DE1524949A1 - Device for inputting digital information into a memory - Google Patents

Description

"Device for entering dii; it,) ler information into a memory. @@ . The invention relates to a device for entering diLiteler information into a memory which has a keyboard for selecting a digit to be entered and outputs where the digit appears in digital form.

The invention finds particular application in calculating machines, but is not. limited to this type of machine and is in a further embodiment in each machine. or apparatus employing encoded digital input information. It is believed that the information will always cry in a digital form, although as possible. is ,, that a decoding or an encoding must take place first. A special example of the readiness of the irforination is via a firmly fixed decimal symbol key, which each give a characteristic signal when the key of the device is actuated. It is assumed that asse the; pf. The direction has a capacity which is opposite to the number her zuieaterdor digits is p, ross, and d; itjs. the 'iffern i.ieisteris not y =,; # -; # e1n: pruchen die ü anr e t # rf.coa; si tai.t dc3r become es: il:; o 2aeülerzifißrstellen 4 # ibt> ur: d die u .: cder.wc; c-ceri is used, Ec _ .. nn it may be necessary to eire L-rosü, e; '- nasahl of three or four digits, # n "; ih1Qn: au add, w ^ bai die . '. uca _ :. e alle zuhr `: f'iertollor. be @, r :: - @ pructc @ n can. '° .ur recti.en; r> E, @>. Be lur rnformatioxi, in the. Spoi, # it's here rotwer., IiE, I: for ;; u söriren, daso, wnnn not ^ 1.1p: ".ü ': @ first claimed warn, dis lnr'orc: ii tion en the right one.: ift'orr tellßn @@ teht. .lsog if in the. @; pE3icher mit zcehr:;: iffersteller: the three: digits z, and the number $ 36 inscribed. be riü: asen, must- this in RichtiLer '»quietly in the. Storage, when loosing from left to right so @ JOJJJo36, to be lived in. It is k1pr, which b-e2difficulty always to ask the 33edierunCaman who lullen and therefore must, unless the number is a ten-digit counting is: the spelling from left to right is avoided, will: This leads to the Aiterriative; that the, number must be inscribed from right to left; Since this is fundamentally interesting, it requires unnatural behavior on the part of the operator of the machine, since it is a natural reaction to write the numbers in the order 8'-3, 6 and if these are written in the form from right to left, the reverse is done Sequence occur and the memory contain the '7ahl 000000063e. To overcome this difficulty one has to have the. number written in one place on the right when writing each subsequent digit can shift one place to the left and the aim of the invention is to create a method and a device in which, respectively. that this is possible. The invention; be; wecKt further, the possibility of using such a storage device, which works according to the process according to the invention, for the group-wise division of the digits, whereby the. Information can be written into the correct group without affecting the information in the other groups. We should understand that this is particularly important when calculating machines are used to work with erTlischen pounds, shillings and pence, since: The machine is required to enter in its memory that a pound is written while no information in . the 'Schilling and Ponce positions are inscribed in de.rf. . After the # 'furde inscribed sfidmüsn dis machine distinguish; that a schilling function has to be registered and it has to distinguish; e.g. ffer only one material digit or two such - whether the chilling contains digits. The same consideration applies to the registered mail of Pe, nce. The same (irupp.e can be: for decimal forms of the idiinzsystems.notwer: dig, in which the digits are supplied in `two groups, each on one side of the decimal symbol - Groups, the two forms of the system must be easily interchangeable.

In the above there was talk of calculating machines, but you don't know Also imagine applications for devices in which serial numbers ir. groups must be classified., for example, for applications in hagern, in which the i @ Zaeohire is used for inventory control and order purposes.

?: Oh, because the first aspect of the invention consists of a device for inputting ditrital information into a memory, which contains a tautature for dialing a number and digits to which the number appears in dil ° ital form, which means that the c "memory consists of a main and an auxiliary memory (I and: A ) , each provided with n digits, with a control device (CD) controlled means (AU) for entering the most important digit of the information to be entered in. the least important digit of the auxiliary memory and. where-, means (AU) controlled by a control device (CD) for successive routing of all in the main memory hex Information to the auxiliary memory is available where: the number is requested in the most unimportant position in the main memory, - in such a way that the numbers of the main memory '' according to their position in the main memory '' on the next in order most important point of the auxiliary memory are transferred, further from the Steuervorrichtuik; (CD) controlled means (AU) are available which transfer all digital information in the auxiliary memory to the corresponding digit positions of the main memory, this and that de.rart that the means (AU) dü @ iaoh the next less important digit ,, -the. the most important digit -the information to be entered follows :, in the most incorrect digit, enter the auxiliary memory and that, the middle (.AU) controlled by the control device (CD) afterwards. die? diederjzol u, i; -the above mentioned eatcl e @ .tualler #i m HaU, ptspeieher existing information to the. Hilfspeiches una die li @ edlerholtlysp, the -. T, 1 forwarding digits in the express memory, to corresponding digit digits, -_., len of the main memory and e c-tviter ffr -all di i.:tal information in .einer decreasing. Sequence through to the, .sl-; '' p, rw ^ t: digit dr Ior- mation-: in dar ia_nti.chtgs`Gsn.Ziferstelly @. @ N # "utspcerte? @t: m , PS calculates in such a way o @ r @, er, ohtt @ rM @., The certain number represent sparse by the Ivgarg law and these digits, ^ llex can pnnen, - another group -'or.- ader3 Gru-p et% bild-wal'4 "., 1.2, &; ä @ .. die ,. Information received. If the .pw``. dc-spciohex @ s too much irfobma, in ebbten willq this derakt -evverch% -t el3gss robp # ld ein Excessive Y1. Information erzheint, 'your -w "1-, d :: @ Ydä.Y':% 3Ir '$'ö'i n '' @ ''Lä'r'hI: geeßY $ so that he can make the necessary corrections.

-A -Example of the Vorrichtutk !; and an example of theirs In effect, the drawings are shown in Figures 1 to 4 below explained in more detail. These figures represent s, imboliseh the -teen digits - more Figure 5 shows an example a complete device according to the invention.

It should be obvious that the storage device is in a calculating machine must be used, the information from a keyboard. in j'`orm of English Pfui.aen9 Schillingen and nence is offered. The storage device includes a main memory I and an auxiliary memory A, both with ten? ifferwahistollen are provided and are sequentially from 1 to 10 from right to left, are cleared as shown in FIG. The digits: 1 and Z are for the pence information, the digits 3 and ¢ fair die Schillir> g- and the remaining digits 5 to 10 for the Pound information determined. Both the main memory and the auxiliary memory are with eil: he arithmetic unit AU is connected, which is effective as a pre-storage and before. (not shown :) further means for performing a step-by-step predetermined program is controlled, as will be explained in more detail below., Whenever information is read from a memory location, this location is reset to 2.u11.

It is assumed that the keypad of the Reohenmaschine contains ten 'iffer keys for the digits 0 to 9 and further separate keys to indicate whether pounds, shillings or fence * are processed. A practical modified embodiment can have keys for the numbers 10 and 11, this as an aid to writing in pence in just one process: The mode of operation will be most understandable with the help of an example and it is assumed that the amount .C 275.15.6 d , into the adding machine. must be written on. This is achieved by a number of steps, starting with the characteristic sign of the amount to be processed. The steps below represent the successive stages of the operations that take place in the Ur device: 1.: The pound key be t '.' run.

This blocks all logical digits 1 e 29 J and 4 and ensures that only the pound digits are expensive. 5 up to and including 10 pieces of information can be entered and operations, never the 3et '! Drive the syllable .g- or''erict: -Tacte, unlock the locking of the pound-'Pa: i te.

2, The first? Ifier, which is the most important, 1.i. the 2 of information, is routed to the processing unit via line 20 and is sometimes used in it store t.

3, Lie alecheinheit @ leads this information to the least important 'ifferetelle des @ ülfsspeichers A ,, d.i. the number metals 5, -and. as shown in Fig. 1 "eb part t, the 2 appears at this Stƒ11ƒ.- '@ "over the line 21 the arithmetic unit AU receives an impulse - aua for the '.Program' of the 'arithmetic unit- zUrticketellt.

The Rouhenerheit reads nu-n: the information, which is still 0 - and is at the digit j of the main memory 'and sends this to the arithmetic unit. 6. The: arithmetic unit AU receives an oil coil via the Leturg 22, nm to move the digit selector from position 5 to position 6: 7; The arithmetic unit writes: now in the second least important place of the help store 'that is, the digit parts 6 of the memory A, the information previously read from the least important place, that is, the' information that is on the digit number 5. Since this ir4orination was zero because there was no information _ mztian in main memory grab,, will be at the trembling point 6 one _ - full- appear .., _, - ... To display the computing unit AU -wird.via the Leitur; 21 a further impulse was added. , ' 94 The second least important digit f of the main memory I. is now ready for the .computing unit and is temporarily in it apecherted. . . 10ä The computing unit receives another signal via line 22, to cut back one position of the iffer voter. 11. - The information in the processing unit AU, which is still? Lull. is, now becomes the third least important: ': great des Hilfas ,, - ichors gsfilhr t. . =. . The transmission of information. from the main! # memory to the auxiliary s- speakers. @ wird-in-ein.nfacher.-sise.sclr nge_, for_tgestz-ts to all. Dial leni: a. :: 1I: iuptapeicher I are abLefxagt and the information contained therein is transferred to the auxiliary memory. Since there is no standard format in main memory ti.or_-gab is the ga.nze-hetr@iene digital information in the form of zero her .. be. On the thread of this pre-cooked a reverse operation takes care of the Transmission of the information '., Yom-auxiliaries on the. Main memory I, as d: e @.:. dr Fg.- is represented, and to which it is pointed out; Ve, steps of this transfer are the following: (a @: The information on, the least important digit of the itilfsspei- £ hers. cri.i.ffe.reteile 5t, will. read and on the arithmetic ß @ .i'hfltU Transferg y in which, this zei, -tw ° .li @ - r-epelchert eird. This is number 2e (L The vague: information stored in AU viril only <irr the- -_ - unwchtitate digits inscribed. 1 di the digits ".. j- des llaupte, peicherg Z. The 7jiffer 2 is now in the main- memory-I inscribed'- as shown in Fig. 6. 2 shown $ tellt'isto (c) The arithmetic unit is triggered by a pulse on line 21 back part t .. (d) The "digit dialer is from the pulse fiber the line 22 by one Position moved. (e). The second least important digit of the help memory register di the digit 6, which is still zero, is now used by the Computing unit AU read and temporarily stored therein. . (f) The information is transferred from the processing unit to the second un- most important digit of the i1, main memory I. There in ° in this case the information in the 'importance increases Digit is zero, only zeros are transmitted. 'The arithmetic ability withd backed up. The transfer of information from the other digits 7 up to 10 of the kiilfspeicherw euf the corresponding: digits of the main, uptspei- chers is taxed by a similar legirache @ n, transfer and azaa end of this Vorgar £ -s is the location of the memory as shown in Fig. 2 in which all counters put the information like this - in it - written `is' contained the: -.except the? iffere great, of the HauptBp®iohereg which contains the number 2. ? Ever is now necessary, the next most important. Digit, di: the Digit 7! ' To transfer to the device' and this is indicated in the following Wise aligned. - r (I) The Täute 7 is offered thereby. the information was given that a 7 over the line 23 into the arithmetic unit AU eiesohrieben variety - -Dimensions, (, 1I) The .l, nforuötien temporarily stored in AU is transferred to the un- Wichta.-ate Zifterstei10 Clou -Hilf fsspeichsrs A. Ubertragwng di r is the digit place, and, ala an 'i in it. eeeohr'bn. (TII The lilfespe4ohrr AU is returned. TV) The information at the least important part of the main food , chers #I d.ia the "Ziiferetell # g is gelteen Lind who - intends- .- - Dene 2 is transferred to the temporary memory AU. (V) The digit selector is pushed up one place.

VI). The 2 ita 'temporary -save-: r is now applied to the' next unwiched- ' tiUste wifferatelle of the temporary memory transferred, i.e. the digits # 6, and inscribed in it. This will make the situation as shown in Fie. 3 shown is reached. _ (VII) = The arithmetic unit is reset.

(VIII) The second important digit of the main memory is read and the information that- a 0 i ts is stored on the temporary memory AU transferred.

(IX) The digit dialing is postponed by one place: (x) The information is written into the third least important digit in the temporary memory, d. i. digit 7. These operations are repeated until all Numbers from the main memory are queried and the information from the main memory transferred to the help memory. The situation is then as it was in Pig. 3 starred in which the digits 2- and 'j are attached to the digits, llen 6 and 5, respectively. The information Is then transferred to the main memory, so that: the memory -in a : Situation as in fig. 4 is for down-fetching operations (a) to (9.), such as is described above with reference to FIG. -. . There is the same logical one Process for writing in the last pound value j and ap The end of this process is complete the whole amount of pounds, namely 275, at; the digits -7, - #> or .. 5 of the memory .` .

To transfer the schillings to the memory, the schilling key on the keyboard must be pressed; this: unlocks the locking of digit dialing digits 3 and 4 but locks pence digits 1 and 2 and pound digits 5 .bis. including 10, the 1 of the 15 sign value is first entered using the keyboard in the same way as the 2 of the ffund amount, so that this occupies the number 3. If this information is in main memory. the second shilling value 5 is written in the same way as is shown in relation to the pound information, and the 1 of the shillings is entered on the digit. 4 parts are transferred and the 5 now claims number 3.

In the same way, after the @ Schillire operation has expired, the ence is entered by first pressing the pence key on the keyboard so that the schilling and pound digits j up to and including 13 are blocked and only in The digits 1 and 2 information can be written in. The key 6 is now pressed and the Inior @ a @@ tion is written into the: if f ers part 1 of the. Pence and transferred to the main memory. There only a single digit Pence-Nenge needs to be written, the 6 is not transferred to the second digit in the next operation but is shown in the memory as the value 06, Bo all the information .st is now written into the calculating machine and all processes such as addition and subtraction can take place, which is not important for the invention. It should be evident that if the information is written in this wine n did not need to write a single zero and wrote the information in natural Heise, namely from left to right, while: the machine wrote this information in the opposite direction from right to left, but at the same time a cracked Has maintained the order. F sharp should be obvious that a conversion to the decimal system can only be easily achieved by relocating the interlocks, since only two groups are required ..

In order to avoid that too much information is entered which exceeds the capacity of the machine, the most important points in each group can be set up to activate display means when this reader information appears. (See the elements 0 1, 02 and 03 in Fig. 1), a suitable type and "else for realization of the memories A and I is that use of Magrotkernen and-closures may be applied in a suitable manner by the use of bistable circuit elements will. The ttecheneinheit ALT can be: in For: n bistable circles that. are able to solve arithmetic problems. .

In Fig. 5 is an example of a complete device according to FIG Invention shown.

In Fis. 5 is the block CD the. Tax device; f the with according to a certain program on the different exits of the device CD appearing impulses with the block, AII (except the; Memory I Land A) designated means #controls this and that in such a way that the information to be entered echliemlch 'is arranged in the main store I.än correct wines: -.

- The Steuervorriehtew Cl? consists of an input e from the keyboard (not shown) which is connected to a flip-flop FF ',. -and a nera -Entrance and "e tu", the Von der Tag tatur 'herrtihretxt on the in this example a choice tmischen units of. Dollars and cents (o ts) can be kept, there is also an impulse, generator t3, a counter T and T9 a lip-flop FFA un (3 tecß, @ t üi1,02i 'L t2, G3, GT3, 0 4th, 0 '; ¢) H1.1 11 2, h, Td1, X' 1, and N'2. The gowns AU consist primarily of the inputs a., Bi c, d (line group 20) coming from the keyboard. A digit to be entered is characterized by binary bits. When bot executing a certain list of the keyboard. (for example a number 2) a code intended for this number appears on these four. Entrances. a, b, c, td (for example 0011). The LirZangen ä, b, o9 ..d are via gate P1,. P2 'P3, -P4 connected to memory elements, for example flip-flops (PF ,,, PF blFFe9 Ffd). For each means AU there are also a number of Utad-Qm "tter, which: are connected to the memories I and A. ....: R3a, 83b-9 Rjo, Rjd; R 4a, li4b, R40, R 4d .. .... are write-and-gates fair the consecutive auxiliary memory digit numbers ...: ... 3,4 .. @ ... and-indeed-four per digit position in relation to the binary '4 .Bit- Code; b also are ...... S yes, 33b, S3c ".- S3d .. =." ..:. Die ';"write-and-qatter .for the main memory -I. 'The ....... Y 3a, Y3b, Y 3d .....,. are'the read-and-gates of the, Ililfospeicheru A and likewise are ..... Zia '23b? Z 3e 'Z @ 3d..a ...: the read and gates of the main memory L The Vdrrichtung DS is the dial selector that selects the digits of the memory that are being processed.

.The way of operation of the device is as follows .. It: a part is actuated-in-an instant in which no information is yet available in the device. A 1 output of the flip = -plop FF leads over. the line 30 a Spnnnuri. to the AND circuits P1, - p2i .P3 and P4 When a key is pressed, a bintroode appears at the inputs a, b, o, d, for example 0011, so that the AND gates P and P4 and the binary code 0011 will open iri the Pl, p-Flops l'fa, FFbgfc uröd FFd stored. [By pressing a key: xugleioh an impulse enters the control device CD via the input e. The flip-flop PF tips over: The line 30 no longer has a flute, so that no information can be supplied from the Taetatup via the gates Ptg, P2, P3, P4 (blocking of the keyboard while a given digit is being processed). The line 31 to the flip-flop FF 1 now carries voltage and this is fed to the pulse generator (3. The pulse generator G. Is started and delivers a number of pulses via the line 32 to the counters T1 and T2 Counter y T1 has a counting capacity of nx 4, where n is the number of digits in memory I and A. In this example, it was assumed that there are 10 digits, namely 8 for dollar information and 2 for gents information T1 can therefore consist of 5 flip-flops. The: Counter T2 has a counting capacity of four and starts counting again after four stages '29 G3 $ .G'3 and G4, G'4 etc. Which of the AND gates G1 or G'1 etc. open ... depends on a possible voltage on one of the lines 33 or 34. The line 33 carries voltage when the AND gate L; is open. This is open when the line 31 Voltage is driving and the "1" output of the flip-flopa FF2 has voltage. The latter is the case when the counter Tj, if cents information is entered (the line "cts" carries voltage), counts less than 8, g #: the AND gate H1 remains closed and the "1- "-Output of the flip-flop FF 2 voltage: If dollar information is entered (the 'line" 3 "runs voltage) the" 1 "output of the flip-flop FF @ voltage will lead as long as the counter T1 is less than . Counted 32 pulses. The line 34 carries voltage and the line 33, after flipping over of PF 29, does not carry any voltage if the counter T1 has counted more than or more than = 32. When that happens, the counter T1 starts counting again up to 8 or 32. When this position is reached, the flip-flop FF2'wiedar flips over and a stop pulse arrives via the line 35 to the generator 4 and the 11-111 input of the flip-flop FF1, which then returns to the specified position returns so that a new cycle can start when the next digit is entered.

When starting A pulse is sent to the inputs via line 31 the AND gates 1M1 and M '.. Depending on the input of an "ote" -or. "$" - Informa tiön opens the gate M '1 or M' 2 and gives the digit selector DS about the Line 22 a pulse, this digit selector then either gives output 1 or output 3 a voltage.

The pulses at the outputs of the mentioned gates G.1 ....... G '¢ and M1 ...... 1, t'2 serve nup-to control the means AU, so that the information is processed in the correct manner. _ This is done as follows a.

As already mentioned in the above, a dreariness was activated. And. the flip-flops PF $ 'FF bt FF o, Ff d contain information. The generator G has started and supplies the. Counter T2 a first pulse which is passed on to gates G1 and G '1. The: Gate G1 opens (see above). Via the line 36 there is now a 3pannurg to the ringKx, gen al-lei ° rnechreibe-and-gate ... ,,. R 3a, R 3b ..... of the auxiliary tape "A. The outputs of the flip-flop fPa 6 .... FFd also with the corresponding read-in AND gates ..... R3at. . :: .. Rad., ..... connected: Title choir digit position 1, ...... 10 of the auxiliary memory now the infirmation from the F1ip: .Flopa FFA ...... FFd is supplied depends on the fact which output of the counter selector DS carries voltage. As already mentioned, this output will be 3 if for 11311 information input has been selected.

With this information, only the AND gates R3, R3b = Rio and Rad will open and the information from the flip-flop FF a, fpb, PP d: FFa, will be entered in the digits 3 (a, bt ag d) des Hilfuspeohere engleahri®ben. In the meantime, the generator G delivers a second pulse which, via the second position of the counter T2, sends the AND gate (i2, 5open and Ltber the line; 21 to the flip-flop Ff a.: .. FF d a Rgokatellimpulse. These flip-fl_ops are then: again without information. The generator G now supplies a third pulse, which now opens the AND gate G3 via the third position of the counter T2. This supplies the line 37 to the inputs of the read and Gate ...... Z 3a9 Z 3b9 Z 3c = Z 3d of the main memory I. Because the digit selector DS is still in position 3, only the AND gates 23a 'Z3b' Z 3c and Z 3d and The existing information is fed from digit 3 (a, b, c, d.) to the inputs of the flip-flops FF a9 FFbt FFo, FF: In the meantime, the generator supplies the counter T2 with a fourth pulse; this counter gives the And: -Gate G4 a pulse, which opens this gate. Via the AND-gate M1, (which opens because the Leitu ng '"$" voltage is on) the digit selector receives an impulse and takes a step further. This gives output 4 Spannur. Be a fifth. Pulse from generator G returns the counter T2 to the first position and gate G 1 is opened again. The line 36 receives voltage like ier, whereby together with the voltage on the line 4 the single ear disc AND gates R, R @ ba R40t R4d of the @ilff memory open and the information of the flip-flops FFa - .. ::. . FFd is written into digit 4 (a; 'bg c, d) of the auxiliary memory -A. .A sixth pulse from the generator G opens the AND gate G2 again and dbiarl.t the flip-flops FF a -PF, via the line .21 zurfokiestelit again. A seventh impulse. -of the generator. G opens the AND gate G3 again and opens the read and gate Z a, Z 4b ' Z4 i Z of the main memory I via the line 37 and with the help of the voltage via the line ¢: The information of the Digit 4 (ag- bl a, d) becomes the flip-flops PF,.;.:.:. --PF d supplied ,. uax, slide continues until 32 impulses have been delivered by the generator a. This means that all the information from the main memory, namely one row higher, has been transferred to the auxiliary memory, with the newly introduced information now being at the lowest digit (.3) of the dollar information input in auxiliary memory A when the key is pressed.

When the generator (1 supplies a 33rd pulse, the flip flop FF 2 flips over the counter T1 and a voltage is applied to the inputs of the gates G'1 @ G'2, G ' via the line 34 3 and G'4. With the 33rd pulse, a pulse also goes via the first S-telly; ng of the counter T1 to `Gate G, 1 'so that it opens. AND gate ..: ... Y 3ß 'Y 3b, Y 3o, Y3d ...... y of the auxiliary memory A. The digit selector DS now has naoh-32 pulses from the generator G . 8 pulses received and returned to position 3 with the last pulse (from AND gate G4). As a result, line 3 carries voltage and only read and gates Y 3a ,, Z 3b 'Y 3c and Y 3d will open, if the information is available, at digit 3.

(a ,, b, o, d) of the auxiliary memory A thus gets into the flip-flop Ff a, PF b, FF a and -Ffds A following pulse 34 from the generator G opens the AND gate G'2 and- supplies the write AND gate ...... S3a, .S3b @ -S3c9 S3d .....- of the main memory I a voltage via the line 39. Because: in addition, line 3 carries voltage, only the AND gates S3a, p S 3b9 S30 and S3d and the information from the flip-flop FF a! 'PF b, FFc, FF d reaches the digit Y te, b, o:' d) of the main memory I. Another pulse 35 from the generator G-opens the gate G'3 and thus delivers: via the line 21 the flip-flops FF a, ...;: FF d a Mokstellimpuls Then leaves ƒin @ 36. Pulse of the generator G via the AND gate G'4 and in this case via the AND gate M1 the Zffe $ xähler DS one step further, so that the output q. Tension leads. Then the gate G'1 opens again, and so on, until all the information from the auxiliary unit A is in the appropriate places in the main file I. In the meantime, the generator C has delivered 64_ pulses and it is necessary to send another pulse to the output of the FF2, -this is in its original position and, over the line 35, gives the generator G a stop pulse. And at the same time leaves the Flip-flop PF '' flip back into its original position 'so loosely the device - is ready for @ a new information input, t.

Claims (2)

PATT - ': fTA YS PRULCHE 1. Device for entering digital information into a memory, which contains a keyboard for selecting a digit to be entered and outputs where this digit appears in digital form, characterized in that the memory consists of a main and an auxiliary memory (I and A), each provided with n-digit digits, with means (AU) controlled by a control device (CD) for entering the most important digit of the information to be entered into the least important digit of the auxiliary memory and being controlled by a control device (CD ) Controlled means (AU) for the successive forwarding of all information present in the main memory to the auxiliary tape recorder are present, starting with the number at the least important place in the main memory, in such a way that the numbers of the main memory, according to their position in the main memory, on the next most important position in the sequence of the auxiliary memory is transmitted, w whether there are further means (AU) controlled by the control device (CD), which transfer all digital information in the auxiliary memory to the corresponding digit positions in the main memory, this and that such, then the means (ÄU) * along with the next less important digit, the the most important figure of the information to be entered the following day, giving aid memory in the unwich- tigste rifferstelle * and that of the control device (CD) controlled means (AU) after the repetition of the above-mentioned Weiterleitun # all .im- Hauptipeioher existing information to the help of memory and carries out the repetition of the forwarding of all digits in the auxiliary memory to corresponding digits in the main memory and so on for all digital information in a decreasing order, the unimportant digit of the information is at the least important digit in the main memory. 2. Apparatus according to claim 1, characterized in that means are present with which: the help of certain digits can be blocked before 'input before information. 3. Device according to claim 2l, characterized in that the places to be blocked represent a certain group or certain groups of digits of the information to be entered.