RU206249U1 - CONNECTING BOARD - Google Patents

Abstract

The invention relates to the field of computer technology, intended, in particular, for connecting central processing units and devices for switching packets and transmitting information or other signals between these devices. A connection board for interfacing a board of a special-purpose integrated circuit (ASIC) intended for packet switching with a board of a computational module, made with the possibility of constructive connection and providing an interface between the board of a computational module and an ASIC board intended for switching traffic and routing packets, while the board connecting contains debug interfaces made with the ability to connect external devices to ensure debugging and testing of the computational module board; USB interface capable of connecting external USB devices; video interface capable of connecting external video devices; a network interface capable of connecting external network devices; Com Express Type 6 connector, which can be connected to the Com Express Type 6 connector of the computational module board based on the Elbrus-1C + processor; a connecting connector containing 120 pins and capable of being connected to a connecting connector containing 120 pins of an ASIC board capable of supporting the 100 GbE standard and intended for packet switching; solid-state drives with installed software (software), which ensures the operation of all components of the connection board; at the same time, debug interfaces, USB interface, video interface, network interface, Com Express Type 6 connector, connecting connector containing 120 pins, and solid-state drives are interconnected by assembly operations and are in functional and constructive unity. The technical result consists in providing the possibility of interfacing two complex boards - a processor board and an ASIC board with the ability to support the 100 GbE standard without upgrading them, while providing the ability to debug and test at the development stage through debug interfaces.

Description

Technology area:

[0001] The utility model relates to the field of computing, intended, in particular, for connecting devices of a central processing unit and a device for switching packets and transferring information or other signals between these devices.

Vehicle tier:

[0002] Currently, there are many connectors. One example of such solutions is the network adapter with the function of switching between network ports, described in solution US 10454991 B1. This solution provides a network interface device that includes a host interface for connecting to a host processor and a network interface that is configured to send and receive data packets over the network and that contains several separate physical ports for connecting to the network. The processing circuitry is configured to receive a data packet from the network through one of the physical ports and decide, in response to the destination identifier in the packet, whether to deliver the data packet payload to the host processor via the host interface or forward the data packet to the network via another physical port. When hosts are chained together via network adapters, the port selection determines whether packets are sent directly to a switch on the network or forwarded to the next host in the chain.

[0003] However, the known solution has disadvantages. Among the disadvantages of the known solution is the lack of the ability to provide a separate riser board with debug interfaces, with which it is possible to connect the processor board and the ASIC board, with the ability to support the 100 GbE standard. Moreover, the known solution does not provide the ability to debug and test at the development stage through debug interfaces.

Utility model disclosure:

[0004] The task of the invention is to eliminate the above disadvantages.

[0005] The technical result in this case is to provide the possibility of interfacing two complex boards - a processor and an ASIC board with the ability to support the 100 GbE standard without upgrading them, while providing the ability to debug and test at the development stage through debug interfaces.

[0006] To achieve this technical result, a connection board is proposed for interfacing a board of a special purpose integrated circuit (ASIC) intended for packet switching with a computing module board, configured to constructively connect and provide an interface between the computing module board and the ASIC board intended for traffic switching and packet routing, while the connection board contains debug interfaces made with the ability to connect external devices to ensure debugging and testing of the computing module board; USB interface capable of connecting external USB devices; video interface capable of connecting external video devices; a network interface capable of connecting external network devices; Com Express Type 6 connector, which can be connected to the Com Express Type 6 connector of the computational module board based on the Elbrus-1C + processor; a connecting connector containing 120 pins and capable of being connected to a connecting connector containing 120 pins of an ASIC board capable of supporting the 100 GbE standard and intended for packet switching; solid-state drives with installed software (software), which ensures the operation of all components of the connection board; at the same time, debug interfaces, USB interface, video interface, network interface, Com Express Type 6 connector, connecting connector containing 120 pins, and solid-state drives are interconnected by assembly operations and are in functional and constructive unity.

[0007] Additionally, the external device is a solid state drive.

[0008] Additionally, the external device is a non-volatile power supply.

[0009] Additionally, the external USB device is a USB storage device.

[0010] Obviously, both the previous general description and the following detailed description are given by way of example and explanation only and are not limitations of this invention.

Brief Description of Drawings

[0011] FIG. 1 is a schematic illustration of a connection board for interfacing a packet switching ASIC board with a computational module board.

Implementation of the utility model

[0012] A schematic diagram of a junction board 100 for interfacing the packet switching ASIC board 101 with the compute module board 102 is shown in FIG. 1. The board 100 connecting is made with the possibility of constructive connection and ensuring the interface of the board 102 of the computing module and the board 101 ASIC, intended for switching packet traffic.

[0013] The connection board 100 contains debug interfaces 103, USB interface 104, video interface 105, network interface 106, connector 107 Com Express Type 6, connector 108 connecting, containing 120 pins, and solid-state drives 111 with installed software (software ). It should be noted that debug interfaces 103, USB interface 104, video interface 105, network interface 106, Com Express Type 6 connector 107, connecting connector 108 containing 120 pins, and solid-state drives 111 are interconnected by assembly operations and are in a functional-constructive unity.

[0014] Debug interfaces 103 are configured to connect external devices to provide debugging and testing of the computing module board. External device 116 can be a solid state drive or non-volatile power supply.

[0015] The USB interface 104 is configured to connect external USB devices 113. Alternatively, the external USB device 113 may be a USB storage device. The presence of this interface also provides the ability to debug and test at the development stage (it is a commissioning interface), along with the ability to interface two complex boards - a processor board and an ASIC board with the ability to support the 100 GbE standard.

[0016] Video interface 105 is configured to connect external video devices 115. The presence of this interface also provides the ability to debug and test at the development stage (it is a commissioning interface), along with the ability to interface two complex boards - the processor and ASIC boards with the ability to support the 100 GbE standard.

[0017] The network interface 106 is configured to connect external network devices 114. The presence of this interface also provides the ability to debug and test at the development stage (it is a commissioning interface), along with the ability to interface two complex boards - a processor board and an ASIC board with the ability to support the standard 100 GbE.

[0018] The Com Express Type 6 connector 108 is adapted to be connected to the Com Express Type 6 connector 110 of the computing module board 102 based on the Elbrus-1C + processor. The presence of this connector provides the interface of two complex boards - a processor board and an ASIC board with the ability to support the 100 GbE standard, along with the ability to debug and test (compute module boards) at the development stage.

[0019] The connecting connector 107 contains 120 pins and is configured to be connected to the connecting connector 109 containing 120 pins of the ASIC board 101, configured to support the 100 GbE standard and intended for packet switching. The presence of this connector provides the interface of two complex boards - a processor board and an ASIC board with the ability to support the 100 GbE standard, along with the ability to debug and test (compute module boards) at the development stage. The ASIC board 101 is configured to connect to a data transmission and reception network 112.

[0020] Solid-state drives 111 contain software installed on them, which ensures the operation of all components of the connection board 100.

[0021] Although this utility model has been shown and described with reference to certain embodiments thereof, those skilled in the art will understand that various changes and modifications can be made therein without leaving the actual scope of the utility model.

Claims (4)

1. Connection board for interfacing the board of a special purpose integrated circuit (ASIC) intended for packet switching with the board of the computational module, made with the possibility of constructive connection and ensuring the interfacing of the board of the computational module and the ASIC board, intended for switching traffic and routing of packets, when this connection board contains debug interfaces made with the ability to connect external devices to ensure debugging and testing of the computing module board; USB interface capable of connecting external USB devices; video interface capable of connecting external video devices; a network interface capable of connecting external network devices; Com Express Type 6 connector, which can be connected to the Com Express Type 6 connector of the computational module board based on the Elbrus-1C + processor; a connecting connector containing 120 pins and capable of being connected to a connecting connector containing 120 pins of an ASIC board capable of supporting the 100 GbE standard and intended for packet switching; solid-state drives with installed software (software), which ensures the operation of all components of the connection board; at the same time, debug interfaces, USB interface, video interface, network interface, Com Express Type 6 connector, connecting connector containing 120 pins, and solid-state drives are interconnected by assembly operations and are in functional and constructive unity. 2. Connection board according to claim. 1, characterized in that the external device is a solid-state drive. 3. Connection board according to claim 1, characterized in that the external device is a non-volatile power supply. 4. Connection board according to claim 1, characterized in that the external USB device is a USB storage device.

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