©Mark Ollig
Computer
programmer Grace Murray Hopper wrote the following in her operations logbook
Sept. 9, 1947, “Relay #70 Panel F (moth) in relay.”
She
had just finished tracing out a problem with electrical current flowing through
a circuit on an IBM Mark II electromechanical computer, owned by the US Navy.
Hopper
discovered the peculiar cause of the current-flow interruption between the
metal conducting points on one electromagnetic mechanical relay.
The
disruption was a moth, which had somehow become stuck in the relay.
She
removed the moth, taped it on a page in her logbook and wrote, “First actual
case of bug being found.”
Hopper
has since laid claim to the commonly used phrase, “a bug in the computer.”
We
celebrate the 70th anniversary of the first real bug being found in a computer
Saturday, Sept. 9.
I
still haven’t decided exactly how I will be celebrating this historical event.
For
the last 70 years, folks have been debating whether a moth should be considered
a bug or an insect.
One
encyclopedia says moths are in the butterfly family; belonging to the order of
Lepidoptera, which are nocturnal flying insects.
I
remember from 10th grade biology class; insects are in the Insecta group, and
bugs belong in the Hemiptera order.
After
70 years, we are too used to saying, “I found a bug in my computer,” rather
than, “I found an insect in my computer,” which I admit, does sound a bit odd.
Hopper’s
opened logbook page (with the moth still taped to it) is kept in the History of
American Technology Museum of the Smithsonian in Washington, DC. You can see
this page at http://s.si.edu/2gGCS7X.
A
photo of her working on the IBM Mark I computer can be seen at
http://bit.ly/2xOsnHG.
Hopper
was also involved in the development of the Universal Automatic Computer
(UNIVAC), which was the world’s first commercially-used computer.
Grace
Murray Hopper was born Dec. 9, 1906, in New York City, NY, and died Jan. 1,
1992, and is buried in Arlington National Cemetery in Virginia.
Of
course, there are very few of the old-fashioned electromechanical relays being
used these days.
However,
more than 30 years ago, this columnist worked with them on a regular basis.
From
1960 until the end of 1986, the telephone company I worked for in Winsted
provided dial telephone service using a GTE-Leich Electric TPS (terminal per
station) electromechanical relay telephone switching system.
Perhaps
you recall touring through the telephone company’s central office as part of a
class trip when you were in school.
The
telephone central switching office was filled with rows of
11-foot-high-by-4-foot-wide bay equipment frames containing hundreds of
vertical 3-foot-tall-by-4-inch-deep-by-3-inch-wide electromechanical relay
bars.
Many
of these bars were equipped with up to 20 individual electromechanical relays,
and were protected by clear, solid-plastic metal-framed covers.
Inside
the telephone central office, one could determine how busy the call processing
was by the sound of the relay’s clicking.
We
never found any moths between the relays, but over time, a carbon-like
oxidation would build up on the relay contact points; acting as an insulating
agent, and thus preventing electrical current flow.
To
remove this oxidation, we used a burnishing tool with a very fine
sandpaper-like abrasive on a thin metal strip.
While
moving the burnishing tool in a back-and-forth, filing-like motion, we would
lightly sand off the oxidation (not the metal) on the contacts of the relays
and switching components.
Dust
also caused interference with a relay’s operation.
Part
of our central office preventive maintenance included scheduled dust-removal
cleaning of individual relay bars.
Outside
(usually on the sidewalk in front of the telephone office), we’d blow the dust
off the relays using high-pressured air from a spray hose connected to a
portable air-generator.
Here’s
hoping you’ll find no bugs in your computer, mechanical relays, and especially
in your bed.
Follow
me on Twitter at @bitsandbytes.
Photo of what Grace Murray Hopper wrote
in her operations logbook Sept. 9, 1947,
“Relay #70 Panel F (moth) in relay.”
(The actual moth is taped to the page)
in her operations logbook Sept. 9, 1947,
“Relay #70 Panel F (moth) in relay.”
(The actual moth is taped to the page)
