搜索资源列表
cannon
- cannon算法,属于并行算法,主要是矩阵的相乘,
MPI
- 采用MPI接口函数编写一个计算矩阵向量相乘的并行程序-Using MPI interface functions compute the matrix vector multiplication to write a parallel program
main
- 使用MPI并行计算技术,实现矩阵与向量相乘的算法代码-MPI parallel computing technology, the matrix vector multiplication algorithm code
mm
- 多线程实现矩阵并行相乘,在实现方式上采用多线程实现相乘-Implementation of parallel matrix multiplication of multi thread
mpi-matrix_multiple
- c代码,实现矩阵向量相乘的mpi并行计算,适合初学者-c code, matrix-vector multiplication mpi parallel computing for beginners
openmp_mpi_combine
- mpi和openmp混合编程,实现矩阵向量相乘的并行计算,主要是并行开启和终止的示例,适合初学者-mpi and openmp mixed programming, parallel computing matrix-vector multiplication, is an example of a parallel main opening and termination for beginners
MPI
- MPI并行实现矩阵相乘,结果输出到txt文件中,可成功运行-MPI parallel implementation of matrix multiplication algorithm, the results of the txt file, can be successfully run.
spark-logisticregression-and-softmax
- spark平台上的机器学习算法,包括分类、回归以及矩阵相乘的并行实现-Machine learning algorithms spark platforms, including classification, regression and parallel implementation of matrix multiplication
mpi_mat_vect_mult
- 通过MPI接口,实现矩阵向量相乘并行化,大大提高计算的速度-Implement Martrix-Vecter multiply parallel
omp_mat_vect
- 利用OpenMP来实现矩阵向量相乘的并行化,大大提高速度-OpenMP is used to realize the parallelization of matrix-vector multiplication, greatly improve the speed
pth_mat_vect
- 利用Pthreads来实现矩阵向量相乘的并行化,大大提高速度-Using Pthreads to realize parallelization of matrix-vector multiplication, greatly improve the speed
MPI_OpenMP_code
- 压缩包里包含几个用C编写的并行代码,运行无误。其中包括,电路满足性的MP程序,floyd算法MPI代码,Sieve_Eratoshenes筛法MPI代码,矩阵相乘的MPI代码以及计算PI值的OpenMP代码。-Which contains several parallel programs written in C to run correctly. Among them, including Floyd algorithm procedures, matrix multiplication M
thqrtest
- 在MPI上实现的矩阵相乘并行计算的源程序,()
pycuda-2017.1.1.tar
- 矩阵相乘的并行运算的算法,运算效率可以轻松提高近100倍。是进行人工智能研究及深度学习先关研究的必备并行算法。(The algorithm of parallel operation of matrix multiplication can easily increase the operation efficiency by nearly 100 times. It is a necessary parallel algorithm for the study of artificial in