Package: libfec-dev Source: libfec Version: 1.0+20161003-4 Architecture: amd64 Maintainer: Debian Hamradio Maintainers Installed-Size: 119 Depends: libfec0 (= 1.0+20161003-4) Filename: ./amd64/libfec-dev_1.0+20161003-4_amd64.deb Size: 30768 MD5sum: 31fc006a309ffec5d154c11d33974a77 SHA1: 56f3a831569c064c002c1bb59161e35805c9baea SHA256: 10e5305735cdc4c981a2e0ab6c680119b329ca0fd62d290f992d608bcc28df4b Section: libdevel Priority: optional Multi-Arch: same Homepage: https://github.com/quiet/libfec Description: forward error correction (FEC) algorithms - header files This package provides a set of functions that implement several popular forward error correction (FEC) algorithms and several low-level routines useful in modems implemented with digital signal processing (DSP). . The following routines are provided: 1. Viterbi decoders for the following convolutional codes: r=1/2 k=7 ("Voyager" code, now a widely used industry standard) r=1/2 k=9 (Used on the IS-95 CDMA forward link) r=1/6 k=15 ("Cassini" code, used by several NASA/JPL deep space missions) 2. Reed-Solomon encoders and decoders for any user-specified code. 3. Optimized encoder and decoder for the CCSDS-standard (255,223) Reed-Solomon code, with and without the CCSDS-standard "dual basis" symbol representation. 4. Compute dot product between a 16-bit buffer and a set of 16-bit coefficients. This is the basic DSP primitive for digital filtering and correlation. 4. Compute sum of squares of a buffer of 16-bit signed integers. This is useful in DSP for finding the total energy in a signal. 5. Find peak value in a buffer of 16-bit signed integers, useful for scaling a signal to prevent overflow. . This package automatically makes use of various SIMD (Single Instruction stream, Multiple Data stream) instruction sets, when available: MMX, SSE and SSE2 on the IA-32 (Intel) architecture, and Altivec on the PowerPC G4 and G5 used by Power Macintoshes. Package: libfec0 Source: libfec Version: 1.0+20161003-4 Architecture: amd64 Maintainer: Debian Hamradio Maintainers Installed-Size: 64 Depends: libc6 (>= 2.29) Filename: ./amd64/libfec0_1.0+20161003-4_amd64.deb Size: 20308 MD5sum: 5e5f904af00c244e8bb91afe13237778 SHA1: 5613f83121eafcfdc4d162160b10c19430618b70 SHA256: 228360b83c4c2ae44014b9886c1950d2e55870f1816801d4a9ec0328f04183dd Section: libs Priority: optional Multi-Arch: same Homepage: https://github.com/quiet/libfec Description: forward error correction (FEC) algorithms This package provides a set of functions that implement several popular forward error correction (FEC) algorithms and several low-level routines useful in modems implemented with digital signal processing (DSP). . The following routines are provided: 1. Viterbi decoders for the following convolutional codes: r=1/2 k=7 ("Voyager" code, now a widely used industry standard) r=1/2 k=9 (Used on the IS-95 CDMA forward link) r=1/6 k=15 ("Cassini" code, used by several NASA/JPL deep space missions) 2. Reed-Solomon encoders and decoders for any user-specified code. 3. Optimized encoder and decoder for the CCSDS-standard (255,223) Reed-Solomon code, with and without the CCSDS-standard "dual basis" symbol representation. 4. Compute dot product between a 16-bit buffer and a set of 16-bit coefficients. This is the basic DSP primitive for digital filtering and correlation. 4. Compute sum of squares of a buffer of 16-bit signed integers. This is useful in DSP for finding the total energy in a signal. 5. Find peak value in a buffer of 16-bit signed integers, useful for scaling a signal to prevent overflow. . This package automatically makes use of various SIMD (Single Instruction stream, Multiple Data stream) instruction sets, when available: MMX, SSE and SSE2 on the IA-32 (Intel) architecture, and Altivec on the PowerPC G4 and G5 used by Power Macintoshes. Package: libliquid-dev Source: liquid-dsp Version: 1.3.2-2 Architecture: amd64 Maintainer: Debian Hamradio Maintainers Installed-Size: 3033 Depends: libliquid2d (= 1.3.2-2) Filename: ./amd64/libliquid-dev_1.3.2-2_amd64.deb Size: 462376 MD5sum: aa1dd9fe1e87c97e9114f0903a95b3d8 SHA1: 81d2a6db50f66088ae1aacb7bd54929c980c6f24 SHA256: 4594c1219417776ef2bb9569741fb4c7c9fce96297b9d80f5454a54c97754b60 Section: libdevel Priority: optional Multi-Arch: same Homepage: http://liquidsdr.org/ Description: signal processing library for software defined radio (development files) liquid-dsp is a free and open-source digital signal processing (DSP) library designed specifically for software defined radios on embedded platforms. The aim is to provide a lightweight DSP library that does not rely on a myriad of external dependencies or proprietary and otherwise cumbersome frameworks. All signal processing elements are designed to be flexible, scalable, and dynamic, including filters, filter design, oscillators, modems, synchronizers, and complex mathematical operations. . This package contains the files required to compile programs using liquid-dsp. Package: libliquid2d Source: liquid-dsp Version: 1.3.2-2 Architecture: amd64 Maintainer: Debian Hamradio Maintainers Installed-Size: 1007 Depends: libc6 (>= 2.29), libfftw3-single3 (>= 3.3.5) Filename: ./amd64/libliquid2d_1.3.2-2_amd64.deb Size: 313700 MD5sum: 240060debf35aea22dfeb53ff6e3e7c1 SHA1: cdaac0893827fd85143532d33523dea730211cc2 SHA256: 421242bd8d99679699348357f8f916d917b355f9c12e15ef5f51db83e2a3de2d Section: libs Priority: optional Multi-Arch: same Homepage: http://liquidsdr.org/ Description: signal processing library for software defined radio liquid-dsp is a free and open-source digital signal processing (DSP) library designed specifically for software defined radios on embedded platforms. The aim is to provide a lightweight DSP library that does not rely on a myriad of external dependencies or proprietary and otherwise cumbersome frameworks. All signal processing elements are designed to be flexible, scalable, and dynamic, including filters, filter design, oscillators, modems, synchronizers, and complex mathematical operations. . This package contains the shared library.