KR100442660B1 - Method for transmitting data in parallel at a fast ethernet, especially for improving the data transfer efficiency and obtaining a fast data transfer rate by combining data at a reconciliation layer by byte unit and transmitting the combined data in parallel - Google Patents

Abstract

PURPOSE: A method for parallel transmitting data at a fast Ethernet is provided to improve the efficiency of a transmission line and obtain a fast transfer rate by transmitting data in a 8 bit, that is, byte unit in a reconciliation layer. CONSTITUTION: An MAC(Media Access Control) layer(101) configures an Ethernet frame by adding preamble, an SA(Source Address), a DA(Destination Address), and an FCS(Frame Check Sequence) to data transmitted from an upper layer. A reconciliation layer(102) receives the configured Ethernet frame for combining the frame so as to be 8-bit(110). The combined data are transmitted to a PCS(Physical Coding Sub-layer)(103) through an M II interface(108). A transmitting encoder(104) 8 bit-to-10 bit encodes the combined data. The coded data are transmitted to a 10 bit transmitting shift register(105). The coded 10 bit data are parallel transmitted through two pairs of UTP5(Unshielded Twisted Pair) cables among four pairs. The Ethernet frame is received by using other two pairs of UTP5 cables. The received frame is stored in a receiving shift register(106) by two bits. The stored 10 bit data are decoded into 8 bit data. The decoded 8 bit data are transmitted to the MAC layer(101) through the M II interface(108). The preamble, the SA, the DA, and the FCS are removed from the received Ethernet frame to transmit the Ethernet frame to an upper LLC layer.

Description

Parallel Data Transmission Method in Fast Ethernet

The present invention relates to a parallel transmission method of data in high-speed Ethernet (100base-TX Ethernet), and in particular, by combining the data in parallel in the unit of data in the arbitration layer (Reconciliation layer) in parallel transmission of data transmission efficiency and fast transmission speed The present invention relates to a parallel transmission method of data in Fast Ethernet.

1 shows a data transmission method in a conventional fast Ethernet.

According to the conventional data transmission method, the data 1 sent by the user is composed of an Ethernet frame 3 in the medium access control layer (hereinafter referred to as MAC) layer 2.

The Ethernet frame 3 is a preamble used for synchronization between a transmitting end and a receiving end, and a destination address (hereinafter referred to as DA) indicating an address of a destination to which a frame is transmitted, and a destination address. A source address (hereinafter referred to as SA), and a frame error check section (hereinafter referred to as FCS) for checking errors for the DA, SA and data portion.

The Ethernet frame 3 having the above configuration is combined into a 4-bit nibble 5 in the arbitration sublayer 4. The nibble 5 is alternately transmitted by dividing the least significant bit and the most significant bit of one byte.

The data in units of the nibbles 5 thus combined are transferred to the transmitter of the PCS 6. In the 4-bit / 5-bit encoder 7 of the PCS 6, 4 bits in the nibble 5 unit are converted into a 5-bit code.

The encoded 5-bit data is transmitted in serial while being shifted by one bit in the TX shift register 8.

Bits transmitted from the transmit shift register 8 are passed through the Physical Medium Assitant (PMA) (9) and Physical Medium Dependent (PMD) layers through an RJ-45 jack and an Unshielded Twisted Pair (UTP) cable. Will be sent to the destination.

At the time of reception, the reverse process of the transmission process is performed.

Serial data coming through the UTP cable is delivered to the PCS layer 6 via the PMD 9 and the PMA 10. The data entered into the PCS layer is decoded by the 4-bit / 5-bit decoder 12 in the RX shift register 11.

The reason why the reception shift register 11 is used here is to supply the channel activity detector 13 with the presence or absence of channel activity.

The decoding process inversely encodes 5-bit data into 4 bits as opposed to transmitting data. The decoded 4-bit data is transferred to the major sublayer 4, converted into serial, and then transferred to the MAC layer 2.

The MAC layer 2 removes preambles, DAs, SAs, and FCSs from the received Ethernet frames, and extracts only the pure data 15 to be transmitted to the upper LLC layer.

Data transmission and reception in Fast Ethernet according to the prior art operating as described above is to transmit the data serially using the UTP cable category (5) consisting of four pairs.

Since data is transmitted and received in series, only two of four pairs are used. That is, one pair is used for transmission and the other pair is used for reception.

Therefore, since the remaining two pairs are not used, a waste of transmission paths occurs, and a transmission rate decreases because serial transmission is used.

The present invention was devised to solve the conventional problems as described above,

By transmitting 4 bits in the mediation layer in 8-bit byte units, two pairs of data can be transmitted as four pairs, and the remaining two pairs can be used as a receiver to increase the efficiency of the transmission path and to obtain a high transmission speed. It is an object to provide a parallel transmission method.

1 is a method of transmitting data in a conventional fast Ethernet.

2 is a data transmission method in Fast Ethernet according to the present invention.

The present invention for achieving the above object,

Configuring an Ethernet frame using upper data in a MAC layer, transmitting the Ethernet frame to an arbitration layer, converting serial data into parallel data by an 8-bit / 10-bit encoding method in the arbitration layer, A transmission process comprising receiving the 10-bit data and transmitting the data using two pairs of UTP cables;

Receiving an Ethernet frame using two pairs of UTP cables, inputting the received frame into a 10-bit receiving shift register, converting the 10-bit data into 8-bit, receiving the converted frame and receiving a MAC Transmitting to the layer, and removing the data link header and the trailer from the Ethernet frame and transmitting to a higher LLC layer.

2 is a diagram illustrating a parallel transmission method of data in Fast Ethernet according to the present invention.

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

In the case of transmission, an Ethernet frame (FCS frame having a function of detecting a preamble for synchronization, an SA indicating a destination address, a DA indicating a destination address, and a frame is added to the upper data in the MAC layer 101. 109).

In the present invention, the configured frame 109 should be combined into 8 bits by combining 4 bits in the arbitration layer 102. The eight bits of data 110 are delivered to the PCS layer 103 via the media independent interface 108.

The transmitter encoder 104 of the PCS layer may perform 8 bit / 10 bit encoding or use 4 bit / 5 bit encoding in units of 4 bits by using a conventional encoding method as it is. You can think of it as using two 4-bit / 5-bit encoders.

The transmit shift register 105 uses a 10 bit register to process the 10 bit output of the encoder 104.

When the encoded 10-bit data is transmitted, parallel transmission is performed through two pairs of four pairs of UTP5 cables, and the reception side receives parallel transmissions through two pairs. Thus, two out of four pairs of UTP cables are used for transmission and two pairs are used for reception.

The reception shift register 106 at the receiver receives two bits at a time and receives the encoded 10-bit data, and sends the data to the decoder 107.

The decoder 107 receiving 10 bits of data is decoded into 8 bits and sent to the MAC layer 101 through the M II interface 108.

As described above, the present invention can perform parallel transmission by combining data in units of bytes in the mediation layer to increase data transmission efficiency and obtain a faster transmission speed than serial transmission.

Claims (3)

Configuring an Ethernet frame by adding a preamble, SA, DA, and FCS to data transmitted from an upper layer in the MAC layer, Receiving the configured Ethernet frame and combining the 4 bits in the arbitration layer into 8 bits, Delivering the combined data to a PCS layer via an M II interface; 8-bit / 10-bit encoding by the transmitter encoder of the PCS layer Transmitting to the 10-bit transmit shift register storing the encoded data; A transmission step of performing parallel transmission via two pairs of four pairs of UTP5 cables when transmitting the coded 10-bit data; Receiving an Ethernet frame using two pairs of UTP cables, Receiving 2 bits from the received frame and storing the bits in a 10-bit shift register; Decoding the stored 10-bit data into 8 bits, Transmitting the decoded 8-bit data to the MAC layer through an M II interface; And removing the preamble, the SA, the DA, and the FCS from the received Ethernet frame, and then transmitting the same to the upper LLC layer. The method of claim 1, wherein the data encoding in the PCS layer, 8-bit / 10-bit encoding method or two 4-bit / 5-bit encoding method, parallel transmission of data in Fast Ethernet The method of claim 1, wherein when transmitting over a UTP cable, Parallel transmission of data in Fast Ethernet, characterized in that two pairs are used for transmission and the remaining two pairs are used for reception.

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