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at(1), batch(1), atq(1), atrm(1)
queue, examine or delete jobs for later execution
atrtc(4)
AT Real-Time Clock (RTC) driver
atrun(8)
run jobs queued for later execution
"glLoadMatrixd(3), glLoadMatrixf(3)
replace the current matrix with the specified matrix
"glMultMatrixd(3), glMultMatrixf(3)
multiply the current matrix with the specified matrix
"glPushMatrix(3), glPopMatrix(3)
push and pop the current matrix stack
"glRotated(3), glRotatef(3)
multiply the current matrix by a rotation matrix
"glScaled(3), glScalef(3)
multiply the current matrix by a general scaling matrix
"glTranslated(3), glTranslatef(3)
multiply the current matrix by a translation matrix
ATR_analysis(1p)
analyse a smart card ATR
AnalyseDists(1)
Analyse a distance matrix
BSb_back_solve(3)
Backward triangular matrix solution on a block of right hand sides
BSb_backward(3)
Backward triangular matrix multiplication on a block of vectors
BSb_for_solve(3)
Forward triangular matrix solution on a block of vectors
BSb_forward(3)
Forward triangular matrix multiplication on a block of vectors
BSback_solve(3)
Backward triangular matrix solution on a single vector
BSback_solve1(3)
Backward triangular matrix solution on a single vector
BSbackward(3)
Backward triangular matrix multiplication on a single vector
BSbackward1(3)
Backward triangular matrix multiplication on a single vector
BScopy_nz(3)
Copy the nonzero values from one matrix to another
BScopy_par_mat(3)
Create of copy of a matrix
BSctx_set_rt(3)
Set whether information for fast future permutations with the same matrix structure should be kept
BSeasy_A(3)
Given A in a standard numerical format, construct the sparse A that we need for BlockSolve. This routine is particularly useful for matrices created in Fortran. The rows on a processor must be contiguous in the global numbering. If they are not, then other BlockSolve routines must be called to construct the matrix for BlockSolve. Arrays are indexed starting with 0. The values in a row must be sorted according to column number
BSfactor(3)
Compute the incomplete factor of a matrix
BSfor_solve(3)
Forward triangular matrix solution on a single vector
BSfor_solve1(3)
Forward triangular matrix solution on a single vector
BSforward(3)
Forward triangular matrix multiplication on a single vector
BSforward1(3)
Forward triangular matrix multiplication on a single vector
BSfree_copy_par_mat(3)
Free a copy of a sparse matrix (parallel format)
BSfree_easymat(3)
Free a sparse matrix allocated in BSeasy_mat
BSfree_par_mat(3)
Free a sparse matrix (parallel format)
BSfree_spmat(3)
Free a sparse matrix (original format)
BSget_diag(3)
Retrieve the diagonal of the matrix
BSinv_diag_block(3)
Invert the dense diagonal blocks of the matrix
BSmain_perm(3)
Permute the matrix for efficient parallel execution
BSmain_reperm(3)
Permute the sparse matrix using data structures generated by BSmain_perm on the same matrix structure
BSscale_diag(3)
Symmetrically scale the matrix by a diagonal matrix
BSset_mat_icc_storage(3)
Set the matrix storage
BSset_mat_symmetric(3)
Set the matrix symmetry
BSsetup_block(3)
Change the setup for triangular matrix multiplication to allow for multiple vectors
BSsetup_forward(3)
Set up the communication structure for triangular matrix solution
BStri_mult(3)
Multiply the matrix (A - shift*B) by a block of vectors
BStri_solve(3)
Multiply the matrix A(-1) by a block of vectors
GB(3)
General Band Matrix
GE(3)
General Matrices
GT(3)
General tridiagonal Matrix
HE(3)
Hermitian Matrix
HPL_dlaprnt(3)
Print the matrix A
HPL_dlocmax(3)
finds the maximum entry in matrix column
HPL_dmatgen(3)
random matrix generator
HPL_pdgesv0(3)
Factor an N x N+1 matrix
HPL_pdgesvK1(3)
Factor an N x N+1 matrix
HPL_pdgesvK2(3)
Factor an N x N+1 matrix
HPL_pdlaprnt(3)
Print a distributed matrix A
HPL_pdmatgen(3)
Parallel random matrix generator
HPL_pdupdateNN(3)
Broadcast a panel and update the trailing submatrix
HPL_pdupdateNT(3)
Broadcast a panel and update the trailing submatrix
HPL_pdupdateTN(3)
Broadcast a panel and update the trailing submatrix
HPL_pdupdateTT(3)
Broadcast a panel and update the trailing submatrix
MATRIX(3)
Fixed point matrix structure. Allegro game programming library
MATRIX_f(3)
Floating point matrix structure. Allegro game programming library
M_Matrix(3)
Agar-Math matrix-related functions
M_Matview(3)
Agar-Math matrix viewer widget
PO(3)
Positive Definite Matrix
PT(3)
Positive Definite tridiagonal Matrix
SY(3)
Symmetric Matrix
XbaeMatrix(3)
The Bellcore Application Environment (BAE) XbaeMatrix widget class
XkbAddSymInterpret(3)
Add a symbol interpretation to the list of symbol interpretations in an XkbCompatRec
XkbGetAutoRepeatRate(3)
Gets the current attributes of the RepeatKeys control for a keyboard device
XkbSetAutoRepeatRate(3)
Sets the attributes of the RepeatKeys control for a keyboard device
activateCDKMatrix(3), activateCDKMatrix cleanCDKMatrix cleanCDKMatrixCell destroyCDKMatrix drawCDKMatrix eraseCDKMatrix getCDKMatrixBox getCDKMatrixCell getCDKMatrixCol getCDKMatrixRow injectCDKMatrix jumpToCell moveToCDKMatrixCell newCDKMatrix setCDKMatrix setCDKMatrixBackgroundAttrib setCDKMatrixBackgroundColor setCDKMatrixBox setCDKMatrixBoxAttribute setCDKMatrixCB setCDKMatrixCell setCDKMatrixCells setCDKMatrixHorizontalChar setCDKMatrixLLChar setCDKMatrixLRChar setCDKMatrixPostProcess setCDKMatrixPreProcess setCDKMatrixULChar setCDKMatrixURChar setCDKMatrixVerticalChar cdk_matrix(3)
curses matrix widget
al_set_audio_stream_channel_matrix(3)
Allegro 5 API
al_set_sample_instance_channel_matrix(3)
Allegro 5 API
al_set_shader_matrix(3)
Allegro 5 API
algae(1)
another matrix programming language
apply_matrix(3), apply_matrix_f(3)
Multiplies a point by a transformation matrix. Allegro game programming library
artsasagg(l)
utility to aggregate AS matrix objects in time domain
artsases(l)
utility to display AS matrix objects from ARTS files
artsintfmagg(l)
utility to aggregate interface matrix objects in time domain
artsintfms(l)
utility to display interface matrix objects from ARTS files
artsnetagg(l)
utility to aggregate net matrix objects in time domain
artsnets(l)
utility to display net matrix objects from ARTS files
artsportmagg(l)
utility to aggregate port matrix objects in time domain
artsportms(l)
utility to display port matrix objects from ARTS files
atril(1), Atril(1)
The MATE Document Viewer
atril-previewer(1)
show print preview for a document
atril-thumbnailer(1)
create png thumbnails from atril supported documents
dmtxread(1)
scan Data Matrix barcodes
dmtxwrite(1)
create Data Matrix barcodes
elpa_cholesky(3)
do a Cholesky factorization of a real symmetric or complex hermitian matrix
elpa_eigenvalues(3)
computes the eigenvalues of a real symmetric or complex hermitian matrix
elpa_eigenvectors(3)
computes the eigenvalues and (part of) the eigenvector spectrum for a real symmetric or complex hermitian matrix
elpa_generalized_eigenvalues(3)
computes the eigenvalues of a generalized eigenvalue problem for real symmetric or complex hermitian matrices
elpa_generalized_eigenvectors(3)
computes the generalized eigenvalues and (part of) the eigenvector spectrum for a real symmetric or complex hermitian matrix
elpa_invert_triangular(3)
Invert an upper triangular matrix
elpa_solve_tridiagonal(3)
computes the eigenvalue problem for real symmetric tridiagonal matrix
fontmatrix(1)
a powerful open source font manager
gamatronic(8)
Driver for Gamatronic UPS equipment
get_align_matrix(3)
Rotates a matrix to align it along specified coordinate vectors. Allegro game programming library
get_align_matrix_f(3)
Floating point version of get_align_matrix(). Allegro game programming library
get_camera_matrix(3)
Constructs a camera matrix for perspective projection. Allegro game programming library
get_camera_matrix_f(3)
Floating point version of get_camera_matrix(). Allegro game programming library
get_rotation_matrix(3), get_rotation_matrix_f(3)
Constructs X, Y, Z rotation matrices. Allegro game programming library
get_scaling_matrix(3), get_scaling_matrix_f(3)
Constructs a scaling matrix. Allegro game programming library
get_transformation_matrix(3)
Constructs X, Y, Z rotation matrices with an angle and scaling. Allegro game programming library
get_transformation_matrix_f(3)
Floating point version of get_transformation_matrix(). Allegro game programming library
get_translation_matrix(3), get_translation_matrix_f(3)
Constructs a translation matrix. Allegro game programming library
get_vector_rotation_matrix(3), get_vector_rotation_matrix_f(3)
Constructs X, Y, Z rotation matrices with an angle. Allegro game programming library
get_x_rotate_matrix(3), get_x_rotate_matrix_f(3)
Construct X axis rotation matrices. Allegro game programming library
get_y_rotate_matrix(3), get_y_rotate_matrix_f(3)
Construct Y axis rotation matrices. Allegro game programming library
get_z_rotate_matrix(3), get_z_rotate_matrix_f(3)
Construct Z axis rotation matrices. Allegro game programming library
glFrustum(3), "glFrustum(3)
multiply the current matrix by a perspective matrix
glLoadIdentity(3), "glLoadIdentity(3)
replace the current matrix with the identity matrix
glMatrixMode(3), "glMatrixMode(3)
specify which matrix is the current matrix
glOrtho(3), "glOrtho(3)
multiply the current matrix with an orthographic matrix
glmatrix(6)
simulates the title sequence effect of the movie
gluLoadSamplingMatrices(3), "gluLoadSamplingMatrices(3)
load NURBS sampling and culling matrices
gluOrtho2D(3), "gluOrtho2D(3)
define a 2D orthographic projection matrix
gluPerspective(3), "gluPerspective(3)
set up a perspective projection matrix
gluPickMatrix(3), "gluPickMatrix(3)
define a picking region
gmx-covar(1)
Calculate and diagonalize the covariance matrix rst2man-indent-level 0 1 rstReportMargin \$1
gmx-enemat(1)
Extract an energy matrix from an energy file rst2man-indent-level 0 1 rstReportMargin \$1
gmx-rms(1)
Calculate RMSDs with a reference structure and RMSD matrices rst2man-indent-level 0 1 rstReportMargin \$1
gmx-rotmat(1)
Plot the rotation matrix for fitting to a reference structure rst2man-indent-level 0 1 rstReportMargin \$1
gmx-xpm2ps(1)
Convert XPM (XPixelMap) matrices to postscript or XPM rst2man-indent-level 0 1 rstReportMargin \$1
hwloc-distances(1)
Displays distance matrices
hwlocality_distances_consult(3)
Helpers for consulting distance matrices
identity_matrix(3), identity_matrix_f(3)
Global containing the identity matrix. Allegro game programming library
libdmtx(3)
Data Matrix Encoding & Decoding Library 0.7.5
libmpatrol(3)
dynamic memory allocation and tracing library
lis_array_ge(3)
calculate the inverse of the matrix with the Gaussian elimination
lis_array_ge(3f)
calculate the inverse of the matrix with the Gaussian elimination
lis_array_matmat(3)
calculate the matrix-matrix product
lis_array_matmat(3f)
calculate the matrix-matrix product
lis_array_matmat_ns(3)
calculate the matrix-matrix product
lis_array_matmat_ns(3f)
calculate the matrix-matrix product
lis_array_matvec(3)
calculate the matrix vector product
lis_array_matvec(3f)
calculate the matrix vector product
lis_array_matvec_ns(3)
calculate the matrix vector product
lis_array_matvec_ns(3f)
calculate the matrix vector product
lis_array_matvect(3)
calculate the matrix vector product
lis_array_matvect(3f)
calculate the matrix vector product
lis_input(3)
read the matrix and vector data
lis_input(3f)
read the matrix and vector data
lis_input_matrix(3)
read the matrix data
lis_input_matrix(3f)
read the matrix data
lis_matrix_assemble(3)
assemble the matrix into the specified storage format
lis_matrix_assemble(3f)
assemble the matrix into the specified storage format
lis_matrix_axpy(3)
calculate the sum of the matrices
lis_matrix_axpy(3f)
calculate the sum of the matrices
lis_matrix_axpyz(3)
calculate the sum of the matrices
lis_matrix_axpyz(3f)
calculate the sum of the matrices
lis_matrix_convert(3)
convert the matrix format
lis_matrix_convert(3f)
convert the matrix format
lis_matrix_copy(3)
copy the values of the matrix elements
lis_matrix_copy(3f)
copy the values of the matrix elements
lis_matrix_create(3)
create the matrix
lis_matrix_create(3f)
create the matrix
lis_matrix_destroy(3)
destroy the matrix
lis_matrix_destroy(3f)
destroy the matrix
lis_matrix_duplicate(3)
duplicate the matrix
lis_matrix_duplicate(3f)
duplicate the matrix
lis_matrix_get_diagonal(3)
Get the digonal elemments of the matrix
lis_matrix_get_diagonal(3f)
get the digonal elemments of the matrix
lis_matrix_get_nnz(3)
get the number of nonzero elements of the matrix
lis_matrix_get_nnz(3f)
get the number of nonzero elements of the matrix
lis_matrix_get_range(3)
get the location of the partial matrix in the global matrix
lis_matrix_get_range(3f)
get the location of the partial matrix in the global matrix
lis_matrix_get_size(3)
get the size of the matrix
lis_matrix_get_size(3f)
get the size of the matrix
lis_matrix_get_type(3)
get the storage format
lis_matrix_get_type(3f)
get the storage format
lis_matrix_malloc(3)
allocate the memory for the matrix
lis_matrix_malloc(3f)
allocate the memory for the matrix
lis_matrix_scale(3)
scale the matrix
lis_matrix_scale(3f)
scale the matrix
lis_matrix_set_blocksize(3)
assign the block size of the matrix
lis_matrix_set_blocksize(3f)
assign the block size of the matrix
lis_matrix_set_bsc(3)
associate the arrays in the BSC format with the matrix
lis_matrix_set_bsc(3f)
associate the arrays in the BSC format with the matrix
lis_matrix_set_bsr(3)
associate the arrays in the BSR format with the matrix
lis_matrix_set_bsr(3f)
associate the arrays in the BSR format with the matrix
lis_matrix_set_coo(3)
associate the arrays in the COO format with the matrix
lis_matrix_set_coo(3f)
associate the arrays in the COO format with the matrix
lis_matrix_set_csc(3)
associate the arrays in the CSC format with the matrix
lis_matrix_set_csc(3f)
associate the arrays in the CSC format with the matrix
lis_matrix_set_csr(3)
associate the arrays in the CSR format with the matrix
lis_matrix_set_csr(3f)
associate the arrays in the CSR format with the matrix
lis_matrix_set_dia(3)
associate the arrays in the DIA format with the matrix
lis_matrix_set_dia(3f)
associate the arrays in the DIA format with the matrix
lis_matrix_set_dns(3)
associate the arrays in the DNS format with the matrix
lis_matrix_set_dns(3f)
associate the arrays in the DNS format with the matrix
lis_matrix_set_ell(3)
associate the arrays in the ELL format with the matrix
lis_matrix_set_ell(3f)
associate the arrays in the ELL format with the matrix
lis_matrix_set_jad(3)
associate the arrays in the JAD format with the matrix
lis_matrix_set_jad(3f)
associate the arrays in the JAD format with the matrix
lis_matrix_set_msr(3)
associate the arrays in the MSR format with the matrix
lis_matrix_set_msr(3f)
associate the arrays in the MSR format with the matrix
lis_matrix_set_size(3)
assign the size of the matrix
lis_matrix_set_size(3f)
assign the size of the matrix
lis_matrix_set_type(3)
assign the storage format
lis_matrix_set_type(3f)
assign the storage format
lis_matrix_set_value(3)
assign the scalar value to the element of the matrix
lis_matrix_set_value(3f)
assign the scalar value to the element of the matrix
lis_matrix_set_vbr(3)
associate the arrays in the VBR format with the matrix
lis_matrix_set_vbr(3f)
associate the arrays in the VBR format with the matrix
lis_matrix_shift_diagonal(3)
shift the digonal elemments of the matrix
lis_matrix_shift_diagonal(3f)
shift the digonal elemments of the matrix
lis_matrix_unset(3)
unassociate the arrays from the matrix
lis_matrix_unset(3f)
unassociate the arrays from the matrix
lis_matrix_xpay(3)
calculate the sum of the matrices
lis_matrix_xpay(3f)
calculate the sum of the matrices
lis_matvec(3)
calculate the matrix vector product
lis_matvec(3f)
calculate the matrix vector product
lis_matvect(3)
calculate the matrix vector product
lis_matvect(3f)
calculate the matrix vector product
lis_output(3)
write the matrix and vector data
lis_output(3f)
write the matrix and vector data
lis_output_matrix(3)
write the matrix data
lis_output_matrix(3f)
write the matrix data
lsolve(1)
linear solver for sparse matrices
matgen(3)
Matrix Generation
matrix_mul(3), matrix_mul_f(3)
Multiplies two matrices. Allegro game programming library
matrix_to_quat(3)
Constructs a quaternion from a rotation matrix. Allegro game programming library
matrixview(1)
seeing images in the matrix
mga(4x)
Matrox video driver
mkvextract(1)
extract tracks from Matroska(TM) files into other files
mkvinfo(1)
Print information about elements in Matroska(TM) files
mkvmerge(1)
Merge multimedia streams into a Matroska(TM) file
mkvpropedit(1)
Modify properties of existing Matroska(TM) files without a complete remux
mleak(1)
locates memory leaks in an mpatrol log file
mm2gv(1)
Matrix Market-DOT converters
mpatrol(1)
runs programs using the mpatrol library
mprof(1)
displays profiling information produced by the mpatrol library
mpsym(1)
locates missing symbolic information in an mpatrol log file
mptrace(1)
displays tracing information produced by the mpatrol library
mtxorbd(1)
Control a matrix orbital lcd screen
normal3d(l)
apply transformation matrix in Raster3D input file
pam_matrix(8)
A PAM test module to retrieve module-specific PAM items
pbmtomatrixorbital(1)
convert a PBM image to a Matrix Orbital LCD image synopsis
pfscolortransform(1)
Apply color calibration using user provided matrix file
pig(6)
eformatray inputway asway Igpay Atinlay
qscale_matrix(3), qscale_matrix_f(3)
Optimised routine for scaling an already generated matrix. Allegro game programming library
qtranslate_matrix(3), qtranslate_matrix_f(3)
Optimised routine for translating an already generated matrix. Allegro game programming library
quat_to_matrix(3)
Constructs a rotation matrix from a quaternion. Allegro game programming library
sc_DiagMolecularHessian(3), sc::DiagMolecularHessian(3)
DiagMolecularHessian is an implementation of MolecularHessian that returns a hessian that is a diagonal matrix
sc_DiagSCMatrix(3), sc::DiagSCMatrix(3)
The SymmSCMatrix class is the abstract base class for diagonal double valued matrices
sc_DistSCMatrixKit(3), sc::DistSCMatrixKit(3)
The DistSCMatrixKit produces matrices that work in a many processor environment
sc_LocalSCMatrixKit(3), sc::LocalSCMatrixKit(3)
The LocalSCMatrixKit produces matrices that work in a single processor environment
sc_RefDiagSCMatrix(3), sc::RefDiagSCMatrix(3)
The RefDiagSCMatrix class is a smart pointer to an DiagSCMatrix specialization
sc_RefSCMatrix(3), sc::RefSCMatrix(3)
The RefSCMatrix class is a smart pointer to an SCMatrix specialization
sc_RefSymmSCMatrix(3), sc::RefSymmSCMatrix(3)
The RefSymmSCMatrix class is a smart pointer to an SCSymmSCMatrix specialization
sc_ReplSCMatrixKit(3), sc::ReplSCMatrixKit(3)
The ReplSCMatrixKit produces matrices that work in a many processor environment
sc_SCDimension(3), sc::SCDimension(3)
The SCDimension class is used to determine the size and blocking of matrices
sc_SCElementKNorm(3), sc::SCElementKNorm(3)
Computed k-norm of matrix
sc_SCElementOp(3), sc::SCElementOp(3)
Objects of class SCElementOp are used to perform operations on the elements of matrices
sc_SCMatrix(3), sc::SCMatrix(3)
The SCMatrix class is the abstract base class for general double valued n by m matrices
sc_SCMatrixBlock(3), sc::SCMatrixBlock(3)
SCMatrixBlock is the base clase for all types of blocks that comprise matrices and vectors
sc_SCMatrixBlockIter(3), sc::SCMatrixBlockIter(3)
The SCMatrixBlockIter class is used to described iterates that loop through the elements in a block
sc_SCMatrixDiagBlock(3), sc::SCMatrixDiagBlock(3)
The SCMatrixDiagBlock describes a diagonal piece of a matrix
sc_SCMatrixDiagSubBlock(3), sc::SCMatrixDiagSubBlock(3)
The SCMatrixDiagSubBlock describes a diagonal subblock of a matrix
sc_SCMatrixKit(3), sc::SCMatrixKit(3)
The SCMatrixKit abstract class acts as a factory for producing matrices
sc_SCMatrixLTriBlock(3), sc::SCMatrixLTriBlock(3)
The SCMatrixLTriBlock describes a triangular piece of a matrix
sc_SCMatrixLTriSubBlock(3), sc::SCMatrixLTriSubBlock(3)
The SCMatrixLTriSubBlock describes a triangular subblock of a matrix
sc_SCMatrixRectBlock(3), sc::SCMatrixRectBlock(3)
The SCMatrixRectBlock describes a rectangular piece of a matrix
sc_SCMatrixRectSubBlock(3), sc::SCMatrixRectSubBlock(3)
The SCMatrixRectSubBlock describes a rectangular piece of a matrix
sc_SCMatrixSubblockIter(3), sc::SCMatrixSubblockIter(3)
Objects of class SCMatrixSubblockIter are used to iterate through the blocks of a matrix
sc_ShellRotation(3), sc::ShellRotation(3)
Compute the transformation matrices that maps a set of Cartesian functions to another set of Cartesian functions in a rotated coordinate system
sc_SymRep(3), sc::SymRep(3)
The SymRep class provides an n dimensional matrix representation of a symmetry operation, such as a rotation or reflection
sc_SymmSCMatrix(3), sc::SymmSCMatrix(3)
The SymmSCMatrix class is the abstract base class for symmetric double valued matrices
sc_SymmetryOperation(3), sc::SymmetryOperation(3)
The SymmetryOperation class provides a 3 by 3 matrix representation of a symmetry operation, such as a rotation or reflection
segyio-catr(1)
Print selected headers from FILE
spmvtest4(1)
SpMV kernel benchmark for sparse matrix storage formats
spmvtest5(1)
SpMV kernel benchmark for specified matrix storage format
volpack-CurrentMatrix(3), vpCurrentMatrix(3)
choose the current transformation matrix
volpack-GetMatrix(3), vpGetMatrix(3)
retrieve the contents of a transformation matrix
volpack-Identity(3), vpIdentityMatrix(3)
load the identity matrix into the current transformation matrix
volpack-LinAlgebra(3), vpIdentity3(3), vpIdentity4(3), vpNormalize3(3), vpMatrixVectorMult4(3), vpMatrixMult4(3), vpCrossProduct(3), vpSolveSystem4(3), vpSetVector3(3), vpSetVector4(3)
linear algebra routines
volpack-MultMatrix(3), vpMultMatrix(3)
multiply the current transformation matrix by another matrix
volpack-Rotate(3), vpRotate(3)
multiply the current transformation matrix by a rotation matrix
volpack-Scale(3), vpScale(3)
multiply the current transformation matrix by a scaling matrix
volpack-SetMatrix(3), vpSetMatrix(3)
load a matrix into the current transformation matrix
volpack-Translate(3), vpTranslate(3)
multiply the current transformation matrix by a translation matrix
volpack-Window(3), vpWindow(3)
multiply the projection matrix by a perspective or orthographic matrix
volpack-WindowPHIGS(3), vpWindowPHIGS(3)
multiply the projection matrix by a PHIGS viewing matrix
wackatrl(8)
IP-failover high-availability controller
x42-matrixmixer(1), x42-matrixmixer8x8(1)
JACK Matrix Mixer
xmatrix(6)
simulates the computer displays from the movie
zrepl(1)
zrepl Documentation %GitHub license %Language: Go %Twitter %Donate via Patreon %Donate via GitHub Sponsors %Donate via Liberapay %Donate via PayPal zrepl is a one-stop, integrated solution for ZFS replication
Algorithm::Munkres(3), Algorithm::Munkres(3)
Perl extension for Munkres solution to classical Assignment problem for square and rectangular matrices This module extends the solution of Assignment problem for square matrices to rectangular matrices by padding zeros. Thus a rectangular matrix is converted to square matrix by padding necessary zeros
Amon2::Lite(3)
Sinatra-ish framework on Amon2!
Amon2::Web::Dispatcher::Lite(3)
Sinatra like dispatcher for Amon2
Bio::MAGETAB::DataMatrix(3)
MAGE-TAB data matrix class
Bio::MAGETAB::MatrixColumn(3)
MAGE-TAB matrix column class
Bio::MAGETAB::MatrixRow(3)
MAGE-TAB matrix row class
Bio::MAGETAB::Util::Reader::DataMatrix(3)
Data matrix parser class
Bio::Matrix::Generic(3)
A generic matrix implementation
Bio::Matrix::IO(3)
A factory for Matrix parsing
Bio::Matrix::IO::mlagan(3)
A parser for the mlagan substitution matrix
Bio::Matrix::IO::phylip(3)
A parser for PHYLIP distance matricies
Bio::Matrix::IO::scoring(3)
A parser for PAM/BLOSUM matricies
Bio::Matrix::MatrixI(3)
An interface for describing a Matrix
Bio::Matrix::Mlagan(3)
A generic matrix with mlagan fields
Bio::Matrix::PSM::IO(3)
PSM parser
Bio::Matrix::PSM::IO::mast(3)
PSM mast parser implementation
Bio::Matrix::PSM::IO::masta(3)
motif fasta format parser
Bio::Matrix::PSM::IO::meme(3)
PSM meme parser implementation
Bio::Matrix::PSM::IO::psiblast(3)
PSM psiblast parser
Bio::Matrix::PSM::IO::transfac(3)
PSM transfac parser
Bio::Matrix::PSM::InstanceSite(3)
A PSM site occurrence
Bio::Matrix::PSM::InstanceSiteI(3)
InstanceSite interface, holds an instance of a PSM
Bio::Matrix::PSM::ProtMatrix(3)
SiteMatrixI implementation, holds a position scoring matrix (or position weight matrix) with log-odds scoring information
Bio::Matrix::PSM::ProtPsm(3)
handle combination of site matricies
Bio::Matrix::PSM::Psm(3)
handle combination of site matricies
Bio::Matrix::PSM::PsmHeader(3)
PSM mast parser implementation
Bio::Matrix::PSM::PsmHeaderI(3)
handles the header data from a PSM file
Bio::Matrix::PSM::PsmI(3)
abstract interface to handler of site matricies
Bio::Matrix::PSM::SiteMatrix(3)
SiteMatrixI implementation, holds a position scoring matrix (or position weight matrix) and log-odds
Bio::Matrix::PSM::SiteMatrixI(3)
SiteMatrixI implementation, holds a position scoring matrix (or position weight matrix) and log-odds
Bio::Matrix::PhylipDist(3)
A Phylip Distance Matrix object
Bio::Matrix::Scoring(3)
Object which can hold scoring matrix information
Bio::NEXUS::Matrix(3)
Provides functions for handling blocks that have matrices
Bio::NEXUS::Tools::NexPlotter(3), nexplot.pl(3)
PostScript plot of tree + data table (from NEXUS infile) =head1 SYNOPSIS nexplot.pl [options] foo.nex [tree_name] > foo.ps =head1 OPTIONS -h Brief help message -d Full documentation -v Verbose mode -V Print version information and quit -f Specify output file (default: STDOUT) INFORMATION TO DISPLAY -b Turn on bootstrap values, if any -i Turn on internal node labeling -t Tree only (ignore any characters) -I Specify character block (by "Title") to be used in matrix (e.g. "dna", "protein", "intron") -m Matrix only (ignore any trees) -c Cladogram mode: (auto if no branch lengths present in tree) normal: all branch lengths equal accelerated: same as normal except OTUs are aligned at end -U Display taxa sets in color (-U "set1 color1 [set2 color2 ...]") Color options are red, orange, green, forest, aqua, blue, purple, pink, brown, gray, black PLOT FORMATTING -r Right-justify labels (default: left-justified) -C Columns of characters per block (default = 10) -T Specify tree width (longest branch; default: 10") -S Spacing (vertically) between OTUs (default: .25") -R Ratio of font height to Spacing (default: 0.8; rec: 0.5-1) -F Font to use for labels and titles -B Draw a box indicating postscriptes bounds of the plot area -g Include gray lines after OTU labels, even if -t (tree only) option is used PAGE SETUP -s Print on multiple pages, but shrink to page height -o Print on multiple pages at actual size -W Specify output page width (default: 8.5") -H Specify output page height (default: 11") -a Change page dimensions to fit plot =head1 DESCRIPTION B<This program> will read a NEXUS file and output a PostScript display of trees (one file for each tree in the tree block), as well as any character matrix (e.g. sequences) if present in the file. =head1 FILES =over 4 =back =head1 VERSION $Id: NexPlotter.pm,v 1.2 2008/06/16 19:53:41 astoltzfus Exp $
Bio::Phylo::Matrices(3)
Container of matrix objects
Bio::Phylo::Matrices::Character(3)
A character (column) in a matrix
Bio::Phylo::Matrices::Characters(3)
Container of character objects
Bio::Phylo::Matrices::Datatype(3)
Validator of character state data
Bio::Phylo::Matrices::Datatype::Continuous(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Custom(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Dna(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Illumina(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Mixed(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Protein(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Restriction(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Rna(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Sanger(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Solexa(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datatype::Standard(3)
Validator subclass, no serviceable parts inside
Bio::Phylo::Matrices::Datum(3)
Character state sequence
Bio::Phylo::Matrices::DatumRole(3)
Extra behaviours for a character state sequence
Bio::Phylo::Matrices::Matrix(3)
Character state matrix
Bio::Phylo::Matrices::MatrixRole(3)
Extra behaviours for a character state matrix
Bio::Phylo::Matrices::TypeSafeData(3)
Superclass for objects that contain character data
Bio::Tools::Run::Genscan(3)
Object for identifying genes in a given sequence given a matrix(for appropriate organisms)
CAD::Drawing::Manipulate::Transform(3)
Matrix methods for CAD::Drawing
Chemistry::InternalCoords::Builder(3)
Build a Z-matrix from cartesian coordinates
GD::Barcode::Matrix2of5(3)
Create Matrix2of5 barcode image with GD
Goo::Cairo::Matrix(3)
wrapper for GooCairoMatrix
Graph::AdjacencyMatrix(3)
create and query the adjacency matrix of graph G
Graph::BitMatrix(3)
create and manipulate a V x V bit matrix of graph G
Graph::Matrix(3)
create and manipulate a V x V matrix of graph G
Graph::TransitiveClosure::Matrix(3)
create and query transitive closure of graph
Gtk2::Pango::Matrix(3)
backwards compatibility wrapper for Pango::Matrix
HTML::FormatRTF(3)
Format HTML as RTF
Image::ExifTool::Matroska(3)
Read meta information from Matroska files
Imager::Matrix2d(3), Imager::Matrix2d(3)
simple wrapper for matrix construction
Math::Cephes::Matrix(3)
Perl interface to the cephes matrix routines
Math::GSL::Eigen(3)
Functions for computing eigenvalues and eigenvectors of matrices
Math::GSL::Matrix(3)
Mathematical functions concerning Matrices
Math::GSL::MatrixComplex(3)
Complex Matrices
Math::GSL::SparseMatrix(3)
Sparse Matrices
Math::Matrix(3)
multiply and invert matrices
Math::MatrixReal(3)
Matrix of Reals Implements the data type "matrix of real numbers" (and consequently also "vector of real numbers")
Math::Symbolic::VectorCalculus(3)
Symbolically comp. grad, Jacobi matrices etc
Net::DNS::Match(3)
Perl extension for testing domains against another list of domains (similar to Net::Patricia but for FQDNs)
Net::DRI::Protocol::EPP::Extensions::AT::ATResult(3)
NIC.AT Result Condition EPP Mapping for Net::DRI
Net::Patricia(3)
Patricia Trie perl module for fast IP address lookups
PDF::Builder::Matrix(3)
matrix operations library
PDL::Matrix(3)
-- a convenience matrix class for column-major access
PDL::MatrixOps(3)
-- Some Useful Matrix Operations
Pango::Matrix(3)
wrapper for PangoMatrix
Router::Simple::Sinatraish(3)
Sinatra-ish routers on Router::Simple
SWF::FilterMatrix(3)
SWF FilterMatrix class
SWF::Matrix(3)
SWF matrix class
Test::TAP::HTMLMatrix(3)
Creates colorful matrix of Test::Harness friendly test run results using Test::TAP::Model
Tk::TableMatrix(3), TableMatrix(3)
Create and manipulate tables
Tk::TableMatrix::Spreadsheet(3)
Table Display with Spreadsheet-like bindings
Tk::TableMatrix::SpreadsheetHideRows(3)
Table Display with selectable hide/un-hide of rows
Vend::Options::Matrix(3)
Interchange Matrix Options Support
XML::Schematron(3)
Perl implementation of the Schematron
XML::Schematron::LibXSLT(3)
Perl extension for validating XML with XPath/XSLT expressions
XML::Schematron::XPath(3)
Perl extension for validating XML with XPath expressions
arced(nged)
Provides a means for directly editing transformation matrices of Boolean tree leaves
bp_search2tribe(1)
Turn SearchIO parseable reports(s) into TRIBE matrix
copyeval(nged)
Creates a new primitive object called new_ primitiveby applying the transformation matrices accumulated along the path_to_old_primitive to the leaf primitive shape object at the end of the path and saving the result under the name new_ primitive
copymat(nged)
Copies the transformation matrix from a member of one combination to the member of another
cxxmatrix(1), C++ Matrix(1)
The Matrix Reloaded in Terminals
dgord(1)
compute sparse matrix orderings of graphs in parallel
gord(1)
compute sparse matrix orderings of graphs
gotst(1), gomtst(1)
compute statistics on sparse matrix orderings
gout(1)
output graphics from matrices and graphs
i.ortho.rectify(1), i.ortho.rectify (1)
Orthorectifies an image by using the image to photo coordinate transformation matrix
matpick(nged)
Selects which matrix in the illuminated path should be edited
matrix(3), ident(3), matmul(3), matmulr(3), determinant(3), adjoint(3), invertmat(3), xformpoint(3), xformpointd(3), xformplane(3), pushmat(3), popmat(3), rot(3), qrot(3), scale(3), move(3), xform(3), ixform(3), persp(3), look(3), viewport(3)
Geometric transformations
mord(1)
compute sparse matrix orderings of meshes
oed(nged)
Places MGED directly into the matrix edit mode
orot(nged)
Performs a rotation of an object during matrix edit
oscale(nged)
This command of matrix edit mode modifies the matrix to perform a uniform scale operation
pods::SDLx::Surface(3), SDLx::Surface(3)
Graphic surface matrix extension
pull(nged)
Pulls the effects of all transformation matrices that appear in any combinations or primitives in the trees from the leaves up to the specified objects or node
push(nged)
Forces the effects of all transformation matrices that appear in any combinations in the trees from the specified objects down to the primitive shapes
putmat(nged)
Replaces the existing transformation matrix in the combination specified that corresponds to the member specified
r.covar(1), r.covar (1)
Outputs a covariance/correlation matrix for user-specified raster map layer(s)
r.kappa(1), r.kappa (1)
Calculates error matrix and kappa parameter for accuracy assessment of classification result
r.mfilter(1), r.mfilter (1)
Performs raster map matrix filter
showmats(nged)
Lists the transformation matrices encountered along the specified path and also lists the accumulated matrix at the end of the path
status(nged)
Without a subcommand, the status command returns the following information: current state, view size of the current display manager, the conversion factor from local model units to the base units (mm) stored in the database, and the view matrices of the current display manager
trainlid(1)
build transition matrix for Lingua::Ident module
translate(nged)
Used to precisely control the translation of an object in both primitive edit and matrix edit modes
wxGraphicsMatrix(3)
See external documentation: wxGraphicsMatrix
wxGridCellFloatRenderer(3)
See external documentation: wxGridCellFloatRenderer
xpush(nged)
“Pushes” the effects of transformation matrices in the paths, from the specified object to the primitive shapes, into the shapes and replaces all the transformation matrices with identity matrices
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