toast
User binaries for a GSM speech compressor
Install
- All systems
-
curl cmd.cat/toast.sh
- Debian
-
apt-get install libgsm-tools
- Ubuntu
-
apt-get install libgsm-tools
- Alpine
-
apk add gsm
- Arch Linux
-
pacman -S gsm
- Kali Linux
-
apt-get install libgsm-tools
- CentOS
-
yum install gsm-tools
- Fedora
-
dnf install gsm-tools
- Windows (WSL2)
-
sudo apt-get update
sudo apt-get install libgsm-tools
- Raspbian
-
apt-get install libgsm-tools
- Dockerfile
- dockerfile.run/toast
- Docker
-
docker run cmd.cat/toast toast
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libgsm-tools
User binaries for a GSM speech compressor
This package contains user binaries for libgsm, an implementation of the European GSM 06.10 provisional standard for full-rate speech transcoding, prI-ETS 300 036, which uses RPE/LTP (residual pulse excitation/long term prediction) coding at 13 kbit/s. GSM 06.10 compresses frames of 160 13-bit samples (8 kHz sampling rate, i.e. a frame rate of 50 Hz) into 260 bits; for compatibility with typical UNIX applications, this implementation turns frames of 160 16-bit linear samples into 33-byte frames (1650 Bytes/s). The quality of the algorithm is good enough for reliable speaker recognition; even music often survives transcoding in recognizable form (given the bandwidth limitations of 8 kHz sampling rate). The interfaces offered are a front end modelled after compress(1), and a library API. Compression and decompression run faster than realtime on most SPARCstations. The implementation has been verified against the ETSI standard test patterns.
gsm-tools
GSM speech compressor tools
gsm
Contains runtime shared libraries for libgsm, an implementation of
the European GSM 06.10 provisional standard for full-rate speech transcoding, prI-ETS 300 036, which uses RPE/LTP (residual pulse excitation/long term prediction) coding at 13 kbit/s. GSM 06.10 compresses frames of 162 13-bit samples (8 kHz sampling rate, i.e. a frame rate of 50 Hz) into 260 bits; for compatibility with typical UNIX applications, our implementation turns frames of 160 16-bit linear samples into 33-byte frames (1650 Bytes/s). The quality of the algorithm is good enough for reliable speaker recognition; even music often survives transcoding in recognizable form (given the bandwidth limitations of 8 kHz sampling rate). The interfaces offered are a front end modelled after compress(1), and a library API. Compression and decompression run faster than realtime on most SPARCstations. The implementation has been verified against the ETSI standard test patterns.