netpipe 3.7.2-7.4 source package in Ubuntu
Changelog
netpipe (3.7.2-7.4) unstable; urgency=medium * Non-maintainer upload. * Build-depend on libmpich-dev instead of libmpich2-dev. * Build the netpipe-openmpi package on arm64 and ppc64el. Closes: #746692. * Build using dpkg-buildflags. * Bump the standards version. -- Matthias Klose <email address hidden> Sat, 16 Jan 2016 14:58:54 +0100
Upload details
- Uploaded by:
- Matthias Klose
- Uploaded to:
- Xenial
- Original maintainer:
- Camm Maguire
- Architectures:
- any
- Section:
- net
- Urgency:
- Medium Urgency
See full publishing history Publishing
| Series | Published | Component | Section |
|---|
Downloads
| File | Size | SHA-256 Checksum |
|---|---|---|
| netpipe_3.7.2.orig.tar.gz | 390.9 KiB | 13dac884ff52951636f651c421f5ff4a853218a95aa28a4a852402ee385a2ab8 |
| netpipe_3.7.2-7.4.debian.tar.xz | 11.4 KiB | 34f8eb82d2523ce4234553b8684a982220146be88f9201c6568fe01a253796cf |
| netpipe_3.7.2-7.4.dsc | 2.1 KiB | ec64d99893bdc1c6b757106db70797eea03aa1e35371606a1cc0ed41cde47d5c |
Available diffs
- diff from 3.7.2-7ubuntu2 to 3.7.2-7.4 (1.8 KiB)
Binary packages built by this source
- netpipe-lam: Network performance tool using LAM MPI
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the MPI protocol, a
Message Passing Interface frequently used in parallel processing, and
which uses in turn TCP as its underlying transport. The implementation
of the MPI standard used by this package is that provided by the lam set
of packages.
- netpipe-lam-dbgsym: debug symbols for package netpipe-lam
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the MPI protocol, a
Message Passing Interface frequently used in parallel processing, and
which uses in turn TCP as its underlying transport. The implementation
of the MPI standard used by this package is that provided by the lam set
of packages.
- netpipe-mpich2: Network performance tool using MPICH2 MPI
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the MPI protocol, a
Message Passing Interface frequently used in parallel processing, and
which uses in turn TCP as its underlying transport. The implementation
of the MPI standard used by this package is that provided by the mpich
package.
- netpipe-mpich2-dbgsym: debug symbols for package netpipe-mpich2
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the MPI protocol, a
Message Passing Interface frequently used in parallel processing, and
which uses in turn TCP as its underlying transport. The implementation
of the MPI standard used by this package is that provided by the mpich
package.
- netpipe-openmpi: Network performance tool using OpenMPI
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the MPI protocol, a
Message Passing Interface frequently used in parallel processing, and
which uses in turn TCP as its underlying transport. The implementation
of the MPI standard used by this package is that provided by the openmpi
set of packages.
- netpipe-openmpi-dbgsym: debug symbols for package netpipe-openmpi
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the MPI protocol, a
Message Passing Interface frequently used in parallel processing, and
which uses in turn TCP as its underlying transport. The implementation
of the MPI standard used by this package is that provided by the openmpi
set of packages.
- netpipe-pvm: Network performance tool using PVM
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the PVM protocol, a
Parallel Virtual Machine interface frequently used in parallel processing,
and which uses in turn TCP as its underlying transport. PVM support
is provided in its own separate pvm package on Debian systems.
- netpipe-pvm-dbgsym: debug symbols for package netpipe-pvm
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package measures network performance using the PVM protocol, a
Parallel Virtual Machine interface frequently used in parallel processing,
and which uses in turn TCP as its underlying transport. PVM support
is provided in its own separate pvm package on Debian systems.
- netpipe-tcp: Network performance tool using the TCP protocol
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package uses a raw TCP protocol to measure network performance.
- netpipe-tcp-dbgsym: debug symbols for package netpipe-tcp
NetPIPE is a protocol independent performance tool that encapsulates
the best of ttcp and netperf and visually represents the network
performance under a variety of conditions. By taking the end-to-end
application view of a network, NetPIPE clearly shows the overhead
associated with different protocol layers. NetPIPE answers such
questions as: how soon will a given data block of size k arrive at its
destination? Which network and protocol will transmit size k blocks
the fastest? What is a given network's effective maximum throughput
and saturation level? Does there exist a block size k for which the
throughput is maximized? How much communication overhead is due to the
network communication protocol layer(s)? How quickly will a small (< 1
kbyte) control message arrive, and which network and protocol are best
for this purpose?
.
This package uses a raw TCP protocol to measure network performance.
