SU1157565A1 - Method of magnetic recording of digital information - Google Patents

Abstract

METHOD OF MAGNETIC RECORDING OF DIGITAL INFORMATION, consisting in dividing the initial sequence of digital information symbols into groups of two binary symbols, placing the received groups on magnetic media recordings corresponding to three clock intervals T of the initial sequence of symbols, by recording a two-frequency signal with T and 2T intervals between the magnetization reversal magnetic carrier, characterized in that, in order to increase the efficiency of use of the magnetic carrier by forming the address marker in the format recording, before recording the digital information on magnetic media, remember and measure the duration of intervals for each byte of the original sequence of signals for digital information and in the absence of intervals the duration) 2T limit the number of intervals between signals with a symbol T with a specified number by replacing each with two adjacent groups for signals with an interval T by a signal with an inter shaft 2T, And the address marker is formed as a sequence of signals with an inte With the number of ticks, T, in their number, and write the resulting sequence of signals onto magnetic media. ate h sp ob ate

Description

The invention relates to instrumentation, and in particular to methods for recording digital information signals on magnetic media. There are known methods for recording signals with phase modulation, which allow self-synchronization and the formation of a two-interval (two frequency) recording signal 1}. The disadvantage of these methods is low information capacity. The method of Gabor (adaptive coding) is also known, which consists in dividing the initial sequence of information received in the recording into groups of two characters in each group, placing the said groups in the areas corresponding to three clock intervals T, by recording two signal with intervals of duration T and 2T C23. The disadvantage of the Gabor method is the insufficient use of magnetic media due to the impossibility of making a format recording. For this, it is necessary to form an address marker that is physically different from the working information signals, and Gabor's method does not allow this, since it uses all possible two-interval combinations of signals. The purpose of the invention is to increase the efficiency of using a magnetic carrier by forming an address marker during format recording. This goal is achieved by the fact that according to the method of magnetic recording of digital information, consisting in dividing the original sequence of signals of digital information symbols into groups of two binary symbols, placing the obtained groups in the magnetic carrier sections i corresponding to three clock intervals. of the original sequence of symbols, by recording a two-frequency signal at intervals T and 2T between magnetic reversal of magnetic media, before recording digital information on magnetic media, the intervals for each byte of the original sequence of signals 1И are measured and the number of intervals is limited between signals of symbols of duration T with a specified number by replacing in each of two adjacent signals with an interval T with a signal with an interval 2T, and the address marker forms as a sequence of signals at intervals of T with more than a specified number of them and writes the resulting sequence of signals to a magnetic carrier. The method is implemented in the following way. The continuous sequence of characters of the digital information is divided into groups of two characters in each group. Each group is converted into a two-interval combination with intervals of length T and 2T between adjacent pulses of the single-channel sequence in accordance with the table. 1 and tab. 2 as follows (according to the method of Gabor). Conversion of groups of signals according to the table. 1 is executed until a group is encountered in a sequence. If there is such a group, the first group is assigned to the next group, if this number is O, then group 00 is converted into a combination with (, if 1, then combination 6.) 1 The corresponding interval register group of symbols is entered into a combination of intervals according to Table 2. Table 2 is logged. The corresponding interval binaries command symbol results in a continuous two-interval sequence in which every three periods of T transfer two binary characters of the source information. The transformed sequence is divided into sections corresponding to the byte of the original sequence, stored and analyzed for the presence of intervals of length 2 If such an interval is detected, the sequence is written to the carrier without any further transformations. of the analyzed sequence of intervals of 2T duration, it is replaced by a sequence in which 5.6 and 8.9 pairs of intervals of duration T are replaced by an interval of E duration 2T in accordance with Table. 3. As a result, in a continuous two-interval sequence, the maximum number of intervals is limited to a duration T. Table Analyzed by Corresponding Sequence is the combination of intervals, base words for recording replacement. mr t ari. For recording the address marker of a formatted record, a sequence of intervals of length T is used, the number of which is due to their limited coaction. Such a representation of the address marker is physically different from the information sequence, allowing for formatted recording and increasing the efficiency of media usage. Fig. 1 shows a device for realizing a magnetic recording method; in fig. 2 - timing diagrams that show how the device works. A device for recording digital information (FIG. 1) consists of the first 5 and second 2 And elements, the first 3 and second 4 shift registers, the first 5 and second 6 triggers, the I-ШШ-НЕ 7 element, and the OR 8 element , the first 9 and second 10 elements AND-OR, the distributor 11 pulses, the T-flip-flop 12, the recording channel 13 and the magnetic head 14. The device works as follows (Fig. 2). The pulses, which synchronize the operation of the device, are fed to the input of the distributor 11 pulses and to the first and third inputs of the I-SHSh 10 element. Digital information in the form of the binary byte of the binary code goes to the inputs of the AND elements 1 and records the signal S in the register 3 .Each third clock pulse produces a register shift of 3 by two bits. A group of two characters is converted by elements 7 to 9 into a group of three characters and is written to register 4 by the signal g. The shift of register 4 is carried out by the signal E. As a result, at the output of the I-SHSh 10 element, a recordable two-interval sequence k is obtained, represented as logical signals. In this case, the sequence of intervals of duration T corresponds to the sequence of units, and the interval of duration 2T - the presence of zero between adjacent units. Such a representation is convenient. For recording: when recording, each logical signal has its own sequence in the sequence and the presence of an e signal; The rim is carried out by reversing the carrier in this position, and if there is zero, the reversal is not reversal. Trigger 12 converts the recorded sequence into the write current m. If the byte of the original sequence consists of one units (11 11 11 11), then trigger 5 is set to one, and during recording of the second and third triad e to the lower bit of register 1} and 4 is written zeros. Thus, the transformation of the sequence 111 111 111 111 into the sequence 111110 110 111 is carried out and, by itself, the number of intervals is limited to a duration T. The address marker is recorded by a sequence of 24 units (interB & noB duration T) in the presence of a signal l (in the case of byte-wise) .

Thus, the method allows, while maintaining the continuity and two-intervals of the signal recording

 , mirovat an address marker that is physically different from the information sequence, and make a formatted recording, which increases the effective capacity of the carrier, as well as the performance of the computing system.

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Claims (1)

METHOD FOR MAGNETIC RECORDING OF DIGITAL INFORMATION, which consists in dividing the initial sequence of symbols of digital information into groups of two binary symbols, placing the obtained groups on the sections of the magnetic medium corresponding to three clock cycles T of the original sequence of symbols, by recording a two-frequency signal with intervals T and 2T between magnetization reversals of a magnetic medium, characterized in that, in order to increase the efficiency of use of the magnetic medium by forming an address markers during format recording, before recording digital information on a magnetic medium, the intervals for each byte of the original sequence of digital information signals are stored and measured, and in the absence of 2T intervals, they limit the number of intervals between signals with a symbol of duration T by a specified number by replacing each of two adjacent groups for signals with an interval of T, a signal with an interval of 2T, A address marker is formed as a sequence of signals with intervals of T at their Isle greater than a predetermined sequence and recording the resulting signal on a magnetic medium. > 1157565 2