Parallel Computing Toolbox
Parallel Computing Toolbox™ lets you solve compute- and data-intensive problems using multicore processors, GPUs, and computer clusters. High-level constructs—parallel for-loops, special array types, and parallelized numerical algorithms—enable you to scale MATLAB® applications without CUDA® or MPI programming. Parallel Computing Toolbox also lets you use parallel-enabled functions in MATLAB and other toolboxes and run multiple Simulink® simulations in parallel. Programs and models can run in both interactive and batch modes
The toolbox lets you use the full processing power of multicore and GPU-enabled desktops by executing applications on thread and process workers (MATLAB computational engines) that run locally. Without changing the code, you can run the same applications on clusters or clouds (using MATLAB Parallel Server™). You can also use the toolbox with MATLAB Parallel Server to execute matrix calculations that are too large to fit into the memory of a single machine
Get Started
Learn the basics of Parallel Computing Toolbox
Parallel Computing Fundamentals
Choose a parallel computing solution
Parallel for-Loops (parfor)
Use parallel processing by running parfor
on workers in a parallel pool
Asynchronous Parallel Programming
Evaluate functions in the background using parfeval
Big Data Processing
Analyze big data sets in parallel using distributed arrays, tall arrays, datastores, or mapreduce
, on Spark® and Hadoop® clusters
Batch Processing
Offload execution of functions to run in the background
GPU Computing
Accelerate your code by running it on a GPU
Clusters and Clouds
Discover cluster resources, and work with cluster profiles
Performance Profiling
Improve performance of parallel code