation and its parallel search for query processing on GPU. SAC 2018: 1065-1067 - [c120]Vladyslav Kucher, Florian Fey, Sergei Gorlatch:
Unified Cross-Platform Profiling of Parallel C++ Applications. PMBS@SC 2018: 57-62 - [c119]Natalia Olegovna Garanina, Vladimir Zubin, Tatiana Lyakh, Sergei Gorlatch:
An Ontology of Specification Patterns for Verification of Concurrent Systems. SoMeT 2018: 515-528 - 2017
- [j38]Mona Riemenschneider, Alexander Herbst, Ari Rasch, Sergei Gorlatch, Dominik Heider:
eccCL: parallelized GPU implementation of Ensemble Classifier Chains. BMC Bioinform. 18(1): 371:1-371:4 (2017) - [j37]Natalia Olegovna Garanina, Elena A. Sidorova, Irina Kononenko, Sergei Gorlatch:
Using Multiple Semantic Measures for Coreference Resolution in Ontology Population. Int. J. Comput. 16: 166-176 (2017) - [j36]Sergei Gorlatch, Herbert Kuchen:
Guest Editors' Note. Parallel Process. Lett. 27(1): 1702001:1-1702001:2 (2017) - [j35]Andrey Borisenko, Michael Haidl, Sergei Gorlatch:
A GPU parallelization of branch-and-bound for multiproduct batch plants optimization. J. Supercomput. 73(2): 639-651 (2017) - [c118]Bastian Hagedorn, Michel Steuwer, Sergei Gorlatch:
A Transformation-Based Approach to Developing High-Performance GPU Programs. Ershov Informatics Conference 2017: 179-195 - [c117]Ari Rasch, Michael Haidl, Sergei Gorlatch:
ATF: A Generic Auto-Tuning Framework. HPCC/SmartCity/DSS 2017: 64-71 - [c116]Andrey Borisenko, Sergei Gorlatch:
Parallelizing Metaheuristics for Optimal Design of Multiproduct Batch Plants on GPU. PaCT 2017: 405-417 - [c115]Ivan Kholod, Andrey Shorov, Sergei Gorlatch:
A Functional Approach to Parallelizing Data Mining Algorithms in Java. PaCT 2017: 459-472 - [c114]Tim Humernbrum, Christian Ahlbrand, Sergei Gorlatch:
Towards Simulating the Communication Behavior of Real-Time Interactive Applications. SIGSIM-PADS 2017: 145-148 - [c113]Michael Haidl, Michel Steuwer, Hendrik Dirks, Tim Humernbrum, Sergei Gorlatch:
Towards Composable GPU Programming: Programming GPUs with Eager Actions and Lazy Views. PMAM@PPoPP 2017: 58-67 - [c112]Michael Haidl, Simon Moll, Lars Klein, Huihui Sun, Sebastian Hack, Sergei Gorlatch:
PACXXv2 + RV: An LLVM-based Portable High-Performance Programming Model. LLVM-HPC@SC 2017: 7:1-7:12 - 2016
- [c111]Chantana Chantrapornchai, Chidchanok Choksuchat, Michael Haidl, Sergei Gorlatch:
TripleID: A Low-Overhead Representation and Querying Using GPU for Large RDFs. BDAS 2016: 400-415 - [c110]Tim Humernbrum, Bastian Hagedorn, Sergei Gorlatch:
Towards Efficient Multicast Communication in Software-Defined Networks. ICDCS Workshops 2016: 106-113 - [c109]Dominik Meiländer, Sergei Gorlatch:
Modelling the Scalability of Real-Time Online Interactive Applications on Clouds. ARMS-CC@PODC 2016: 14-20 - [c108]Michael Haidl, Michel Steuwer, Tim Humernbrum, Sergei Gorlatch:
Multi-stage programming for GPUs in C++ using PACXX. GPGPU@PPoPP 2016: 32-41 - [c107]Chantana Chantrapornchai, Chidchanok Choksuchat, Michael Haidl, Sergei Gorlatch:
Entailment Processing for Large RDF Data Sets Using GPU. SoMeT 2016: 333-345 - [e5]Dong Sun, Wei-Hsin Liao, Sergei Gorlatch:
2016 International Conference on Cybernetics, Robotics and Control, CRC 2016, Hong Kong, August 19-21, 2016. IEEE Computer Society 2016, ISBN 978-1-5090-3572-4 [contents] - 2015
- [c106]Sergei Gorlatch, Tim Humernbrum:
Enabling high-level QoS metrics for interactive online applications using SDN. ICNC 2015: 707-711 - [c105]Tim Humernbrum, Stefan Delker, Frank Glinka, Folker Schamel, Sergei Gorlatch:
RTF+Shark: Using Software-Defined Networks for Multiplayer Online Games. NETGAMES 2015: 1-3 - [c104]Andrey Borisenko, Michael Haidl, Sergei Gorlatch:
Parallelizing Branch-and-Bound on GPUs for Optimization of Multiproduct Batch Plants. PaCT 2015: 324-337 - [c103]Michael Haidl, Bastian Hagedorn, Sergei Gorlatch:
Programming GPUs with C++14 and Just-In-Time Compilation. PARCO 2015: 247-256 - [c102]Chidchanok Choksuchat, Chantana Chantrapornchai, Michael Haidl, Sergei Gorlatch:
Accelerating Keyword Search for Big RDF Web Data on Many-Core Systems. SoMeT 2015: 190-202 - 2014
- [j34]Michael Olejnik, Michel Steuwer, Sergei Gorlatch, Dominik Heider:
gCUP: rapid GPU-based HIV-1 co-receptor usage prediction for next-generation sequencing. Bioinform. 30(22): 3272-3273 (2014) - [j33]Michel Steuwer, Malte Friese, Sebastian Albers, Sergei Gorlatch:
Introducing and Implementing the Allpairs Skeleton for Programming Multi-GPU Systems. Int. J. Parallel Program. 42(4): 601-618 (2014) - [j32]Tim Humernbrum, Frank Glinka, Sergei Gorlatch:
A Northbound API for QoS Management in Real-Time Interactive Applications on Software-Defined Networks. J. Commun. 9(8): 607-615 (2014) - [j31]Michel Steuwer, Michael Haidl, Stefan Breuer, Sergei Gorlatch:
High-Level Programming of Stencil Computations on Multi-GPU Systems Using the SkelCL Library. Parallel Process. Lett. 24(3) (2014) - [j30]Michel Steuwer, Sergei Gorlatch:
SkelCL: a high-level extension of OpenCL for multi-GPU systems. J. Supercomput. 69(1): 25-33 (2014) - [c101]Sergei Gorlatch, Michel Steuwer:
Towards High-Level Programming for Systems with Many Cores. Ershov Memorial Conference 2014: 111-126 - [c100]Sergei Gorlatch, Tim Humernbrum, Frank Glinka:
Improving QoS in real-time internet applications: from best-effort to Software-Defined Networks. ICNC 2014: 189-193 - [c99]Dominik Meiländer, Frank Glinka, Sergei Gorlatch, Li Lin, Wei Zhang, Xiaofei Liao:
Bringing mobile online games to clouds. INFOCOM Workshops 2014: 340-345 - [c98]Dominik Meiländer, Frank Glinka, Sergei Gorlatch, Li Lin, Wei Zhang, Xiaofei Liao:
Using Mobile Cloud Computing for Real-Time Online Applications. MobileCloud 2014: 48-56 - [c97]Michael Haidl, Sergei Gorlatch:
PACXX: Towards a Unified Programming Model for Programming Accelerators Using C++14. LLVM@SC 2014: 1-11 - 2013
- [j29]Max Knemeyer, Mohammed Nsaif, Frank Glinka, Alexander Ploss, Sergei Gorlatch:
To wards Data Persist Ency in Real-Time Online Interactive Applic Ations. Int. J. Comput. 12(1): 75-85 (2013) - [j28]Philipp Kegel, Michel Steuwer, Sergei Gorlatch:
dOpenCL: Towards uniform programming of distributed heterogeneous multi-/many-core systems. J. Parallel Distributed Comput. 73(12): 1639-1648 (2013) - [c96]Michel Steuwer, Sergei Gorlatch:
High-Level Programming for Medical Imaging on Multi-GPU Systems Using the SkelCL Library. ICCS 2013: 749-758 - [c95]Dominik Meiländer, Sebastian Kottinger, Sergei Gorlatch:
A Scalability Model for Distributed Resource Management in Real-Time Online Applications. ICPP 2013: 763-772 - [c94]Max Knemeyer, Alexander Ploss, Frank Glinka, Mohammed Nsaif, Sergei Gorlatch:
The problem of data persistency in distributed real-time interactive applications. IDAACS 2013: 203-207 - [c93]Michel Steuwer, Sergei Gorlatch:
SkelCL: Enhancing OpenCL for High-Level Programming of Multi-GPU Systems. PaCT 2013: 258-272 - [c92]Max Knemeyer, Mohammed Nsaif, Frank Glinka, Alexander Ploss, Sergei Gorlatch:
A persistent data storage design for real-time interactive applications. SoMeT 2013: 51-56 - 2012
- [c91]Michel Steuwer, Sergei Gorlatch, Matthias Buß, Stefan Breuer:
Using the SkelCL Library for High-Level GPU Programming of 2D Applications. Euro-Par Workshops 2012: 370-380 - [c90]Sergei Gorlatch, Rizos Sakellariou, Marco Danelutto, Thilo Kielmann:
Topic 9: Parallel and Distributed Programming. Euro-Par 2012: 464 - [c89]Philipp Kegel, Michel Steuwer, Sergei Gorlatch:
Uniform High-Level Programming of Many-Core and Multi-GPU Systems. High Performance Computing Workshop (2) 2012: 159-176 - [c88]Sergei Gorlatch, Dominik Meiländer, Alexander Ploss, Frank Glinka:
Towards bringing real-time online applications on Clouds. ICNC 2012: 57-61 - [c87]Elisabetta Di Nitto, Dominik Meiländer, Sergei Gorlatch, Andreas Metzger, Harald Psaier, Schahram Dustdar, Maryam Razavian, Damian A. Tamburri, Patricia Lago:
Research challenges on engineering service-oriented applications. S-Cube@ICSE 2012: 14-20 - [c86]Philipp Kegel, Michel Steuwer, Sergei Gorlatch:
dOpenCL: Towards a Uniform Programming Approach for Distributed Heterogeneous Multi-/Many-Core Systems. IPDPS Workshops 2012: 174-186 - [c85]Michel Steuwer, Philipp Kegel, Sergei Gorlatch:
Towards High-Level Programming of Multi-GPU Systems Using the SkelCL Library. IPDPS Workshops 2012: 1858-1865 - [c84]Michel Steuwer, Philipp Kegel, Sergei Gorlatch:
A High-Level Programming Approach for Distributed Systems with Accelerators. SoMeT 2012: 430-441 - 2011
- [j27]Philipp Kegel, Maraike Schellmann, Sergei Gorlatch:
Comparing programming models for medical imaging on multi-core systems. Concurr. Comput. Pract. Exp. 23(10): 1051-1065 (2011) - [j26]Maraike Schellmann, Sergei Gorlatch, Dominik Meiländer, Thomas Kösters, Klaus P. Schäfers, Frank Wübbeling, Martin Burger:
Parallel medical image reconstruction: from graphics processing units (GPU) to Grids. J. Supercomput. 57(2): 151-160 (2011) - [c83]Sebastian Albers, Alexander Ploss, Sergei Gorlatch:
Accelerating multi-user online games on multi-core systems using dependents. CCNC 2011: 177-181 - [c82]