Intel ICS999WSGE01 Benutzerhandbuch
Intel® Cluster Studio XE 2013 SP1
HIGH PERFORMANCE MPI HYBRID
DEVELOPMENT SUITE
DEVELOPMENT SUITE
Product Brief
Top Features
Integrated Tool Suite for HPC
Application Development
High Performance MPI Library
High Performance C++, Fortran
Compilers & Powerful Parallel
Models for Multicore and Many-
core
Models for Multicore and Many-
core
Correctness Analysis & Profiling
Tools for Shared, Distributed, and
Hybrid Applications
Hybrid Applications
“Flow-3D’s unique advantage is its
ability for modeling complex fluid
flows. As such, it is difficult to
enable the parallel performance
demanded by our customers. To
meet the demand, we actively use
the full functionality of Intel®
Cluster Studio XE to reduce and
find previously undetectable
shared and distributed memory
errors, and to improve the overall
performance and scaling of our
software on the different
multicore architecture systems
used by our customers. In addition
to the development benefits, the
Cluster Studio XE tools help us to
solve unreproducible issues that
occur at customer sites."
ability for modeling complex fluid
flows. As such, it is difficult to
enable the parallel performance
demanded by our customers. To
meet the demand, we actively use
the full functionality of Intel®
Cluster Studio XE to reduce and
find previously undetectable
shared and distributed memory
errors, and to improve the overall
performance and scaling of our
software on the different
multicore architecture systems
used by our customers. In addition
to the development benefits, the
Cluster Studio XE tools help us to
solve unreproducible issues that
occur at customer sites."
Dr. Anup
Gokarn, Senior Developer, Flow Science, Inc.
Interoperable Products
Intel® OpenCL*
Available in other configuration(s):
OS Support:
Windows*
Linux*
Scale Forward, Scale Faster
The evolution of HPC architectures with more cores and wider vectors on more nodes
challenges developers in writing applications that leverage these architectural advancements
while accommodating result deadlines. The Intel® Cluster Studio XE suite provides a
comprehensive set of parallel programming standards driven by C/C++ and Fortran development
tools and programming models which enable software developers to efficiently develop,
analyze, and optimize HPC applications to scale forward, scale faster, and boost performance for
IA-compatible processors, including the Intel® Xeon Phi™ Coprocessor.
challenges developers in writing applications that leverage these architectural advancements
while accommodating result deadlines. The Intel® Cluster Studio XE suite provides a
comprehensive set of parallel programming standards driven by C/C++ and Fortran development
tools and programming models which enable software developers to efficiently develop,
analyze, and optimize HPC applications to scale forward, scale faster, and boost performance for
IA-compatible processors, including the Intel® Xeon Phi™ Coprocessor.
Intel Cluster Studio XE includes the next-generation of software development tools:
Intel® MPI Library – Highly scalable and interconnect independent low latency MPI library
Intel® Trace Analyzer and Collector – MPI communications performance profiler
Intel® C, C++ and Fortran Compilers – Industry-leading compilers
Intel® Math Kernel Library (Intel® MKL) and Intel® Integrated Performance Primitives
(Intel® IPP) – Performance libraries for math and multimedia
Intel® Threading Building Blocks (Intel® TBB) and Intel® Cilk™ Plus – Parallel programming
models based on threading
Intel® Advisor XE – Threading Prototyping Tool for C/C++, C#, and Fortran architects. Design
in scalability. Design out data sharing issues.
Intel® VTune™ Amplifier XE – Performance & thread profiler tunes hybrid MPI / OpenMP
applications
Intel® Inspector XE – Thread & Memory debugging finds errors static analysis misses.
Static Analysis – Locate difficult to find defects
Intel® MPI Benchmarks – An open source set of MPI and cluster benchmark kernels
Flow Science Inc. Flow-3D application used Intel® Cluster Studio XE to improve application performance.
Image shows simulation results of a launch vehicle draining an oxidizer tank