KR970005657B1 - Bit stream transmission apparatus using multi-harddisk - Google Patents

Abstract

Bit stream generating device using the multi-hard disk, in order to improve the generating speed of the bit stream using the multi-hard disk. The said device consists of at least two module part that record the bit stream data by the sector, and a synchronous buffer and controller that output the bit stream data after input and storing.

Description

Bitstream Generator Using Multiple Hard Disks

Figure is a block diagram of a bitstream transmission apparatus using a multi-hard disk according to the present invention.

* Explanation of symbols for main parts of the drawings

10,20: hard disk 11,21: hard disk controller

12,22: buffer 100,200: module

300: synchronization buffer and controller

The present invention relates to a high-speed bitstream generator, and more particularly, to a bitstream generator capable of improving a bitstream generation speed by using a multi-hard disk in a high definition television (HDTV) system. will be.

To implement HDTV, both encoder and decoder must be configured to enable high quality data transmission. The encoder compresses HDTV video taken by the camera into a bitstream that can be transmitted. The decoder decodes the transmitted bitstream to reproduce the HDTV image on the screen. However, decoder development is performed first because it is more complicated and difficult than the decoder of the encoder circuit of the encoder. To develop a decoder, bitstream transmission is essentially required.

However, the conventional commercial bitstream storage and generation apparatus has a problem that random search is not possible using a tape, the error rate is high in a long time operation, and the infinite transmission function cannot be performed.

An improvement of the conventional problem is a bitstream generating device using a hard disk, which comprises a hard disk, a hard disk controller and a buffer for storing the bit stream. The speed of the bitstream generator is the time taken to read the bitstream stored in the hard disk. This is inevitable because the hard disk is a mechanical device. In addition, the bitstream transfer rate in other parts except for the hard disk may be considered to be sufficiently fast compared to the time due to the hard disk. That is, the conventional bitstream transmission device using a hard disk has a problem in that a faster bitstream generation speed cannot be expected due to the mechanical device characteristics of the hard disk.

Accordingly, an object of the present invention is to provide a bitstream generator capable of improving the bitstream generation speed by using multiple hard disks in a high speed bitstream generator.

In accordance with an aspect of the present invention, there is provided a bitstream generating apparatus comprising: at least two or more module units for recording bitstream data in a sector unit having a predetermined number of bits and bits provided from the respective module units; And a synchronization buffer and a control unit for alternately receiving and storing stream data, and outputting the stream data.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

1 is a block diagram illustrating an improved bitstream generator according to the present invention, which includes a first module head 100, a second module unit 200, a synchronization buffer, and a controller 300.

First, a series of bit streams are alternately recorded on the hard disks 10 and 20 in sector units. The problem at this time, however, is the synchronization between the hard disks. Therefore, when recording the bitstream sector by sector, a sync byte is recorded every sector.

Since the sync byte can represent a number from 0 to 255, 0 is inserted into the first byte of the first sector of each of the hard disks 10 and 20, and 1 is inserted into the first byte of the second sector. Therefore, in each of the hard disks 10 and 20, a sync stream is recorded in the first byte of every sector, and then a bitstream is recorded. Therefore, since one sector of a hard disk is 512 bytes, buffers 12 and 22 store data in one byte of sync byte, 511 byte of bitstream, one byte of sync byte, and 511 byte of bitstream data.

Subsequently, the synchronization buffer and the control unit 300 sense the portion of the sync byte 0 in the buffer 12, read and store 511 bytes of data thereafter, find the portion of the sync byte 0 of the buffer 22, and thereafter 511 bytes. Save it. Therefore, the data width of the synchronization buffer and the control unit 300 is twice the size of the buffer (100, 200).

By separating, storing, and reading data at the same time using the method described above, the bitstream generation rate can be doubled.

In addition, the use of four module units can be increased four times.

Claims (6)

In a generator for separately storing and transmitting a series of bitstream data using a multi-hard disk, at least two or more module units 100 for recording bitstream data in sector units having a predetermined number of bits. And a synchronization buffer and a controller 300 which alternately receive and store bitstream data provided from the module 200 and the module unit 100 and 200, and output the alternately received and stored data. . 2. The hard disk drive according to claim 1, wherein each of the module parts (100) and (200) has a plurality of sectors for recording a predetermined number of bits; Hard disk controllers (11) and (12) for controlling the writing and reading of the respective sectors of the predetermined number of bits in the series of bitstreams; And a buffer unit (12), (23) for temporarily storing bitstream data read from the hard disks (10) and (20). 3. The bitstream generator of claim 2, wherein the module unit is two. 4. The bitstream generator as claimed in claim 3, wherein the predetermined bits are alternately written to the respective module units. The bitstream generator as claimed in claim 4, wherein a synchronization signal is recorded in advance of the predetermined bit. 6. The bitstream generator as claimed in claim 5, wherein the same synchronizing signal is stored in the same storage position of each of the hard disks of the module.