WO2016095656A1 - Microtca platform with business data separated from management data - Google Patents

Abstract

Disclosed is a micro telecommunications computing architecture (MicroTCA) platform with business data separated from management data. The MicroTCA platform is characterised in that: a MicroTCA carrier hub (MCH) and an advanced mezzanine card (AMC) are both provided with a data exchange control unit; the data exchange control unit comprises a Fabric exchange unit, a Base exchange unit and a processor unit, the processor unit being connected to the Fabric exchange unit and the Base exchange unit via two independent data exchange interfaces respectively; the Fabric exchange units and the Base exchange units in the data exchange control units of the MCH and the AMC are connected in one-to-one correspondence via a backboard to form a Fabric channel and a Base channel; and the MCH and the AMC perform business data exchange via the Fabric channel, and perform management data exchange via the Base channel. The present invention separates the business data from the management data physically via a business port and a management port so as to avoid mutual interference between the business data and the management data, thereby improving the reliability of a system. The present invention can be widely applied to the technical field of communications.

Description

 A MicroTCA platform for separating business data from management data

Technical field

The present invention relates to the field of communication technologies, and more particularly to a MicroTCA platform in which service data and management data are separated.

Background technique

MicroTCA (Micro Telcommunicatios Computing Architecture, small telecommunications and computing common hardware platform architecture) platform with a fully modular design, Figure 1 For the overall structure diagram of MicroTCA, as shown in Figure 1, the MicroTCA platform mainly includes a power module (PM) and a switching management module (MicroTCA). Carrier Hub, MCH), Cooling Unit (CU), General Service Module (Advanced Mezzanine Card) , AMC), high-speed backplane and frame. The power module PM and the switch management module MCH can be configured with 1 or 2 blocks according to user requirements. The backplane can be customized according to the needs of users. The general service module AMC can be configured with up to 12 blocks.

Power Module PM: Provides 12V and 3.3V operating voltages required by each board in the platform, and Enhanced Module Management Controller in MicroTCA (Enhanced Management) Controller, EMMC) cooperates with the MicroTCA Bearer Management Controller in the MCH of the Switch Management Module (MicroTCA Carrier Manager) The controller, MCMC) manages the power of the entire platform, and implements management of the power management module PM and the cooling unit CU by the switching management module MCH.

The exchange management module MCH: provides the exchange management function for the intelligent management and service data of each board in the platform, and can simultaneously interconnect and manage the AMC modules of up to 12 general service modules; and the modules in the common service module AMC Management controller The controller (MMC) implements the monitoring function of the AMC of the general service module to which it is attached, and cooperates with the bearer management controller MCMC to complete the maintenance and management of the carrier board. General Service Module AMC: The industry-proven AMC module can be used to develop service boards with different functions according to requirements. The backplane provides slots for the power board, switch management module MCH board and general service module AMC board, supporting single-star and double-star. Type (dual standby) structure; chassis: standard chassis for each board; cooling unit CU: provides heat dissipation for each service board. Currently, the data on the service side and the management side of the MicroTCA platform are not completely isolated. The data on the service side can attack the data on the management side, and one network breaks through the two networks.

Summary of the invention

In order to solve the above technical problems, an object of the present invention is to provide a MicroTCA platform in which service data and management data are separated.

The technical solution adopted by the present invention is: a MicroTCA platform in which service data and management data are separated, wherein the platform includes a switching control module MCH and a general service module AMC;

The switching control module MCH includes a bearer management controller MCMC,

The universal service module AMC includes a module management controller MMC and a service switching module;

The exchange control module MCH and the universal service module AMC are each provided with a data exchange control unit;

The data exchange control unit includes a fabric switching unit, a base switching unit, and a processor unit.

The processor unit is respectively connected to the fabric exchange unit and the base switching unit;

The Base switching unit in the switching control module MCH is connected to the bearer management controller MCMC;

The base switching unit of the common service module AMC is connected to the module management controller MMC, and the fabric switching unit is connected to the service switching module;

The switch control module MCH and the data exchange control unit in the data exchange control unit of the common service module AMC are connected in a one-to-one correspondence through the backplane to form a fabric channel and a base channel;

The switching control module MCH and the universal service module AMC exchange service data through the fabric channel and perform management data exchange through the Base channel.

Preferably, the processor in the data exchange control unit of the switching control module MCH is connected to the fabric switching unit and the base switching unit through two independent data switching interfaces.

The processor in the data exchange control unit of the exchange control module MCH is a CPU, and the fabric exchange unit is GE/SRIO/PCIE. The switch and the local switching unit are GE switches.

Preferably, the processor in the data exchange control unit of the general service module AMC is connected to the fabric switching unit and the base unit through a GE interface.

The processor in the data exchange control unit of the general service module AMC is a CPU, and the fabric exchange unit is GE/SRIO/PCIE. The switch and the local switching unit are GE switches.

The beneficial effects of the invention are:

The MicroTCA platform in which the service data and the management data are separated is physically separated by the service port and the management interface, so that the service data and the management data do not interfere with each other, and the service network fails, and the management network configuration fails. The management data is more secure; the exchange control module MCH provides two independent switching layers, hierarchical control management, and each layer has an independent logical relationship and control system, which improves system reliability.

DRAWINGS

The specific embodiments of the present invention are further described below in conjunction with the accompanying drawings:

Figure 1 is a schematic diagram of the overall structure of the MicroTCA;

2 is a schematic structural diagram of a specific embodiment of a MicroTCA platform in which service data and management data are separated according to the present invention;

3 is a schematic structural diagram of an embodiment of a data exchange control unit of an exchange control module MCH;

4 is a schematic structural diagram of an embodiment of a data exchange control unit of a general service module AMC;

FIG. 5 is a schematic structural diagram of a connection between a switch control module MCH and a general service module AMC.

detailed description

The principles and features of the invention are described below in conjunction with the accompanying drawings, which are intended to illustrate the invention and not to limit the scope of the invention.

2 is a schematic structural diagram of a specific embodiment of a MicroTCA platform in which service data and management data are separated according to the present invention; as shown in FIG. 2, the present invention provides a MicroTCA platform in which service data and management data are separated, and the platform includes a switching control module MCH. And the general service module AMC; wherein the switch control module MCH includes a bearer management controller MCMC, the general service module AMC includes a module management controller MMC, a service switching module; the exchange control module MCH and the general service module AMC are both provided with a data exchange control unit The data exchange control unit includes a fabric switching unit (data plane switching unit for mass data communication exchange), a Base switching unit (control plane switching unit, packet switching for network management), a processor unit, and a processor unit through two The independent data exchange interfaces are connected to the fabric switching unit and the base switching unit respectively. The Base switching unit in the switching control module MCH is connected to the bearer management controller MCMC. The common switching module of the common service module AMC is connected to the module management controller MMC and fabric exchange. The unit is connected to the service switching module;

The switch control unit MCH and the data exchange control unit in the data exchange control unit of the common service module AMC are connected in a one-to-one correspondence through the backplane to form a fabric channel and a base channel;

The fabric switching interface of the switching control module MCH is connected to the service port. The switching control module MCH and the general service module AMC exchange service data through the fabric channel. The base switching unit of the switching control module MCH is connected to the management interface, the switching control module MCH and the general service module AMC. Management data is exchanged through the Base channel. The service port is used by the user. The management port is used by the system administrator. The system administrator can monitor the status of the service port and the management port. If the service port is abnormal, the service port can be reconfigured through the processor unit. Cut off the business port.

3 is a structural block diagram of an embodiment of a data exchange control unit of a switch control module MCH; a switch control module MCH module is a core switch module in a MicroTCA platform, and a processor in a data exchange control unit of a switch control module MCH passes through 2 The independent data exchange interface is connected to the fabric switching unit and the base switching unit. In this embodiment, the processor in the data exchange control unit of the switching control module MCH is the CPU, and the fabric switching unit is GE/SRIO/PCIE. The GE switch is used on the Switch (network port/SRIO interface/PCIE interface switching control unit) and the base switching unit. GE /SRIO/PCIE Switch, GE The two switching platforms of Switch are bridged by CPU, and the CPU uses two independent data exchange interfaces to interface with two independent switches. The communication between the two independent switches needs to be implemented by the CPU and cannot be directly communicated. The switching control module MCH provides two independent switching layers for the general service module AMC, and the two switching platforms are fully connected to the service data through the CUP bridge. Management data is separated and management data is more secure. The exchange management module MCH can simultaneously perform interconnection and management between a maximum of 12 general service module AMC modules; in this embodiment, the GE/SRIO/PCIE in the exchange management module MCH Both the Switch and GE Switch interface control units are configured with 12 interfaces for connecting to the AMC module of the general service module.

4 is a schematic structural diagram of an embodiment of a data exchange control unit of a general service module AMC. As shown in FIG. 4, a general service module AMC module user can customize a function. In this embodiment, a data exchange control of a general service module AMC is provided. The processor in the unit is connected to the fabric switching unit and the base unit through the GE interface. The processor in the data exchange control unit of the AMC is the CPU and the fabric switching unit is GE/SRIO/PCIE. The SWTICH and the Base switching unit are GE switches; the service interface module converts the service data into a packet that can be recognized by the switching layer, by GE/SRIO/PCIE. The Switch is aggregated and sent to the switching control module MCH for exchange and then sent to the service network for processing. The switching management module MCH in the MicroTCA platform can be configured with 1 or 2 blocks according to user requirements. In this embodiment, GE/SRIO/PCIE in the general service module AMC. Both interface switches and GE Switch interface control units are configured with two interfaces for connecting to the switch management module MCH.

FIG. 5 is a schematic structural diagram of a connection between a switch control module MCH and a general service module AMC. As shown in FIG. 3, FIG. 4 and FIG. 5, the switch control module MCH module in the MicroTCA platform of the present invention provides two independent exchange planes to implement service data and management data. Separation, layered control management, each layer has an independent logic management and control system to improve system reliability, the management side can monitor the status of the business, and find an abnormality can take emergency shutdown measures to prevent external malicious data attacks, so that The system is safer and more convenient to operate.

The above is a detailed description of the preferred embodiments of the present invention, but the present invention is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the invention. Equivalent variations or substitutions are intended to be included within the scope of the appended claims.

Claims (3)

1. A MicroTCA platform in which service data and management data are separated, wherein the platform comprises a switching control module MCH and a general service module AMC; wherein

   The switching control module MCH includes a bearer management controller MCMC,

   The universal service module AMC includes a module management controller MMC and a service switching module;

   The exchange control module MCH and the universal service module AMC are each provided with a data exchange control unit;

   The data exchange control unit includes a fabric switching unit, a base switching unit, and a processor unit.

   The processor unit is respectively connected to the fabric exchange unit and the base switching unit;

   The Base switching unit in the switching control module MCH is connected to the bearer management controller MCMC;

   The base switching unit of the common service module AMC is connected to the module management controller MMC, and the fabric switching unit is connected to the service switching module;

   The switch control module MCH and the data exchange control unit in the data exchange control unit of the common service module AMC are connected in a one-to-one correspondence through the backplane to form a fabric channel and a base channel;

   The switching control module MCH and the universal service module AMC exchange service data through the fabric channel and perform management data exchange through the Base channel.
2. A MicroTCA platform for separating service data and management data according to claim 1, wherein: The processor in the data exchange control unit of the switching control module MCH is connected to the fabric switching unit and the base switching unit through two independent data switching interfaces.

   The processor in the data exchange control unit of the exchange control module MCH is a CPU, and the fabric exchange unit is GE/SRIO/PCIE. The switch and the local switching unit are GE switches.
3. The MicroTCA platform in which the service data and the management data are separated according to claim 1 or 2, wherein the processor in the data exchange control unit of the general service module AMC and the fabric exchange unit are respectively connected through the GE interface. Base unit connection;

   The processor in the data exchange control unit of the general service module AMC is a CPU, and the fabric exchange unit is GE/SRIO/PCIE. The switch and the local switching unit are GE switches.