optipng
advanced PNG (Portable Network Graphics) optimizer
OptiPNG is a PNG optimizer that recompresses the image files to a smaller
size. It losslessly reduces the bit depth, the color type and the color
palette of the image, runs a suite of compression methods and strategies,
and selects the compression parameters that yield the smallest output file.
It also recognizes several external file formats like BMP, GIF, TIFF and
PNM (PBM, PGM, PPM).
libslepc-real3.19t64
Scalable Library for Eigenvalue Problem Computations
SLEPc is a software library for the solution of large scale sparse eigenvalue
problems on parallel computers. It is an extension of PETSc and can be used
for either standard or generalized eigenproblems, with real or complex
arithmetic. It can also be used for computing a partial SVD of a large,
sparse, rectangular matrix.
libnutclient2
network UPS tools - new client library
Network UPS Tools (NUT) is a client/server monitoring system that
allows computers to share uninterruptible power supply (UPS) and
power distribution unit (PDU) hardware. Clients access the hardware
through the server, and are notified whenever the power status
changes.
libnutscan2
network UPS tools - scanner library
Network UPS Tools (NUT) is a client/server monitoring system that
allows computers to share uninterruptible power supply (UPS) and
power distribution unit (PDU) hardware. Clients access the hardware
through the server, and are notified whenever the power status
changes.
libslepc64-complex3.19t64
Scalable Library for Eigenvalue Problem Computations (64-bit)
SLEPc is a software library for the solution of large scale sparse eigenvalue
problems on parallel computers. It is an extension of PETSc and can be used
for either standard or generalized eigenproblems, with real or complex
arithmetic. It can also be used for computing a partial SVD of a large,
sparse, rectangular matrix.
libslepc64-real3.19t64
Scalable Library for Eigenvalue Problem Computations (64-bit)
SLEPc is a software library for the solution of large scale sparse eigenvalue
problems on parallel computers. It is an extension of PETSc and can be used
for either standard or generalized eigenproblems, with real or complex
arithmetic. It can also be used for computing a partial SVD of a large,
sparse, rectangular matrix.