JP2000259542A - Information processor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily determine the speed of communication between respective nodes by eliminating necessity for all the nodes to secure resources for storing a speed map. SOLUTION: A CPU 101 receives a Self ID packet, which is sent out of an external information processor 300 when initializing a bus, with a 1394 interface 104 and determines the lowest maximum communication speed in the maximum communication speeds of respective nodes contained in that Self ID packet as a common communication speed in broadcast or multicast. Besides, the maximum communication speed of the present node is compared with the common communication speed and when both the speeds are coincident, without preparing maximum communication speed information, the maximum communication speed of the present node is defined as the speed of communication to all the nodes but when both the speeds are not coincident, the maximum communication speed information between the present node and the other node is prepared according to the Self ID packet.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plurality of information processing apparatuses connected by a bus, and more particularly to an information processing apparatus which communicates with each other at a maximum communication speed effective in each information processing apparatus.

[0002]

2. Description of the Related Art In recent years, information processing apparatuses such as personal computers, printers, scanners, hard disks, and digital video tape recorders have been used in IEEE 1394.
There has been proposed a bus system which is connected by a serial bus and transmits and receives digital video data and control data as packets between these information processing apparatuses. IEEE 1394
An information processing device (hereinafter, referred to as a node) connected to the serial bus includes, at the time of initialization of the bus, information including the maximum communication speed at which the physical layer can communicate and the state of the connection port, in addition to the identification number of each node. To the bus as a selfID packet.

[0003] In the above bus system, a bus management node called a bus manager transmits s to each node.
The elfID packet is received, the connection state and the maximum communication speed are analyzed, and information having a format shown in FIG. 5 (hereinafter, referred to as a speed map) is created. The speed map indicates the maximum communication speed between the nodes that can correspond to the maximum number of nodes defined by the IEEE 1394 standard. Each node can determine the communication speed with another node by referring to the speed map managed by the bus manager.

For example, in Japanese Patent Laid-Open No. Hei 10-290237, a bus manager or a node creates a speed map based on a SelfID packet transmitted by each node, and furthermore, not only the maximum communication speed at which the physical layer can communicate but also the physical In consideration of a node having an upper layer whose maximum communication speed is lower than the layer, a communication speed information accompanying method of reading information indicating the maximum communication speed including the upper layer from each node and correcting the speed map is disclosed. I have.

[0005]

When the communication speed is determined with reference to the speed map managed by the bus manager in the above-mentioned JP-A-10-290237, the maximum communication speed between the own node and the bus manager is apparent. Therefore, it is necessary to refer to the speed map by performing communication at the minimum communication speed defined by the IEEE 1394 standard (hereinafter referred to as the standard minimum communication speed) regardless of the maximum communication speed between the nodes. However, when information is transmitted and received at the standard minimum communication speed, the bus load increases due to the communication between each node and the bus manager. Therefore, there is a problem that the time required to determine the communication speed increases and the communication overhead increases. . Further, in the IEEE 1394 bus system, a bus manager does not always exist. Therefore, unless the connection state of each node and the maximum communication speed or the existence of a node that can be a bus manager can be grasped in advance, There is a problem that the maximum communication speed between nodes cannot be determined.

On the other hand, when each node receives a selfID packet and creates a speed map,
Since the communication with the bus manager is not required, the above-described problem due to the bus load and the problem when the bus manager is not present do not occur. However, in order for all the nodes to store the speed map, the speed map of the format shown in FIG. 5 requires a storage area of about 4 KB, which has a problem that the resources are not limited.

[0007] Further, the transmission speed for simultaneous transmission to all nodes connected to the bus (hereinafter referred to as broadcast) or transmission to some nodes simultaneously (hereinafter referred to as multicast) is described. If the communication speed is set to the minimum communication speed, there is a possibility that the bandwidth is wasted. Therefore, it is effective to determine the communication speed in consideration of the maximum communication speed of each node. However, in this case,
Since it is necessary to read and determine information of all nodes to be communicated from the speed map, there is a problem that communication overhead increases.

The present invention has been made in view of the above-described circumstances, and does not require that all nodes secure resources for storing a speed map, and information that can determine a communication speed between nodes. It is intended to provide a processing device. Another object of the present invention is to provide an information processing apparatus capable of storing a communication speed between nodes with a smaller resource even when creating a speed map. It is another object of the present invention to provide an information processing apparatus that can easily determine the communication speed in broadcast or multicast.

[0009]

According to the first aspect of the present invention, there is provided an information processing apparatus in a system for mutually communicating with a plurality of information processing apparatuses connected by a bus. Among the plurality of information processing devices, bus connection information receiving means for receiving bus connection information including a maximum communication speed and a connection state in other information processing devices other than the self, and included in the bus connection information Common communication speed determining means for determining a minimum maximum communication speed as a common communication speed with the other information processing device among the maximum communication speeds, and a comparison result between the common communication speed and its own maximum communication speed. And a speed determining means for determining a maximum communication speed with each of the other information processing devices based on the bus connection information.

[0010] According to the present invention, the bus connection information receiving means receives the bus connection information including the maximum communication speed and the connection state in the other information processing apparatus except for the plurality of information processing apparatuses. The common communication speed determining means is:
Among the maximum communication speeds included in the bus connection information, a minimum maximum communication speed is determined as a common communication speed with the another information processing device. Also, the speed determining means is
A maximum communication speed with each of the other information processing devices is determined based on the bus connection information according to a comparison result between the common communication speed and its own maximum communication speed.
Therefore, it is not necessary for all nodes to secure resources for storing the maximum communication speed information, and the communication speed between the nodes can be determined, and the communication speed in broadcast or multicast can be easily determined. It is possible to do. In addition, the present invention also provides a method for generating each node with a smaller resource by using only information indicating another information processing apparatus having a smaller maximum communication speed as compared with its own maximum communication speed when creating maximum communication speed information. The communication speed between them can be stored.

[0011]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a block diagram illustrating an information processing apparatus according to an embodiment of the present invention. 1, an information processing apparatus 100 includes a CPU 101, a ROM 10
2, RAM103 and 1394 interface 1
04. The CPU 101 is a central processing unit that controls the entire information processing apparatus 100, and has a RAM
The instruction stored in the ROM 102 is executed by using the instruction 103. In particular, as the processing according to the present invention, among the maximum communication speeds at which the physical layer of each node included in the SelflD packet output from each node at the time of initialization of the bus can communicate, the smallest communication speed at the node connected to the bus is considered. The maximum communication speed is calculated and determined as the common communication speed in broadcast or multicast, and the maximum communication speed of the own node is compared with the common communication speed. Without creating the communication speed, the communication speed for all nodes is set to the maximum communication speed of the own node.
The maximum communication speed information between the own node and another node is created according to the elflD packet.

The ROM 102 stores programs necessary for the CPU 101 to control the information processing apparatus 100.
IEEE1394 via the H.94 interface 104
Information such as device-specific identification information necessary for communicating with an external information processing device connected to the serial bus 200 is stored. The RAM 103 includes a work memory for the CPU 101 to control the information processing apparatus 100,
It is used as a communication data memory for storing data communicated via the interface 104. The 1394 interface 104 is a communication unit in the information processing apparatus 100, and is an IEEE 1394 serial bus 200.
External information processing device 3 such as a personal computer, printer, scanner, or hard disk connected to
Data communication with 00 is performed.

B. Next, an operation of the above-described embodiment will be described. Here, FIG. 2 is a flowchart showing a control procedure for creating the maximum communication speed information according to the present embodiment. First, it receives a SeIfID packet sent from each node connected to the IEEE 1394 serial bus 200 and including information such as a node identification number, a maximum communication speed at which the physical layer can communicate, and a connection port state.
3 (step S1). Se from all nodes
When the lfID packet is transmitted and the node identification number of each node is determined, the own node identification number is set to MyID, and
Variable M indicating the minimum value of the maximum communication speed in the physical layer of another node connected to the IEEE 1394 serial bus 200
inSpeed and a variable nodeI indicating the node identification number
And D are initialized (step S2). In this case, the variable MinSpeed is initialized to “S400”, and the variable nodeID is initialized to “0”.

Next, the maximum communication speed speed (nodeI) in the physical layer included in the SelfID packet
D) is compared with the variable MinSpeed, and the smaller value is set as the variable MinSpeed (step S3). Next, it is determined whether or not the processing in step S3 has been completed for all nodes connected to the IEEE 1394 serial bus 200 (step S4). If the processing has not been completed for all the nodes, “1” is added to the variable nodeID (step S5), and the processing in step S3 is repeated. As a result, the variable Min
Speed has a maximum communication speed spe of each of all nodes.
Among ed, the smallest maximum communication speed is stored.

On the other hand, when the processing in step 3 is completed for all nodes, the minimum value MinSpeed of the maximum communication speed in all nodes except the own node is compared with the maximum communication speed in the physical layer of the own node ( Step S6). If the maximum communication speed of the own node is higher, the communication device creates maximum communication speed information to be described later (step S7). On the other hand, in other cases, it is determined that communication is possible with all the nodes connected to the IEEE 1394 serial bus 200 at the maximum communication speed of the own node, and the process ends without creating the maximum communication speed information.

FIG. 3 is a block diagram showing an example of a system configuration for explaining a control procedure for creating maximum communication speed information by the information processing apparatus according to the present embodiment. In the figure, a bus system connected by an IEEE 1394 serial bus is composed of nine nodes to which node identification numbers PhyID are assigned from “0” to “8”. The maximum communication speed in the physical layer of each node is indicated by speed codes S100, S200, and S400 representing 100, 200, and 400 Mbps.

In FIG. 3A, the information processing apparatus 100 according to the present embodiment has the node identification number phyllD = 3, the maximum communication speed in the physical layer = S200, and is connected to the external information processing apparatuses 300a to 300h. . In the case of such a configuration, the minimum value of the maximum communication speed MinS
speed = S200, maximum communication speed of its own node Speed
Since d (MyID) = S200, according to the comparison result in step S6 shown in FIG. 2, the maximum communication speed of the own node (200M
bps), communication with each node connected to the IEEE 1394 serial bus 200, and broadcast and multicast are performed.

In FIG. 3B, the information processing apparatus 100 according to the present embodiment has a node identification number PhylD =
3. The maximum communication speed in the physical layer = S400, and it is connected to the external information processing devices 300a to 300h.
In such a configuration, the minimum value of the maximum communication speed MinSpeed = S200 and the maximum communication speed of the own node Speed (MyD) = S400. Therefore, according to the comparison result in step S6 shown in FIG. It is necessary to create communication speed information.

Next, FIG. 4 is a conceptual diagram showing the structure of the maximum communication speed information created by the information processing apparatus according to the present embodiment. The maximum communication speed between two nodes is Sel
The topology indicating how each node is connected is analyzed from the node identification number included in the fID and the information indicating the state of the connection port, and the physical layer of the node existing between the predetermined nodes is analyzed from the obtained topology information. Is calculated as the minimum value of the maximum communication speed at which communication is possible. The maximum communication speed information includes a node identification number to be communicated and a maximum communication speed between the own node and the node to be communicated. The maximum communication speed is determined when transmission is performed individually to each node connected to the IEEE 1394 serial bus 200 (node identification numbers 0 to 8), or when transmission is performed collectively to a plurality of nodes such as broadcast or multicast (node identification). No. 63) is stored.

The maximum communication speed when a plurality of nodes such as broadcast and multicast are targeted is determined by the control procedure for creating the maximum communication speed information in FIG. The minimum value MinSpeed of the maximum communication speed is stored. The example shown in FIG. 4A is the maximum communication speed information for managing the maximum communication speed corresponding to all the nodes to be communicated, and is actually the IEEE 1394 serial bus 200.
And stores only the maximum communication speed information for each node connected to the own node.

In step S6 shown in FIG. 2, the minimum communication speed MinSpeed of all the nodes except the own node is compared with the maximum communication speed of the own node to determine the maximum communication speed of the own node. If it is smaller, the process ends without creating the maximum communication speed information, but without analyzing the topology from the information included in the SelfID, the minimum value of the maximum communication speed MinSpeed is obtained.
It is needless to say that the maximum communication speed information as shown in FIG. 4A may be created as the maximum communication speed for all the nodes to be communicated.

In FIG. 4A, the maximum communication speed is stored for each connected node as the maximum communication speed information. However, the area for storing the maximum communication speed information is reduced. As shown in FIG. 4B, a node identification number having a maximum communication speed between its own node and another node smaller than the maximum communication speed of its own node is managed in correspondence with the maximum communication speed. You may.

[0023]

As described above, according to the present invention, according to the present invention, the bus connection information receiving means determines the maximum communication speed and the connection state of the other information processing apparatuses except for the plurality of information processing apparatuses. And the common communication speed determination means determines the minimum maximum communication speed among the maximum communication speeds included in the bus connection information as a common communication speed with the other information processing device. And, based on the bus connection information, the maximum communication speed with each of the other information processing devices, based on the comparison result between the common communication speed and the own maximum communication speed by the speed determination means. I decided to decide
The following effects are obtained.

[0024] Even if there is no problem due to an increase in bus access to the bus manager or no bus manager exists, it is possible to prevent an increase in the time required to determine the communication speed and an increase in communication overhead due to this. This has the advantage that the communication speed between nodes can be easily determined. If the maximum communication speed of all information processing devices is the same or the maximum communication speed matches the minimum value of all information processing devices, there is no need to create maximum communication speed information,
Further, there is an advantage that even when the maximum communication speed information is created, it can be realized with a small storage area. Since the communication speed at the time of performing the floating cast or the multicast is stored in advance, there is no need to refer to the maximum communication speed for all the external information processing apparatuses, and an advantage that the overhead for the communication can be reduced can be obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an information processing apparatus according to an embodiment of the present invention.

FIG. 2 is a flowchart showing a control procedure for creating maximum communication speed information according to the embodiment.

FIG. 3 is a block diagram illustrating an example of a system configuration for describing a control procedure for creating maximum communication speed information in the information processing apparatus according to the present embodiment.

FIG. 4 is a conceptual diagram illustrating a configuration of maximum communication speed information in the information processing apparatus according to the present embodiment.

FIG. 5 is a conceptual diagram showing a configuration of a speed map defined by the IEEE 1394 standard.

[Explanation of symbols]

REFERENCE SIGNS LIST 100 information processing apparatus 101 CPU (common communication speed determining means, speed determining means, speed information creating means) 102 ROM 103 RAM 104 1394 interface (bus connection information receiving means) 105 internal bus 200 IEEE 1394 serial bus 300 external information processing apparatus (others) Information processing equipment)

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yoshinobu Terui 2274 Hongo, Ebina-shi, Kanagawa Prefecture Inside Fuji Xerox Co., Ltd. (72) Inventor Hiroyuki Saito 2274 Hongo, Ebina-shi, Kanagawa Prefecture Fuji Xerox Co., Ltd.F-term ( Reference) 5B014 GC01 5B077 NN02

Claims (6)

[Claims] An information processing apparatus in a system that communicates with a plurality of information processing apparatuses connected by a bus, the information processing apparatus including: Bus connection information receiving means for receiving bus connection information including a maximum communication speed and a connection state; and a maximum communication speed of the maximum communication speed included in the bus connection information between the other information processing device. A common communication speed determining means for determining as a common communication speed in, according to a comparison result between the common communication speed and its own maximum communication speed, based on the bus connection information, with each of the other information processing device An information processing apparatus comprising: a speed determination unit that determines a maximum communication speed between the two. 2. Maximum communication speed information indicating the maximum communication speed with the other information processing device is created according to the maximum communication speed with the another information processing device determined by the determining means. 2. The information processing apparatus according to claim 1, further comprising speed information creating means. 3. The information processing apparatus according to claim 1, wherein the bus is an IEEE 1394 serial bus, and the bus connection information is a self ID packet. 4. The common communication speed is a communication speed for simultaneously communicating with all or some of the information processing devices in the plurality of information processing devices connected by the bus. The information processing apparatus according to claim 1, wherein: 5. The information processing apparatus according to claim 1, wherein the maximum communication speed information is maximum communication speed information that allows communication with the another information processing apparatus. 6. The information processing apparatus according to claim 5, wherein the maximum communication speed information comprises information indicating the other information processing apparatus whose maximum communication speed is lower than its own maximum communication speed. .