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The actual algorithms used to encode and decode the television guide values from and to their time representations were published in 1992, but only for six-digit codes or less. [1] [2] Source code for seven and eight digit codes was written in C and Perl and posted anonymously in 2003. [3]
Free GPL: 1.0.2 November 10, 2005; 19 years ago () [15] High quality television application for use with video capture cards on Linux systems. tvtime processes the input from a capture card and displays it on a computer monitor or projector Video Disk Recorder: No No Yes Yes No Free GPL: 2.4.1 June 17, 2019; 5 years ago () [16]
The 9-digit codes prefixed the 8-digit codes with a numeric offset (up to 8 digit codes were accurate only to 5-minute intervals, 9-digit added on the minute offset 1-4). There were different algorithms - subtly different - for VCR Plus, ShowView and VideoPlus.
G. Galeon; Ganglia (software) GD Graphics Library; Geany; Gedit; Geeqie; Genius (mathematics software) Gentoo (file manager) Gerris (software) Gforth; GGPO; GiFT
Arm MAP, a performance profiler supporting Linux platforms.; AppDynamics, an application performance management solution [buzzword] for C/C++ applications via SDK.; AQtime Pro, a performance profiler and memory allocation debugger that can be integrated into Microsoft Visual Studio, and Embarcadero RAD Studio, or can run as a stand-alone application.
GCC—GNU Compiler Collection; GCJ—GNU Compiler for Java; GCP—Google Cloud Platform; GCR—Group Coded Recording; GDB—GNU Debugger; GDI—Graphics Device Interface; GFDL—GNU Free Documentation License; GIF—Graphics Interchange Format; GIGO—Garbage In, Garbage Out; GIMP—GNU Image Manipulation Program; GIMPS—Great Internet ...
The GNU Compiler Collection is one compiler known to perform instruction scheduling, using the -march (both instruction set and scheduling) or -mtune (only scheduling) flags. It uses descriptions of instruction latencies and what instructions can be run in parallel (or equivalently, which "port" each use) for each microarchitecture to perform ...
μC/OS-II was designed for embedded uses. If the producer has the proper toolchain (i.e., C compiler, assembler, and linker-locator [clarification needed]), μC/OS-II can be embedded as part of a product. μC/OS-II is used in many embedded systems, including: Avionics; Medical equipment and devices; Data communications equipment; White goods