Key | Value |
---|---|
FileName | usr/share/gnuradio/examples/qt-gui/earth.jpg |
FileSize | 188693 |
MD5 | 61BDA7B2338CB06E01910535206839AF |
SHA-1 | 07192DE777DA6DE28F98ACF5974B37DEBAE5DF07 |
SHA-256 | CE6CC4B52D4613BC161F11AC15A0AFF39CB3F0A8876BC5B7F1FF298FBE1D72DD |
SSDEEP | 3072:kxAgg0q+MBG8F6PGSSRIG243z5I6atMuZTKzryS11nTIZQyJW4FiHq4g5qWd:3gg03MBGU6PpSRVB5qHZezuS11MZQyJb |
TLSH | T16E04124BBFDC5E30DFAC73F9B45FABC5FA6789126094632A500424B88594EF0EC69724 |
tar:gname | root |
tar:uname | root |
hashlookup:parent-total | 34 |
hashlookup:trust | 100 |
The searched file hash is included in 34 parent files which include package known and seen by metalookup. A sample is included below:
Key | Value |
---|---|
FileSize | 17801984 |
MD5 | 23A7A01FA5B303C751CF5310D7677693 |
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 | 3.9.4.0-1 |
SHA-1 | 0E73697A2138C05A341BE927CD394DBD639BE1A0 |
SHA-256 | 7553388DA8181CB46E9BA5DC86B1BE2AAC1F833F42B077A5FD45323694EC978B |
Key | Value |
---|---|
FileSize | 17955524 |
MD5 | DF7EBB4A996AC9F6D8F210BB46D2B949 |
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 | 3.9.2.0-2 |
SHA-1 | 170B6F90A213082DE0A7DB88C7BA5A6092B1082C |
SHA-256 | 986BF89341B41D536696FB4C2036DC820C63761F0F15F9ED0B884228366ADF27 |
Key | Value |
---|---|
FileName | http://dl-cdn.alpinelinux.org/alpine/latest-stable//community//x86_64//gnuradio-3.10.9.2-r7.apk |
MD5 | B1C9FF4E4BAE579355313B5289C87466 |
SHA-1 | 1BD88028804854003A904B9522D15199DA9423F5 |
SHA-256 | 2E55701164C0448084EC69B3315F4126B51DF72061F6DFD61D9457CAF3648532 |
SSDEEP | 196608:hsnU41tixYs77SomLepue5wUgStEuk5g7ZuFcLri+nHIhwoHlZjbkUeMg/e+tgRv:KXiCE7bzRTqKZB/6HjH7gfS |
TLSH | T139A633E77734873D20F9E4B0C4A02DF973451D4B40BE8A28608988F5BAD7369AD78D67 |
Key | Value |
---|---|
FileName | http://dl-cdn.alpinelinux.org/alpine/latest-stable//community//x86_64//gnuradio-3.10.7.0-r4.apk |
MD5 | BA6E63C5FCD6FAEC3D95E853AFAD8E6A |
SHA-1 | 1F9DC005C7984420430FFDE61F40ED1B13B05744 |
SHA-256 | 1DD59A525B6F61D1BEBB18DB3C1800706A7C783181AD3E1479AA08DE817EBD7B |
SSDEEP | 196608:lWQ97Tv53aBm013w716+Bo+0+muQLDNMTfcQTySd8w53MEmC/KF36eoKWpoJ:397TJaBH0Fuh+mlC7cQTxd8wRMLH96eV |
TLSH | T189A633D9A34FB54ED26A874620FB339DAF068C2D772F027488858733225DDE025B5E87 |
Key | Value |
---|---|
MD5 | D89D27678FC318AC57307399647C0CD1 |
PackageArch | aarch64 |
PackageDescription | GNU Radio examples |
PackageMaintainer | Fedora Project |
PackageName | gnuradio-examples |
PackageRelease | 5.fc34 |
PackageVersion | 3.9.0.0 |
SHA-1 | 263CEAFAA007F224C8F5E8245AD5C630E57E9F3D |
SHA-256 | 1C8BA490CF7C6F32E5FB4063801FF15925DB78D8638730BA7722AA6A3E367284 |
Key | Value |
---|---|
MD5 | D1FDC30A32030C8F0F475578516EC0E2 |
PackageArch | i586 |
PackageDescription | This package provides examples of GNU Radio usage using Python. |
PackageMaintainer | wally <wally> |
PackageName | gnuradio-examples |
PackageRelease | 3.mga9 |
PackageVersion | 3.10.2.0 |
SHA-1 | 29D1B5845C13CA69C778520EA604A2CD11773870 |
SHA-256 | 15912E1EF57184302008780CE67749922C4174C83B131816A7BABC8F442D6BAD |
Key | Value |
---|---|
FileSize | 17791364 |
MD5 | 6A21AEC0954CB3B88061F830FCE71C7E |
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 | 3.9.2.0-2 |
SHA-1 | 35980ED43620A84847430CF1220C598709F8DA4A |
SHA-256 | 94A3DCD29F7E8F17CD18971AFDD3BBCA4A4D0CBCE1410DEC9DD9BC7B7D3835C3 |
Key | Value |
---|---|
FileName | http://dl-cdn.alpinelinux.org/alpine/latest-stable//community//armv7//gnuradio-3.10.9.2-r7.apk |
MD5 | 3414244E6184580B7817FD7C52098BB7 |
SHA-1 | 391287752394EE10389473B123C2C040F61BD1D2 |
SHA-256 | 9B9901BA4D66D8C23EF2CD39D8A40AF42FDE4C501EA4A4C90FB2CDB80E1CD2A0 |
SSDEEP | 196608:0DTmeb2srtAUak2mRgh2YgKxcWfgll9pRemzHla1NeEN1bb1HEhXa:0DCebj6khQ2YHcWYL9pReYw1NLh1HEq |
TLSH | T1A69633E710FBBC027960DE5F095406DB69A2473D60200435AD77E6F59AEBA03B363E38 |
Key | Value |
---|---|
MD5 | 2E6C75E5F0B0181D4C19BEACD9FDC6F2 |
PackageArch | armv7hl |
PackageDescription | GNU Radio examples |
PackageMaintainer | Fedora Project |
PackageName | gnuradio-examples |
PackageRelease | 5.fc34 |
PackageVersion | 3.9.0.0 |
SHA-1 | 3A704AF08469D845482F0FE9AF263C34F9E0FAFC |
SHA-256 | 6AF30688BEF539E6E3ACD3495FE239A6B80EDDE33334B583935BF29FF7538929 |
Key | Value |
---|---|
FileSize | 18148712 |
MD5 | 930420B81C99CD51EEC37FB86518F13F |
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 | 3.9.4.0-1 |
SHA-1 | 4D331CD80E0088A8BEFBC9469AA3F51D788C8AE4 |
SHA-256 | 8BB92C2BBAE13235F1198CBD1176CC1CC0558D9D4A007DDC0FF66FE4C190E463 |