The Salamis Tablet was an early counting device (also known as a "counting board") dating from around 300 B.C. that was discovered on the island of Salamis in 1846. A precursor to the abacus, it is thought that it represents a Babylonian means of performing mathematical calculations common in the ancient world. Pebbles (calculus) were placed at various locations and could be moved as calculations were performed. The marble tablet itself has dimensions of approximately 150 × 75 × 4.5 cm.[1]
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Originally thought to be a gaming board, the slab of white marble is currently at the National Museum of Epigraphy, in Athens.
Five groups of markings appear on the tablet. The three sets of Greek symbols arranged along the left, right and bottom edges of the tablet are numbers from the acrophonic system. In the center of the tablet – a set of 5 parallel lines equally divided by a vertical line, capped with a semicircle at the intersection of the bottom-most horizontal line and the single vertical line. Below a wide horizontal crack is another group of eleven parallel lines. These are divided into two sections by a line perpendicular to them but with the semicircle at the top of the intersection; the third, sixth and ninth of these lines are marked with a cross where they intersect with the vertical line.
As with an abacus, pebbles represent small numbers (generally between zero and four) and a system of lines serves to group them by powers of ten. A pebble between the lines represents a five.
On this board, physical markers (indicators) were placed on the various rows or columns that represented different values. The indicators were not physically attached to the board.
On the tablet Greek numbers are represented. Already in the Ionian time period number systems were responsible for the written use, which became necessary because of the expanding commercial activity. Two different number systems were developed, the older Attic or Herodian number system and the younger, Milesian system, which were displaced later by the Indo–Arabic system.
The two number systems differ in their use: the Attic predominantly served the commercial life for the adjustment of funds and goods data as well as for the designation of the columns on the abacus. For written calculations the Attic numeral system was unsuitable. The Milesian number system, with which one likewise assigned letters of the alphabet numbers was for scientific mathematics better suited. For example Archimedes and Diophantos used the Milesian system.
The Greek writer Herodotus (485–425 BC) reports in his travels through Egypt that the Egyptians moved their pebbles on the boards from right to left, contrary to the Greek custom of left to right.
A powerful means of representing decimal numbers in scientific notation with powers of ten[2], the schema fostered by the Salamis Tablet might have enabled a skilled mathematician at the time, Archimedes, to work out how many grains of sand the Universe might contain.[3]
The counting table gave way to the Roman abacus for the performance of routine accounting tasks. Yet the methods of pebbles and lines were the basis of what was to become the place based Arabic numerals in later years.
The Sand-Reckoner, by Gillian Bradshaw. Forge (2000), 348pp, ISBN 0-312-87581-9.