# Tagged Questions

**-5**

votes

**1**answer

56 views

### Iterative matrix inversion using LAPACK and BLAS library

I would like to compute a complex matrix using an iterative method. I already did this matrix
inversion by using zgetrf and zgetri subroutines in LAPACK. However, I need to comput the inversion
more ...

**3**

votes

**1**answer

73 views

### Wrapping a LAPACKE function using Cython

I'm trying to wrap the LAPACK function dgtsv (a solver for tridiagonal systems of equations) using Cython.
I came across this previous answer, but since dgtsv is not one of the LAPACK functions that ...

**0**

votes

**1**answer

129 views

### Inconsistent performance when multi-threading with Armadillo and OpenBLAS

Using Armadillo I wrote a matrix-vector multiplication and a linear system solve. Armadillo is compiled from source and uses OpenBLAS, also compiled from source. Unfortunately I am getting ...

**1**

vote

**1**answer

224 views

### Solving a linear system with Lapack's dgeqrf_

I am trying to factorize a matrix with the QR factorization in C++, using Lapack's functions in order to solve a system of linear equations (Ax=b)
As far as I understood, dgeqrf computes the QR ...

**2**

votes

**1**answer

79 views

### Solving a linear system with dpotrs (Cholesky factorization)

I am trying to solve a linear system of equations with clapack.
My code is as follows:
//ATTENTION: matrix in column-major
double A[3*3]={ 2.0, -1.0, 0.0,
0.0, 2.0, -1.0,
...

**1**

vote

**1**answer

200 views

### Performing many small matrix operations in parallel in OpenCL

I have a problem that requires me to do eigendecomposition and matrix multiplication of many (~4k) small (~3x3) square Hermitian matrices. In particular, I need each work item to perform ...

**2**

votes

**1**answer

251 views

### Numerically solve a matrix equation in the optimal way

Given a complex square matrix G and a square matrix M, which I can compute quickly from G, I need to calculate efficiently the matrix G' defined by the matrix equation G' ⋅ M⊤ = G in my C++ program. ...

**2**

votes

**0**answers

151 views

### Strange performance issue with AMD's ACML BLAS/LAPACK library

I asked this question over at the AMD developers forum a few days ago, but haven't gotten an answer. Maybe someone here has some insight.
http://devgurus.amd.com/thread/167492
I am running ACML ...

**0**

votes

**1**answer

137 views

### Changing the LAPACK implementation used by IDL linear algebra routines?

Over at http://scicomp.stackexchange.com I asked this question about parallel matrix algorithms in IDL. The answers suggest using a multi-threaded LAPACK implementation and suggest some hacks to get ...

**4**

votes

**2**answers

259 views

### Is integer multiplication implemented using double precision floating point exact up until 2^53?

I ask because I am computing matrix multiplications where all the matrix values are integers.
I'd like to use LAPACK so that I get fast code that is correct. Will two large integers (whose product ...

**2**

votes

**0**answers

508 views

### DSYEV and DSYEVD for sparse matrix diagonalisation

So i have come to a point where DSYEVD is becoming impractical, due to it's higher memory requirements - it will need at least 240GB ram to diagonalise my matrix, so i'm considering moving to the ...

**1**

vote

**1**answer

504 views

### Solving Ax=B using LAPACK, where x >= 0

I'm currently working on an iOS app which handles chemical additions to water. In order to find the smallest possible additions, I'm solving Ax=B where A is a 6x6 matrix and B is one column. As far ...

**0**

votes

**2**answers

4k views

### Solving a system of linear equations using Lapack's dgesv

I want to solve a linear equation system using the Lapack package in C++.
I plan to implement it like this using the routines from here, namely dgesv.
This is my code:
unsigned short int ...

**0**

votes

**1**answer

234 views

### What are the fastest available implementations of BLAS/LAPACK or other linear algebra routings on GPU systems?

nVidia, for example, has CUBLAS, which promises 7-14x speedup. Naively, this is nowhere near the theoretical throughput of any of nVidia's GPU cards. What are the challenges in speeding up linear ...

**1**

vote

**0**answers

106 views

### Efficient computation of the extension of a linear basis to completion when the basis is almost complete (ideally using LAPACK routines)

I have a $p \times n$ matrix $B$ (where $n < p$) with orthonormal columns and would like to find a numerically efficient way to extend this matrix to get a complete $p$-dimensional orthonormal ...

**0**

votes

**2**answers

168 views

### How do you “extend” BLAS subroutines?

Typically, a BLAS subroutine is defined for a certain unique operation. For instance,
DAXPY is necessarily y <-- ax + y
DSCAL is necessarily x = ax.
What I wish to achieve is:
z = ax+by and y = ...

**2**

votes

**2**answers

277 views

### Efficient algorithm for finding largest eigenpair of small general complex matrix

I am looking for an efficient algorithm to find the largest eigenpair of a small, general (non-square, non-sparse, non-symmetric), complex matrix, A, of size m x n. By small I mean m and n is ...

**1**

vote

**2**answers

438 views

### MPI and OpenMP. Do I even have a choice?

I have a linear algebra code that I am trying get to run faster. Its a iterative algorithm with a loop and matrix vector multiplications within in.
So far, I have used MATMUL (Fortran Lib.), DGEMV, ...

**0**

votes

**1**answer

300 views

### C vs Fortran for BLAS 2

I have an application in which I need to carry out a lot of Norms, Dot Products and most importantly, Matrix Vector multiplications.
matrix and vectors are huge. Matrix dimension is tending to be a ...

**5**

votes

**1**answer

461 views

### Difference between dtrtrs and dtrsm

I am looking for some triangular solvers, and I have come across two solvers. One in BLAS: dtrsm and another in LAPACK: dtrtrs. From the looks of it both seem to have common functionality, with dtrsm ...

**5**

votes

**2**answers

3k views

### Calling MATLAB's built-in LAPACK/BLAS routines

I want to learn how to call the built-in LAPACK/BLAS routines in MATLAB. I have experience in MATLAB and mex files but I've actually no idea how to call LAPACK or BLAS libraries. I've found the ...

**2**

votes

**4**answers

947 views

### Applications of Dense Linear Algebra

What are the common real-world applications of Dense Linear Algebra?
Many problems can be easily described and efficiently computed using Linear Algebra as a common language between human and ...

**3**

votes

**1**answer

5k views

**2**

votes

**2**answers

566 views

### LAPACK orthonormalization function

Is there ready routine in lapack to perform orthonormalization, for example Gram-Schmidt or some variation of QR method?
if not, what is the advised approach to perform orthonormalization using ...

**1**

vote

**1**answer

421 views

### Is it possible to solve a non-square under/over constrained matrix using Accelerate/LAPACK?

Is it possible to solve a non-square under/over constrained matrix using Accelerate/LAPACK? Such as the following two matrices. If any variables are under constrained they should equal 0 instead of ...

**3**

votes

**1**answer

737 views

### Using Accelerate (CLAPACK) to solve an augmented matrix?

Does anyone know what function/method to use in Accelerate (CLAPACK) to solve an augmented matrix such as the one below? Looking for any sample code, links to samples, hints on how to solve the ...

**0**

votes

**1**answer

310 views

### How to test dpotrf

I am performing some tests in a scientific application. This application uses Lapack dpotrf Lapack function. I am not really aware about linear algebra. I must simulate a big call to dpotrf, then ...

**11**

votes

**3**answers

2k views

### Mystified by qr.Q(): what is an orthonormal matrix in “compact” form?

R has a qr() function, which performs QR decomposition using either LINPACK or LAPACK (in my experience, the latter is 5% faster). The main object returned is a matrix "qr" that contains in the upper ...

**1**

vote

**2**answers

422 views

### LAPACK + C, weird behaviour

I am trying to solve a simple linear equations system using LAPACK. I use dbsvg method which is optimised for banded matrices. I've obsereved a realy strange behaviour. When I fill the AT matrix this ...

**7**

votes

**6**answers

6k views

### C++ Memory Efficient Solution for Ax=b Linear Algebra System

I am using Numeric Library Bindings for Boost UBlas to solve a simple linear system.
The following works fine, except it is limited to handling matrices A(m x m) for relatively
small 'm'.
In practice ...

**1**

vote

**1**answer

924 views

### Is there Fortran subroutine in LAPACK/BLAS or somewhere else to calculate LDL decomposition?

Like the title says, I need to form cholesky LDL decomposition for my positive definite matrix A (Like normal cholesky, but there's ones one diagonal of L, and D is diagonal matrix). I have found only ...