the given numbers, intermediate numbers, and resulting number. The mill was to consist of mechanism which would add two numbers, subtract a less number from a greater, multiply two numbers, or divide one number by another, according to the kind of gearing brought into operation. The cards were of three kinds; Number cards to communicate given numbers to the store; Directive cards to transfer numbers from the store to the mill and from the mill to the store; Operation cards to call for addition, subtraction, multiplication, division. For example, to compute numerical values of , seventeen cards in all were required, as follows:
| Number Card |
Directive Card |
Operation Card |
|
| 1 | Places a on column 1 of store. | ||
| 2 | Places b on, column 2 of store. | ||
| 3 | Places c on column 3 of store. | ||
| 4 | Places d on column 4 of store. | ||
| 1 | Brings a from store to mill. | ||
| 2 | Brings b from store to mill. | ||
| 1 | Multiplies a and b=p. | ||
| 3 | Takes p to column 5 of store. | ||
| 4 | Brings p into mill. | ||
| 5 | Brings c into mill. | ||
| 2 | Adds p and c=q. | ||
| 6 | Takes g to column 6 of store. | ||
| 7 | Brings d into mill. | ||
| 8 | Brings g into mill. | ||
| 3 | Multiplies d and q=r. | ||
| 9 | Takes r to column 7 of store. | ||
| 10 | Takes r to printing apparatus. |
Each form of calculation would require a special set of cards strung together in proper order; just as the particular pattern for a woven fabric requires its own set of Jacquard cards, and they would be applied to the calculating machine in the same manner. The great improvement in the construction of the engine proper was the invention of the principle of the Chain, by which the carriage of the tens is anticipated. This part of the design was actually constructed. For subtraction the adding rotations were reversed; multiplication was to be effected by successive additions, and division by successive subtractions. It is obvious that the machine could treat of
