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Last Updated
03/31/2019
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Detailed entries for one subject from the INDEX TO HOW TO DO IT INFORMATION. |
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MUSIC -- ELECTRONIC sa MUSICAL INSTRUMENT -- ELECTRONIC xx COMPUTER AUDIO xx MUSIC SCORTOS: Implementation of a computer language dedicated solely to the processing of musical information. A description of the basic elements in this turnkey system. A sampling of techniques for computer performance of music. Includes sample programming techniques. Programmable music tone generator gives a sound similar to a clarinet. Use with any 8080-based system. Notes on interfacing pneumatic player pianos to digital computers. Simple approaches to computer music synthesis. Includes a circuit for an Altair bus interface and frequency selection logic for tunable digital to analog conversion method for generation of pitches. Music theory for computer generated music and a musical tone generator interface. Est. cost (interface): $19. Description of a computer based music system that allows the user to work with the powerful mathematical idea of syntheses in creating musical scores that are very complex. Includes description of how a computer was interfaced to an organ in order to perform the result. The microcomputer and the pipe organ. An introduction to pipe organ technology and the concept of interfacing a computer to an organ. A music program written for the 6502 based computer which generates first order tone sequences. Audio processing with a microcomputer. Do some interesting real time audio processing tasks such as reverberation, phlanging, fuzz, echo, time delay, mono-to-stereo enhancing, and frequency multiplication. Could be useful for audio enthusiast or music group. Requires a 6502 (or equivalent) processor, 5K of memory, and A/D and D/A converters. Polyphony made easy. Circuit for a keyboard interface allows you to play more than one note simultaneously through your computer. Analyze speech and music with this fast fourier transform (FFT) subroutine written in 6800 assembly language. Sound off. Interfacing a computer to external sound generation devices, such as the Texas Instrument SN76477 or the General Instrument AY-3-8910. Creativity in computer music. A survey of some recent work in music theory, analysis, sound generation, and composition done with computers. Faster audio processing with a microprocessor. Selected hardware circuits make possible higher-fidelity processing systems. A review of the concept. Includes typical software routines for performing linear transformation, phlanging and reverberation on an 8080 system in order to illustrate the speed difficulties encountered with the software approach. Using the computer as a musicians amanuensis. Part 1. Fundamental problems in translating music to printed-score. Advanced real-time music synthesis techniques. A graphics text editor for music. Part 1. Structure of the editor. Enter musical scores into a computer using a graphics tablet. A graphics text editor for music. Part 2. Algorithms. Using the computer as a musician's amanuensis. Part 2. Going from keyboard to printed score. Computer music: A design tutorial. Build a simple, program-controlled digital tone generator. Capable of 30,000 possible pitches. Tuning up the 1802. A simple music composition trainer lets you hear the tones as they are entered on a keyboard while simultaneously displaying them on a musical staff. Eight channel MIDI (musical instrument digital interface) light controller is used to synchronize lights and music. Using the Motorola MEK6800D2 Evaluation kit to generate computer music. Includes tips on assembly and use of the computer. Simple program and interface will make your KIM-1 microcomputer into a 15-note electronic organ. Assembly language program for an Imsai 8080 accepts piano notes from a standard computer keyboard and "plays" the resulting tune over a loudspeaker attached to an output port. MUSKBD is an easily implemented super music program for the SWTP 6800 system. Uses the CT-64 keyboard as a three-octave organ keyboard. A simple interface connects the computer's parallel port to an audio amplifier. PAIA 8700 revisited (Aug 1979). Circuit for a simple computer-controlled music generator. This electronic music generator uses a Z-80 starter computer to control an eight-voice music board. Enables a music arranger to hear how harmonies for several instruments will sound. PET I/O port expander. Part 4. Add an audio module. Play music with your PET computer. Special issue on computer generated music and sound features 12 articles. Build an interface to connect a TRS-80 computer to a voltage-controlled music synthesizer. Includes a generalized music program written in BASIC. Music transcriber. Write sheet music on your TV screen as you play a tune on a piano-like keyboard. Keyboard spans three octaves. Enter up to 20 single notes on a music staff. Estimated cost: $650. Computer music the easy way. Produce three-voice music with your computer. Music generating computer board utilizes a Texas Instrument SN76489A sound chip. Part 1. The hardware involved. The General Instrument programmable sound generator. How to interface this chip to an Apple II computer in order to produce serious music. Estimated cost: $50. Simulation of musical instruments. Part 1. Computer music synthesis. Computer music the easy way. Part 2. Software listings for the 8080/Z-80 control of the SN76489A sound chip. Simulation of musical instruments. Part 2. Compiling data for waveform tables. Experimental KIM synthesis system. Interfacing a three-octave piano keyboard to your computer. Make music with the Atari. A chord organ program to demonstrate the music capability of the Atari. Written in BASIC. A comprehensive look at the Commodore-64 sound effects synthesizer. Program for the COSMAC Super Elf which will play music through a loudspeaker. Program is given in octal format. Simple tunes on your Apple IIc. How to use simple notation and programming to have your Apple IIc play simple and even some complex tunes. Computer music. Part 1. Simple 8-bit digital-to-analog converter which connects to your computer to provide an audio signal for external amplification. Programming timed loops and other routines to produce the "music". Computer music. Part 2. Techniques that have the potential for producing complex, serious musical results. Build a computer music box peripheral. Music box has a 12-note, four octave range. Use with any computer that has a parallel output port. Loony tones music synthesizer will play a 256-note passage that includes 4096 variations. The variations are controlled by setting six switches. Super simple music-synthesizing circuit is so small it can be easily incorporated into any electronics project. CrystalSynth. This standalone MIDI-controlled wavetable synthesizer allows you to create band and orchestral accompaniments that can be blended with your own voice to produce recordings that sound professional. Est. cost: $125 (kit). Musical Instrument Digital Interface (MIDI) for your PC. Build in either single-port or dual-port versions. Est. cost: $50-$65. MIDI (Musical Instrument Digital Interface) light controller. Control lighting devices using musical note information from octaves 1-8. Control whether the lights will latch, toggle, or stay off in reaction to note information. Handles eight 120-volt AC outlets fused at 5 amps. | |||||||||
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