High Performance Computing
portes grátis
High Performance Computing
Modern Systems and Practices
Anderson, Matthew; Brodowicz, Maciej; Sterling, Thomas
Elsevier Science & Technology
12/2024
480
Mole
9780128230350
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
1. Introduction 2. HPC Architecture 3. Commodity Clusters 4. Benchmarking 5. The Essential Moab 6. SMP 7. The Essential OpenMP 8. The Essential MPI 9. Parallel Algorithms 10. Libraries 11. Operating Systems 12. Scientific Visualization 13. Performance Monitoring 14. Debugging 15. Accelerators 16. Essential OpenACC 17. Mass Storage 18. File Systems 19. Map Reduce 20. Checkpointing 21. Beyond (Next Steps) Appendices: Essential C Linux?User Interface
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Accelerator; Amdahl's law; asynchronous multitasking; Beowulf Project; CMOS; commodity clusters; compiler flags; debugging; exascale; fault tolerance; FPGA; I/O performance; JTAG; mesh tessellations; multithreaded debugging; parallel computing; pipelining; quantum computing; SIMD parallelism; SRAM; system-level checkpointing; user threads; VampirTrace; vector computing; virtual address translation; virtual memory; von Neumann architecture; VTK
1. Introduction 2. HPC Architecture 3. Commodity Clusters 4. Benchmarking 5. The Essential Moab 6. SMP 7. The Essential OpenMP 8. The Essential MPI 9. Parallel Algorithms 10. Libraries 11. Operating Systems 12. Scientific Visualization 13. Performance Monitoring 14. Debugging 15. Accelerators 16. Essential OpenACC 17. Mass Storage 18. File Systems 19. Map Reduce 20. Checkpointing 21. Beyond (Next Steps) Appendices: Essential C Linux?User Interface
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Accelerator; Amdahl's law; asynchronous multitasking; Beowulf Project; CMOS; commodity clusters; compiler flags; debugging; exascale; fault tolerance; FPGA; I/O performance; JTAG; mesh tessellations; multithreaded debugging; parallel computing; pipelining; quantum computing; SIMD parallelism; SRAM; system-level checkpointing; user threads; VampirTrace; vector computing; virtual address translation; virtual memory; von Neumann architecture; VTK
