Detailed entries for one subject from the INDEX TO HOW TO DO IT INFORMATION.
Click on a see also (sa) or tracing (xx) to view detailed entries about a related subject.
The entries are in alphabetical order by magazine name and then in chronological sequence.
To obtain a copy of any magazine article contact your local public library or the publisher.

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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