DE1938346A1 - Mask identification device - Google Patents

Description

Bipl.-Phys. Leo Thul V.
Patent attorney.
Stuttgart-Feuerbach
Short street 8 '

R.A.Pain-S.Delaigue-P.H. Cogne 5-14-7

INTERNATIONAL STANDARD ELECTRIC CORPORATION, NEW YORK

Mask identification device

The invention relates to systems that are used in digital computers determine the masks used and, in particular, a method for determining these masks by numbers, which in a given name and especially in a binary name as few digits as possible contain"

'Digital computers process words by adding a certain number of binary information elements or bits, and in particular parts of words, i.e. groups of masks in words selected bit. ■

For example, assume that a data word is a group of T6 bits numbered 0-15. Whatever part of the word it may be, in the word the group of four parts of the word carries the numbers 8, 9, 10 and 11. To select this part of the word, there will be a word of 16 bits, which creates the so-called mask, of which all bits have the value zero, except for bit 8, 9, 10 and 11, which are assigned the value 1. It is then necessary combine the data word and the mask in order to select the part of the word under consideration.

ο The choice of a word part thus itself participate in the An-O ₀ catch the appropriate mask. This requires an identification system for the masks.

- »25 Bs a part of a word can be determined by: cn

a) its length and

bj its beginning in the word.

These two displays correspond in the aforementioned case. Sdt
July 25, 1969

play once the number of bits of the word part (4) and that other times the degree of the first bit of the word part (8). They can accept all values from 0 to 15 (in decimal form) and therefore require four bits each (in binary form). the Identity of a mask would thus require eight bits.

The object of the invention is to provide devices for mask identification improve and limit the number of digits or bits in binary form to a minimum that are necessary to identify a part of a word. This 0 can be applied, which is the number of elements

of the word and the appropriate formal basis may be. P The device is particularly applicable to digital computers and enables the length of the displays to be increased which identify the masks to free up bits that are used for other functions can, or to limit the size and cost of the memory as well as the power circuits. The invention leaves this without Limit the number of possible masks.

In a mask identification system according to the invention, a mask display is provided which consists of three parts; a first part relates particularly to the display of the length of the word part, a second part is particularly used to display the beginning of the word part, a third part, W, which either complements the first part, is used to characterize the lengths of large word parts (the value that marks the beginning of the word part is necessarily small), or complements the second part, to characterize the beginning of the upper degrees (the value which characterizes the length of a word part is then necessarily small), so that most of the values which the hash display take on can, as a whole, be effectively used and that the number of digits making up this display must be kept to a minimum.

In one application of the invention that of the binary form Makes use, the above-mentioned third part is a com-

009815/1585 - 3 -

Complementary bit, which supplements either the mentioned harvest part (length of the word part) by juxtaposing on the heavyweight side or the second part (beginning of the word part) also by juxtaposing it on the heavyweight side .

In the case of the complementary bit with the value zero, the first part immediately shows the length of the word part and the second part immediately shows its beginning.

In the case of a complementary bit with the value 1, the combined values of the first two parts are checked and, if the total sum is lower than a given value , the complementary bit is carried out in such a way that it complements the first part, while if the sum is greater than this value is that the complementary bit is carried this way; that it complements the second part.

The invention is explained with the aid of the drawings. in these is:

FIG. 1 shows a data word in which a voice part is divided off;

FIG. 2 is a table showing how, according to the invention, the hashes can be identified according to the various parts of the word that can be cut out in the word of FIG

Figure 3 shows a circuit for converting the mask displays.

1 shows a data word HD with 15 bits, numbered from 0 to 14 and in which a part of word TR is delimited (hatched part), which consists of the bits of the grades 7 to 12th This word part can be identified by a display BT, which supplies the Jrad of the first bit of the word part (BT * 7) , and by a display LG, which supplies the number of bits in the word part (LS = 6). This facility identifies a part of the word. The display of the beginning BT can assume all possible values from 0 to 14 and the display of the length LG can assume all possible values from 1 to 15. Each of these displays requires in binary form

009815/1585

four bits, that's eight bits for displaying part of a word, that is also the identity of the mask that it can choose.

With the system according to the invention, the number of digits of this mask identity can be reduced. The first Word states that because a word part is always contained in the word, the degree of the last bit of the word part mostly the degree of the last bit of the word is. In the example in FIG. 1, the sum of the displays BT and LG do not exceed the value 14. This means that the number of different parts of the word is not 15 x 15, but 1 + 2 + 3 ... +15 or 120, as in Figure 2 emerges.

FIG. 2 is a table showing, on the one hand, the number of different possible word parts in the case of FIG and on the other hand shows a particular system of mask identification according to the invention. The columns of this The table corresponds to the various possible values of the start indicator BT and the rows correspond to the various possible values Length display values.

With BT = 0 (start of bit 0) the length of the word parts can assume all values from 1 to 15, while with BT = 1 LG cannot exceed 14. Without this, the word part would go beyond the word. Similarly, if BT = 2, LG cannot exceed 13, and so on until BT = 14, which gives IQ = 1. The largest number of different word parts is therefore actually equal to 120. This number is less than 2 ⁷ = 128. Consequently, each word part can be designated by a 7 instead of an 8-bit display.

In each section of the table a number is written, which consists of three digits and is printed in octal form. In practice, both digits on the right can take on all values between 0 and 7 and are represented by three bits in binary form printed out. The number on the left only takes the values 0 and 1. One bit is enough to represent this and the Numbers written in the compartments of the table representing the

0098 1 5/1 585

Ί9.38346

Identities of the different word parts and corresponding to the masks can be represented by seven bits will.

The mask display thus contains, according to the invention, a part from the middle digit, especially the Length display is assigned to another part the digit on the right that is specifically assigned to the Digit on the left.

The table of Figure 2 shows that as long as the length does not exceed 8, the middle digit is sufficient to define it. Similarly, the number is sufficient right to its definition, as long as the beginning does not exceed the value 7. Owns the complementary bit then the value 0 and does not interfere in the display.

If the length then exceeds the value 8, the complementary bit takes the value 1 and is used to complete the Length display (middle digit) used. It could be that it would come to his left side itself. This allows then the values 10 to 16 are put together in octal form which mark the lengths from 9 to 1 5.

It now remains to determine the masks whose start has a value higher than 7. The complementary bit is * there is still the value 1 and is now used to supplement the start display, which is given by the number on the right. Since it is now forcibly excluded, mask ads that have already been used To use it, the two digits on the right could be changed to 7 in their complementary value. Iri the first Row (LG = 1) the mask displays after 007 should normally 100, 101, 102 ... be. However, these displays are already used for LG- = 9. When replacing the two digits' on the right by their complementary value to 7 become 177, 176, 175 ... received. These ads are available 'because they not the combinations used for the starting values from 0 to 7 correspond.

0098 15/158 5

«■> Q mm

Thus, considering the table of combinations, which are practically used for the starting values from 0 to 7, of which the whole forms an area M, this table is incomplete. To complete it, it becomes a triangular one Area M delimited and transferred to the right side of area M by rotation and became the necessary Result in combinations.

If the complementary bit has the value 1, a combination can be in area M or in area M. (or not-to-be-used). This is easy to see by adding two digits to the right. at a sum equal to or less than 6, the combination would belong to area M and when equal to or greater than 8 to area M.

The device according to the invention can be used in particular with words of different lengths (FIG. 1). It would be necessary to make a table similar to that of Figure 2 and based on the same principles but with appropriate Set up numbers, rows and columns. It is also possible through the number of different possible word parts to limit in order to facilitate the application of the device according to the invention. For example, if the word 16 Bit, one can see the word part of only one bit in the mask identification system to process. This leads back to the case of a word of 15 bits, which is shown in the figures and 2 is shown with the only difference that the rows in the table in FIG. 2 have the value 1 instead of LG = 1 " the expression LG = 2 correspond to the value.

Figure 3 shows the circuits that convert the 7 * - Mask displays in 8-bit mask displays for controlling the mask circles of a computer.

The number to the right of the displays in Figure 2 is given by three bits A, B, C and their corresponding complementary values Σ, B and H. Similarly, the middle digit is given by the bits 0, E and F and their complements U, E and Ψ .

009815/1585 _ " _γ _

Finally, the one not shown in the figure delivers Analysis circle a signal M if a display to be transmitted belongs to area M in the table in FIG. 2, or a signal M if it belongs to area M.

The transmission of the A bit is controlled by an M. AND gate ptl conditional. An AND gate is simply indicated by a small diagonal line at the intersection of A and M shown. The outputs ptl and pt2 are through an OR circuit pt3 connected to each other (the small Triangles represent decoupling diodes) which provides a signal DPHO corresponding to either a or A ".

If M is provided, it becomes the 7-bit input combination G to A provide a 4-bit display LG which corresponds to G, F, E and D, i.e. the middle digit of Figure 2, supplemented by the complementary bit (digit on the left) and a 4-bit display BT, the three digits of which on the right correspond to the values C, B and A and the one on the left is zero (since pt4 is blocked). In contrast, for M, the display LG corresponds to the terms F, E and D (complement to 7 of the middle digit) and the display BT corresponds to G, C, Έ and A (complement to 7 of the digit on the right, enlarged by the complementary bit).

The circles serving the beginning of the signal M are not described here. In the pail of the example shown in FIG the corresponding logical function is exact;

M = G + G "If.I.D". (€ + 1 + ä). +

F.E.D. (O + B) +

P.E.D. (G + I. X) + F.E.D.C

F.E. D "(C" .B. + C.Ä) +

F.E.D.C.B +

F.E.D.Ü. "B.Ä

The logical function corresponding to H is similar. In the

0098 15/158 5 " ⁸ "

In practice, an attempt can be made to begin with M and derive M from it by inversion. The only consequence were be the unused combinations that are not billed. But this doesn't prove one obstructive disadvantage. It is also possible to take advantage of this unused combination through its classification perceive in M or M to simplify the logical puncture of M (or M).

0 0 9 8 1 5 ■ 'S 8 E

Claims (4)

Claims 1. Mask identification device that provides a mask display delivers, characterized by: a first part for indicating the length of a word part; a second part for indicating the beginning of a word part and a third part, which either complements the first part, to indicate the length of the larger part of the word, or the second part is supplemented by the beginnings of the upper level so that most of the values that the Maaken display fully absorbs are effectively used and the number of digits that make up this display is a minimum. 2. Device according to claim 1, characterized in that the third part either complements the first part to indicate the lengths of the larger parts of the word, and the value of the indicates the beginning of the word part, is necessarily small, or the second part is added to mark the beginnings of the upper grades and the value representing the length of the word part indicates is necessarily small. 3. Device according to claim 2, characterized in that if the binary form is used, the third part is a complementary one Bit is that either the first or the second part by lining up on the heavyweight side added. 4. Device according to claim 3, characterized in that in the case of a complementary bit with a value of 0, the first, th part directly the word part length and the second part immediately den Indicates the beginning of the word part.
ο O - (D 5 · device according to claim 4, characterized in that at _ »'The combined values to a complementary bit of the value 1 ^ J of the · first and. of the second part to be checked and if - * their total value is less than a given value, the com- oo complementary bit is used to complete the first part, and if their total value is greater than the given value, the complementary bit is used to complete the second part.