The Atari Message Information System was one of the first BBS software packages available for the Atari 8-bit family of computers. It was known to crash pretty often and could not be left unattended for more than a few days. The autorun.sys file which contained the modem handler was at cause. Versions of the AMIS BBS were modified with the modem handler supplied with the Atari XM301 modem and was deemed much more stable. The original AMIS BBS software was written in the BASIC programming language by Tom Giese member of the MACE. The program included instructions for building a "ring detector" circuit for the board maintainer's modem to enable it to answer incoming calls - modems at the time were most often capable of making outgoing calls, but not receiving incoming ones. The one exception being the Atari XM301 modem which had a ring detector built-in. A sector editor was required for the BBS maintainer to manually allocate message space on their disk, one hexbyte at a time.
Alternate versions
The software was released into the public domain, and was heavily modified by enthusiasts and BBS maintainers. As such, several versions of AMIS exist, including:
MACE AMIS - from the Michigan Atari Computer Enthusiasts, by Larry Burdeno and Jim Steinbrecher
Fast AMIS
Carnival BBS
Comet AMIS - by Matt Pritchard & Tom Johnson of Algonac, Michigan; originally designed for the MPP modem and modified to be used with other types of standard modems. The final version featured many automated tasks, usage logs, passwords, private mail, multiple message bases and support for hard drives and MYDOS, and was on the cutting edge of AMIS/Atari 8-bit BBS technology.
TODAMIS 1.0 - for 1030/XM301 modems, written in 1986 by Trent Dudley
AMIS XM301 was a heavily modified version of AMIS written by one of the original AMIS programmers, Mike Mitchell, and newcomer Mike Olin, written in Basic XE by Optimized System Software.
Reed Audio BBS was a modified version of Carnival BBS that added multiple forum support & support for the Atari 1030 modem by way of a hardware ring detector. Created by Todd Gordanier in 1986.
