COMPUTER LANGUAGE
sa ADA COMPUTER LANGUAGE
sa ALGOL COMPUTER LANGUAGE
sa APL COMPUTER LANGUAGE
sa ASSEMBLY LANGUAGE (COMPUTER)
sa BASIC COMPUTER LANGUAGE
sa C COMPUTER LANGUAGE
sa COBOL COMPUTER LANGUAGE
sa FORTH COMPUTER LANGUAGE
sa FORTRAN COMPUTER LANGUAGE
sa IPS COMPUTER LANGUAGE
sa LISP COMPUTER LANGUAGE
sa LOGO COMPUTER LANGUAGE
sa MACHINE LANGUAGE (COMPUTER)
sa MODULA-2 COMPUTER LANGUAGE
sa MOUSE COMPUTER LANGUAGE
sa MUMPS COMPUTER LANGUAGE
sa PASCAL COMPUTER LANGUAGE
sa PILOT COMPUTER LANGUAGE
sa XPLO COMPUTER LANGUAGE
xx COMPUTER
A high level language for 8 bit machines. Introduction to concept interpreters for a high level language. BYTE Jul 1978 (v.3#7) pg. 152
An easy programming system. Introduction to hexadecimal interpretive programming, an alternative to high level languages and assemblers. Called CHIP-8, it is designed for use with a COSMAC VIP system. BYTE Dec 1978 (v.3#12) pg. 108
An introduction to BNF (Backus Normal Form), a standardized method of abbreviating certain statements which are being made about a programming language when it is being strictly defined, as in a programming manual. BYTE Jan 1979 (v.4#1) pg. 116
Designing a command language. An introduction to finite state machines and input command language. BYTE Jun 1979 (v.4#6) pg. 176
The Smalltalk-80 language and programming system. A special issue featuring this object-oriented language (as opposed to procedure-oriented languages such as BASIC, Pascal and FORTRAN). BYTE Aug 1981 (v.6#8) pg. 6
Natural-language processing. The field in perspective. BYTE Sep 1981 (v.6#9) pg. 304
PROLOG. A step toward the ultimate computer language. PROLOG is ideally suited to the manipulation of knowledge. BYTE Nov 1981 (v.6#11) pg. 384
Problem oriented language. Part 1. A new method of input. Data entry can be shortened and simplified by using the POL system. BYTE Dec 1982 (v.7#12) pg. 314
Problem oriented language. Part 2. Writing a module. BYTE Jan 1983 (v.8#1) pg. 254
Problem oriented language. Part 3. assembling the modules into a complete programming system. BYTE Feb 1983 (v.8#2) pg. 314
ROTERP: an interpretive language for robot control. High-level languages help bridge the gap between artificial intelligence and the home experimenter's robot. BYTE Mar 1983 (v.8#3) pg. 418
Echonet. Part 1. A flexible programming system. This interactive system combines natural languages and machine-native code to revolutionize the way we solve problems with computers. BYTE Sep 1983 (v.8#9) pg. 356
Echonet. Part 2. The compiler. How Echonet produces relocatable code from English-like programs. BYTE Oct 1983 (v.8#10) pg. 384
Questions and answers for beginners. Part 1. Programming languages. KILOBAUD MICROCOMPUTING #42 Jun 1980 pg. 82
Design of a software compiler that accepts normal English commands and turns them into ASCII sequences. MICROCOMPUTING Aug 1984 (v.8#8) pg. 42
Computer languages. Sorting out the confusion. A discussion of computer languages as thoroughly as possible to enable the computer user to choose those most appropriate for his needs. POPULAR ELECTRONICS [1] Dec 1981 (v.19#12) pg. 39
Using the Perl computer language (Practical Extraction and Report Language) to implement a home automation program. POPULAR HOME AUTOMATION Mar 1999 (v.4#1) pg. 53
Computer languages for the amateur scientist. A overview of the most important languages and examples of representative programs. SCIENCE PROBE! Oct 1991 (v.1#4) pg. 31
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