Key | Value |
---|---|
FileName | ./usr/share/gnuradio/examples/digital/narrowband/benchmark_add_channel.py |
FileSize | 4344 |
MD5 | 9B47DA03F6299EC33A41038C35E769E6 |
SHA-1 | 00C1FC4A38A4B3D38B66FC949AC231CFE5605153 |
SHA-256 | 1E06E62F18A7A11C26712B5E70F536A9B77B47F3E13280CDBA53F35D65ED4AA1 |
SSDEEP | 48:YPFPyUjHmFdou5vpLeVb4CaMERjcnVaIa+Rnr9qwvxnsGxmG5VD59595eqse5wlB:YNT6RLe6CwIaInpq4maqJDg6x |
TLSH | T1909151421821962789D382FC29DA18D2273AB71F1BCAB41470DCF3D96F0C932C1E3E98 |
tar:gname | root |
tar:uname | root |
hashlookup:parent-total | 42 |
hashlookup:trust | 100 |
The searched file hash is included in 42 parent files which include package known and seen by metalookup. A sample is included below:
Key | Value |
---|---|
MD5 | 028048C580B18C2F554253CC6123B35B |
PackageArch | x86_64 |
PackageDescription | GNU Radio is a collection of software that when combined with minimal hardware, allows the construction of radios where the actual waveforms transmitted and received are defined by software. What this means is that it turns the digital modulation schemes used in today's high performance wireless devices into software problems. This package contains some examples of using GNU Radio. |
PackageMaintainer | https://bugs.opensuse.org |
PackageName | gnuradio-examples |
PackageRelease | 2.4 |
PackageVersion | 3.8.4.0 |
SHA-1 | 083D026ECCA7C662E3FC919FF8CDB7755F850C10 |
SHA-256 | A7CCF42AF0F46FA17DA06CC019BEA344F0E84CA15702ED3CB61695E5851BEDA8 |
Key | Value |
---|---|
MD5 | 92485E7DCA48E0E24504DBC17EAF21AF |
PackageArch | i586 |
PackageDescription | This package provides examples of GNU Radio usage using Python. |
PackageMaintainer | barjac <barjac> |
PackageName | gnuradio-examples |
PackageRelease | 7.mga8 |
PackageVersion | 3.8.2.0 |
SHA-1 | 1415FA2F924265EC001288EFE4C045BA42B00DA2 |
SHA-256 | 902D021F48DA36B267FB3A77ABF14CA4E2EB6F25682C4ECD8700EB0A0CD03494 |
Key | Value |
---|---|
FileSize | 7429224 |
MD5 | 6F8ADC1A80BCB7B0C0DB776E6A19C681 |
PackageDescription | GNU Radio Software Radio Toolkit GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems. . GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment. . While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware. . This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs. |
PackageMaintainer | A. Maitland Bottoms <bottoms@debian.org> |
PackageName | gnuradio |
PackageSection | comm |
PackageVersion | 3.8.2.0-15 |
SHA-1 | 16414FE757EBBDCA9BF8EF04EE7BEBFB6AD4B7AB |
SHA-256 | 2DEDF213C8713CDF99594CD7CB4BC9FD05E88CCF6F667B0A939A35992580EA1A |
Key | Value |
---|---|
FileSize | 7971700 |
MD5 | 15671A6DEF8291F41576516338B2BC79 |
PackageDescription | GNU Radio Software Radio Toolkit GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems. . GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment. . While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware. . This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs. |
PackageMaintainer | A. Maitland Bottoms <bottoms@debian.org> |
PackageName | gnuradio |
PackageSection | comm |
PackageVersion | 3.8.2.0-15 |
SHA-1 | 2057B50C4FA55FD2719D35A7DE80E5086072B4FA |
SHA-256 | E7216F799520173545E3951EB70C3C5A02E353DF4A23CE854566F7107BBA2F06 |
Key | Value |
---|---|
FileSize | 7428996 |
MD5 | 90F38614CC702D7060812D46BD9FF4FB |
PackageDescription | GNU Radio Software Radio Toolkit GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems. . GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment. . While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware. . This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs. |
PackageMaintainer | A. Maitland Bottoms <bottoms@debian.org> |
PackageName | gnuradio |
PackageSection | comm |
PackageVersion | 3.8.2.0-14 |
SHA-1 | 257449091B657E6EE21EF56626D0F203CB698B39 |
SHA-256 | CEEE919FCAEBFC7CEB5898CA336831F45BBB951FB4CFBE38A4145ABED33E2044 |
Key | Value |
---|---|
FileSize | 8188024 |
MD5 | 2484B8C76233C6F94A0DA94CB6DB3E2E |
PackageDescription | GNU Radio Software Radio Toolkit GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems. . GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment. . While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware. . This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs. |
PackageMaintainer | A. Maitland Bottoms <bottoms@debian.org> |
PackageName | gnuradio |
PackageSection | comm |
PackageVersion | 3.8.2.0-15 |
SHA-1 | 3335D19489CD0EFD92BACBA34BF5D627C3BF544B |
SHA-256 | E94D2D27AEDD8D0FF0FFD8B7981177C3D9A6521660DB1BF9A5E0DEB323DF38D7 |
Key | Value |
---|---|
FileSize | 9092452 |
MD5 | 04C9FC1AF41656FEA328DDABA37C5C5E |
PackageDescription | GNU Radio Software Radio Toolkit GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems. . GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment. . While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware. . This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs. |
PackageMaintainer | A. Maitland Bottoms <bottoms@debian.org> |
PackageName | gnuradio |
PackageSection | comm |
PackageVersion | 3.8.2.0-15 |
SHA-1 | 33D4EE781620281F022980DEBF9838BFB0C72E17 |
SHA-256 | 8E3B4DA5FF582685EAFAFF88FAAF3634B92E773C6C007DAA9D3C7E46EACE8525 |
Key | Value |
---|---|
FileSize | 7444364 |
MD5 | 1A0E905F1953EFAA407B139EB21D41D4 |
PackageDescription | GNU Radio Software Radio Toolkit GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems. . GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment. . While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware. . This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs. |
PackageMaintainer | A. Maitland Bottoms <bottoms@debian.org> |
PackageName | gnuradio |
PackageSection | comm |
PackageVersion | 3.8.2.0-14 |
SHA-1 | 41C52CF9DF5CD07032CFA9A2C99AFC833E624518 |
SHA-256 | 094B81E050C7055B24BBB3A41100438DBD26A2A0F155C6B75770FA5C886BF230 |
Key | Value |
---|---|
MD5 | 75BFABBC09D054E03DE5A92DA62F6471 |
PackageArch | x86_64 |
PackageDescription | This package provides examples of GNU Radio usage using Python. |
PackageMaintainer | barjac <barjac> |
PackageName | gnuradio-examples |
PackageRelease | 7.mga8 |
PackageVersion | 3.8.2.0 |
SHA-1 | 46A8DCFEAD93924571F11246D3AD9AD049798D9B |
SHA-256 | B33F1B6ABBC8817047CC92480723B1A0917AE1F830190B936F16A34A4D97F02C |
Key | Value |
---|---|
FileSize | 120422880 |
MD5 | 5F428302FC546851F1FE1300D417377A |
PackageDescription | GNU Radio Software Radio Toolkit GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems. . GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment. . While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware. . This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs. |
PackageMaintainer | Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com> |
PackageName | gnuradio |
PackageSection | comm |
PackageVersion | 3.8.1.0~rc1-2build2 |
SHA-1 | 4B64AFFB2DC4DF5A99450E485EBA754329850224 |
SHA-256 | 6B5B9BF672043D5708CC3FAD505A5C8C2F5CBC5EF577A0C64171086E61F5589E |