Parents (Total: 39)

The searched file hash is included in 39 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
MD5	9FA4D406546E68A14C92F566B0F4E1DE
PackageArch	s390x
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageMaintainer	https://bugs.opensuse.org
PackageName	uperf
PackageRelease	bp155.2.11
PackageVersion	1.0.7
SHA-1	0107E906925ACB5220FE3A39620086FECDF4B7B0
SHA-256	950EAA1D62B29FE49A4E7FE79300BD3C3B0766B8DDB2275A2DE40CAAA58CC33A

Key	Value
MD5	FFFE120194D9149E3A1C54D387F578F1
PackageArch	x86_64
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageMaintainer	https://bugs.opensuse.org
PackageName	uperf
PackageRelease	bp153.1.1
PackageVersion	1.0.7
SHA-1	061EEB4F37DA5C50C883B943A88F4AEDCC1E8C4C
SHA-256	49546C71CFFC41052D44424D36F915624CB26FD2AE3D52069BF03C4D82048367

Key	Value
MD5	7A7EA957B8E4747A127024156E1D487B
PackageArch	x86_64
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageMaintainer	https://bugs.opensuse.org
PackageName	uperf
PackageRelease	bp156.3.7
PackageVersion	1.0.7
SHA-1	07C3526931660ABDAD9DEFE4A115D814EC2CBE58
SHA-256	9C7B32EE6DF5132D0121E22BEB3D84C48FEC6C9625D311F7069AF695CCEE4FEC

Key	Value
MD5	DE71E358512B36DF2290D5544823A836
PackageArch	x86_64
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageMaintainer	https://bugs.opensuse.org
PackageName	uperf
PackageRelease	bp154.1.24
PackageVersion	1.0.7
SHA-1	0B1C6210D098DAD4C947A72A31B54804E1CC1501
SHA-256	90DE5EF0AA44F0BC281B4599AA003FA681B2AE8905CF3D96CBDBED74EE072851

Key	Value
MD5	24558CC6134D4DF2F415C69DC18637B0
PackageArch	x86_64
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageName	uperf
PackageRelease	15.4
PackageVersion	1.0.7
SHA-1	0C06A3FBF1E312F2DBFFB76847E00BA056E60B17
SHA-256	0F69BA1B65A736D1C8592FB1162EE1B386626F7A1503B6327A09A4E226CD5176

Key	Value
MD5	510C6B75DE8806D68C56FC130E60F374
PackageArch	x86_64
PackageDescription	Network performance tool that supports modelling and replay of various networking patterns.
PackageMaintainer	Fedora Project
PackageName	uperf
PackageRelease	2.fc32
PackageVersion	1.0.6
SHA-1	0EB2C6B954A35BDFEAFF887933E230773997B4F3
SHA-256	BEAD8C6523F953647481A292ABFA68B69451C18196A7BA056664579B99101BE5

Key	Value
MD5	802DE206AC976DD7CA3885C6C87FAE91
PackageArch	s390x
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageMaintainer	https://bugs.opensuse.org
PackageName	uperf
PackageRelease	bp156.3.7
PackageVersion	1.0.7
SHA-1	144AEF7EC8600BCF5CBC502D852E7C2AA3260CF4
SHA-256	D456A8E76FEFBA98D2CA59C0785FF0FA5708AF78F5E42CF98ED16A56D1F06090

Key	Value
MD5	34BCDA8BC325E48F508CAA91EA43F8C1
PackageArch	x86_64
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageMaintainer	https://bugs.opensuse.org
PackageName	uperf
PackageRelease	lp152.3.42
PackageVersion	1.0.6
SHA-1	18CF38311C2B4A9D31A9CF338D29EBCA66D5B2B2
SHA-256	1E4EFEC3FADA57138F14A72D3CA8DA6920A1FBA7E4769E6E30559FAA6BDAEA26

Key	Value
MD5	D949B8BC20FF4D7E5708931391419EC2
PackageArch	armv7hl
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageName	uperf
PackageRelease	benchmark.15.26
PackageVersion	1.0.7
SHA-1	23E054ABEAA7D5A8C02728CBA0F43AC6BB8D859F
SHA-256	6E4ED5EFC6FE7D96589162427FDCD7BB5A8874E6D575FF921EDD0E63322405E7

Key	Value
MD5	1FEB892481D2093889DEDF8B46A38275
PackageArch	x86_64
PackageDescription	uperf is a network performance tool that supports modelling and replay of various networking patterns. uperf was developed by the Performance Applications Engineering group at Sun Microsystems and is released under the GNU General Public License Version 3. uperf represents the next generation benchmarking tools (like filebench) where instead of running a fixed benchmark or workload, a description (or model) of the workload is provided and the tool generates the load according to the model. By distilling the benchmark or workload into a model, you can now do various things like change the scale of the workload, change different parameters, change protocols, etc and analyse the effect of these changes on your model. You can also study the effect of interleaving CPU activity, or think times or the use of SSL instead of TCP among many other things. Some of the questions you could answer using uperf are * Bandwidth and latency (unidirectional and bi-directional) with different protocols like TCP, UDP, SCTP, SSL * Connection setup and teardown scalability for different protocols * Effect of noise on ongoing network connections * Does it matter if I use processes instead of threads to do network communication? * What is the L2 cache miss rate for connection setup? * Understand TCP, UDP, SCTP, SSL performance under a variety of conditions and much more!
PackageMaintainer	https://bugs.opensuse.org
PackageName	uperf
PackageRelease	1.9
PackageVersion	1.0.7
SHA-1	2BACB735DB68310079915598C6395C3EBCD88E9F
SHA-256	F322A45BE0024872437542B5D7D3193E42A9BAF1ED86906BDA449337044C2E8D