KR19980022445A - Emergency Message Transmission Control Method on Outgoing Network Interface - Google Patents

Abstract

The present invention relates to an emergency message transmission control method in a transmission network interface for performing an emergency message transmission between nodes through an interconnection network in a message delivery method parallel computer system, wherein the emergency message transmission control unit is an emergency requested from a processor. It controls a series of transmission processes for sending a message through an output port, and is connected to a local bus control unit, an emergency message buffer and an output port control unit, and an emergency message control register and an emergency message transmission information generator for emergency message transmission control. Have.

The emergency message control register (ECR) is an 8-bit register for controlling the emergency message transmission. The emergency message control register (ECR) includes control information for emergency message transmission, and the emergency message transmission information register (ETIR) is the first 4 bytes of the emergency message to be transmitted. Is a 32-bit register that reads from the emergency message buffer and stores only the necessary parts, and includes emergency message transmission information, and after the emergency message transmission control unit has been initialized, the emergency message control register (ECR) is examined to determine the emergency message. Check if there is an urgent message to be sent to the buffer, if there is an urgent message to be sent, read the urgent message transmission from the urgent message buffer, store it in the urgent message transmission information register, and start urgent message transmission. Emergency message transmission control when complete After modifying the control information of the emergency message control registers and wait for a new urgent message transmission request.

Description

Emergency Message Transmission Control Method on Outgoing Network Interface

1 is a block diagram of a node connected to the interconnection network applied to the present invention

2 is a connection diagram of an emergency message transmission controller of the present invention.

3 is a block diagram of a transmission control register according to the present invention;

4 is a flowchart illustrating an emergency message transmission control method according to the present invention.

* Explanation of symbols for main parts of the drawings

100: interconnection network 101,102,103,104: node

110: node bus 121,122,123,124: processor

130: local shared memory 140: input and output devices

150: network interface 151: bus bridge

152: local bus 153: transmission network interface

154: receiving network interface 210: local bus control unit

220: emergency message transmission control unit 221: emergency message control register

222: emergency message transmission information register 230: emergency message buffer

240: output port control unit 311,321,323,326: reserved field

312: emergency message transmission request bit 322: broadcast bit

324: Receive node identifier field 325: Length field

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to emergency message transmission between nodes over an interconnection network in a message delivery type parallel computer system.

A message delivery computer system refers to a parallel computer system in which several nodes exchange messages through interconnection networks to perform jobs in cooperation with each other.

In the above-mentioned message delivery computer system, each node transmits and receives a message through an interconnection network. Therefore, latency and transmission bandwidth of a message transmitted between nodes greatly affect the performance of the message delivery computer system. This is an important design factor.

The network interface is a hardware device that bridges the nodes to the interconnection network, and performs a function of transmitting and receiving a message through the interconnection network, so as to minimize message latency and maximize transmission bandwidth. It must be designed.

According to the above, a crossbar interface for a data communication network was devised by WFHedberg et al. Of Digital Equipment Corporation (WFHedberg, et al, Crossbar Interface for Data Communication Network, United States Patent , No.5261059, Noz. 9,1993).

The above-described invention relates to an interface between a host computer and a crossbar switch, and is configured to buffer data using a multi-port random access memory (RAM) element.

Receive and transmit data is stored in or read from the RAM through separate serial ports.

At the same time, a local processor inside the crossbar interface can feed to the RAM asynchronously with the serial port via the history port.

In the above-described invention, a local processor becomes a subject performing a transmission protocol, and a transmission controller performs a partial role of directly transmitting data adjacent to a crossbar switch.

That is, in the above-described conventional invention, the local processor manages both transmission and reception, and the local processor controls the message transmission by executing a program, and has no function of preferentially transmitting an urgent message.

In addition, in order to support a variety of applications and to efficiently transmit a message, an urgent message is required to be transmitted in advance of a general message without using a separate processor.

The present invention devised in view of the above point is to provide an emergency message transmission control method in a transmission network interface in order to perform an emergency message transmission between nodes through an interconnection network in a parallel computer system of a message delivery method. .

In order to achieve the above object, the emergency message transmission controller is connected to a local bus controller, an emergency message buffer and an output port controller, and various interfaces and control mechanisms required in the message transmission process through the emergency message transmission information register for emergency message transmission control. It is characterized in that an urgent message can be transmitted in preference to a general message by simplifying the mechanism and considering the quick transmission as a priority.

The object of the present invention is a message delivery computer system in which up to 128 nodes can be connected to one interconnection network.

In addition, two to 128 nodes can be freely connected to the interconnection network, thereby providing high scalability.

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

1 is a block diagram of a node connected to an interconnection network according to the present invention.

The configuration of the node shows the configuration of a computer system in which several nodes 101, 102, 103, 104 are connected to an interconnection network 100.

Each node connected to the interconnection network 100 is configured as shown in the enlarged portion of FIG.

Each node also contains a minimum of one to a maximum of four processors.

Each processor 121, 122, 123, and 124 is connected to a node bus 110 and forms a symmetric multiprocessor structure that shares a locally shared memory 130.

In addition, an input / output device 140 is connected to the node bus 110, and a node for which input / output is not required does not connect the input / output device 140.

The network interface 150 is a device for connecting each node to the interconnection network 100, and is connected to an input port and an output port of the interconnection network.

The network interface 150 has a structure in which a send network interface 153 and a receive network interface 154 are separated from each other, and each of the interfaces is a local bus 152. Is connected to.

In addition, the interface between the node bus 110 and the local bus 152 is in charge of the bus bridge 151.

Also, the transmission network interface 153 performs a series of operations for packetizing a message requested from a processor and transmitting the packet to the interconnection network 100 through an outgoing pori.

On the other hand, the receiving connection network interface 154 performs a series of operations for de-packetizing and receiving packets arriving through an incoming port.

FIG. 2 is a connection diagram of the promotion message transmission controller of the present invention, and shows an situation in which an emergency message send controller 220, which is a direct object of the present invention, is connected inside the transmission network interface 153. FIG. have.

First, the local bus controller 210 connects the emergency message transmission controller 220 and the emergency message buffer 230 to the local bus 152.

In addition, the emergency message transmission control unit 220 controls a series of transmission process for transmitting an emergency message requested from the processor through the output port.

The promotion message transmission control unit 220 is connected to the local bus control unit 210, the emergency message buffer 230, and the outgoing port controller 240.

It also has an emergency message control register (ECR) 221 and an emergency message transfer information register (ETIR) 222 for emergency message transmission control.

The emergency message control register 221 is an 8-bit register used for transmission control of an emergency message and includes control information for an emergency message.

The emergency message transfer information register 222 is a 32-bit register that reads the most significant 4 bytes of the emergency message to be transmitted from the emergency message buffer 230 and stores only a necessary portion. Emergency message transfer information ) Is included.

The promotion message buoy 230 stores an emergency message transmitted from a processor, and has a size of 64 bytes.

In addition, the output port control unit 240 controls an output port for transmitting a packet to the interconnection network 100, when an emergency message transmission request from the emergency message transmission control unit 220, the priority is transmitted over a general message, and after completion of transmission Notify the emergency message transmission control unit 220.

3 is a block diagram of the transmission control register according to the present invention, and is composed of an emergency message control register 221 and an emergency message transmission information register 222 which are transmission control registers.

The emergency message control register (# 1) can be read and written by a processor, and the writeable bits are emergency and sender transmission request bits (312).

The emergency message transmission request bit 312 is a bit indicating the transmission request of the emergency message. If the emergency message transmission request bit 312 is 1, it indicates that the processor has requested an emergency message transmission.

According to the above, the processor to transmit the emergency message writes to the emergency message buffer 230 to store the emergency message, and then writes to the emergency message control register 221 to send the emergency message transmission request bit ( 312) 릍 1 is set.

When the transmission of the emergency message is completed, the emergency message transmission control unit 220 clears the emergency message transmission request bit 312 set to 1 to zero.

That is, if the emergency message transmission request bit 312 is 0, the transmission of the emergency message stored in the emergency message buffer 230 is completed and the emergency message buffer 230 is empty.

Accordingly, the processor requesting the transmission of the emergency message can check whether the emergency message has been transmitted by reading the emergency message chair register 221.

The reserved field 31l is an unused area. The value of this bit has no meaning and may be defined and used in future function expansion.

In addition, the emergency message transmission information register 222 is impossible to read and write by the processor.

The broadcast bit (B bit) 322 is a bit indicating broadcast transmission. If the broadcast bit 322 is 1, an emergency message is transmitted to all nodes connected to the interconnection network 100. It transmits only to the node recorded in the destination node identifier (DNI) field 324.

The receiving node identifier field 324 is a field indicating a destination node identifier and indicates a unique identifier of a receiving node to which a message is to be transmitted.

In the message delivery computer system to which the present invention is applied, up to 12 nodes can be connected to the interconnection network, so 7 bits are used as node identifiers to identify all nodes.

The length (LEN) field 325 is a field indicating the length of an emergency message to be transmitted, and the actual length is four times the length field 325 plus 1, that is, the length field value + 1. ) × 4 bytes.

The reserved fields 321, 323, and 326 are unused areas. The value of this field has no meaning, and may be defined and used in future function expansion.

4 is a flowchart illustrating a method for controlling an emergency message transmission according to the present invention, in which the emergency message transmission control unit 220 transmits an emergency message step by step.

First, the emergency message transmission control unit 220 is reset to the reset state.

(S1).

In the initialization state, all bits of the emergency message control register 221 and the emergency message transmission information register 222 become zero.

The urgent message transmission is started by the processor requesting an urgent message transmission.

Then, before storing the emergency message in the emergency message buffer 230, the processor reads the emergency message control register 221 to check whether the emergency message buffer 230 is empty and if it is empty (if the emergency message transmission request bit is 0). Write to the emergency message buffer 230.

After the execution, the processor writes the emergency message control register 221 to set the emergency message transmission request bit 312 to 1 to request the transmission of the emergency message.

After the initializing state, the emergency message transmission control unit 220 determines the emergency message transmission request bit 312 of the emergency message control register 221 (S2).

In the determination, if the emergency message transmission request bit 312 is not 1, the inspection of the emergency message transmission request bit 312 is repeated, and if the emergency message transmission request bit 312 is 1, the emergency message buffer 230 The emergency message transmission information (the first 4 bytes of the emergency message) is read from and stored in the emergency message transmission information register (ETIR) 222 (S3).

After storing the emergency message information in the emergency message transmission information register 222, the output port controller 240 requests the packet transmission (S4).

The output port controller 240, which has been requested to transmit the packet, reads an emergency message from the emergency message buffer 240, constructs a packet, and transmits the packet to the interconnection network 100. When the transmission is completed, the emergency message transmission control unit 220 is completed. Inform

When the emergency message transmission control unit 220 requests the transmission of the emergency message, the output port control unit 220 transmits the emergency message to the interconnection network 100 in preference to the general message.

After requesting the packet transmission to the output port controller 240, the emergency message transmission control unit 220 determines whether the transmission is completed (S5).

Whether the transmission is complete, the output port controller 240 notifies the emergency message transmission controller 230.

After the above transmission completion and determination, if the transmission is not completed, the determination of the transmission completion is repeated. If the transmission is completed, the emergency message transmission request bit 312 of the emergency message control register 221 is cleared to 0 (clear). ) Next, the process returns to step (2) above (S6).

The processor which has requested the transmission of an emergency message by setting the emergency message transmission request bit 312 of the emergency message control register 221 to 1 reads the emergency message control register 221 and sends an emergency message transmission request bit 312. By checking whether is 0, it is possible to know whether the emergency message has been transmitted.

As described in the emergency message transmission control method of FIG. 4, the present invention provides a method for waiting for a response to a transmission that can be used in a general message transmission process, handling a transmission error, and restarting transmission in case of a transmission error. In addition, the present invention devised a method of controlling the transmission of an emergency message by eliminating complicated control methods such as interrupt processing when a timeout occurs and interrupt driving upon completion of transmission, and emphasizing rapid transmission as a top priority.

In the related art, a local processor manages both transmission and reception, and a local processor controls a message transmission by executing a program, and has no function of preferentially transmitting an urgent message.

However, in order to support a variety of applications and to efficiently transmit a message, it was necessary to have a function of quickly sending an emergency message to a general message without using a separate processor.

Accordingly, the present invention provides a waiting for a response to a transmission that can be used in a general transmission process, a handling of a transmission error, a transmission retry in the case of a transmission error, and a quick transmission of an emergency message separately from the general message. By eliminating control overhead such as interrupt processing when timeout occurs and interrupt control upon completion of transmission, an urgent message can be transmitted more quickly than a general message.

Claims (3)

Emergency at the transmission network interface connected to the local bus control unit, emergency message buffer and output port control unit, which transmits an emergency message by an emergency message transmission controller composed of an emergency message control register and an emergency message transmission information register for emergency message transmission control. A message transmission control method comprising the steps of: initializing all bit values of an emergency message register and an emergency message transmission information register; and transmitting an emergency message from an emergency message buffer if the transmission request bit of the emergency message control register is 1 after the initialization. A second step of reading information and storing the information in the emergency message transmission information register; and storing the emergency message transmission information and transmitting the packet to the output port controller from the emergency message transmission controller to transmit the packet to the interconnection network. After the third step of requesting the transmission and after performing the third step, the emergency message transmission control unit determines whether the transmission is completed according to the completion of transmission notified by the output port controller, and if so, an emergency message of the emergency message transmission information register. And a fourth step of returning to the emergency message transmission request bit determination after the transmission request bit is cleared to zero. The transmission network interface of claim 1, wherein in the third step, when the emergency message transmission controller requests transmission of an emergency message, the output port controller transmits an emergency message to the interconnection network in preference to a Iranian message. Emergency message transmission control method in. The method of claim 1, wherein the determination of whether the emergency message transmission is completed is performed by setting the transmission request bit of the emergency message control register to 1 and confirming whether the transmission request bit of the emergency message control register is 0. Emergency message transmission control method in the transmission network interface characterized in that it determines.