MX480 Host Subsystem Description
MX480 Host Subsystem LEDs
MX480 Midplane Description
MX480 Routing Engine Description
MX480 Routing Engine LEDs
RE-S-1800 Routing Engine Description
RE-S-1800 Routing Engine LEDs
RE-S-X6-64G Routing Engine Description
RE-S-X6-64G Routing Engine LEDs
RE-S-X6-128G Routing Engine Description
RE-S-X6-128G-K Routing Engine Description
RE-S-X6-128G-LT Routing Engine Description
Routing Engine Specifications
Supported Routing Engines by Router

MX480 Host Subsystem

MX480 Host Subsystem Description

The host subsystem provides the routing and system management functions of the router. You can install one or two host subsystems on the router. Each host subsystem functions as a unit; the Routing Engine must be installed directly into the Switch Control Board.

Note:

We recommend that you install two host subsystems for redundant protection. If you install only one host subsystem, we recommend that you install it in slot 0.

Each host subsystem has three LEDs that display its status. The host subsystem LEDs are located in the middle of the craft interface.

MX480 Host Subsystem LEDs

Each host subsystem has three LEDs that display its status. The host subsystem LEDs are located on the upper left of the craft interface. For more information, see Host Subsystem LEDs on the MX480 Craft Interface.

MX480 Midplane Description

The midplane is located toward the rear of the chassis and forms the rear of the card cage (see Figure 1). The line cards and SCBs install into the midplane from the front of the chassis, and the power supplies install into the midplane from the rear of the chassis. The cooling system components also connect to the midplane.

The midplane performs the following major functions:

Data path—Data packets are transferred across the midplane between the line cards through the fabric ASICs on the SCBs.
Power distribution—The router power supplies connect to the midplane, which distributes power to all the router components.
Signal path—The midplane provides the signal path to the line cards, SCBs, Routing Engines, and other system components for monitoring and control of the system.

Figure 1: Midplane

MX480 Routing Engine Description

The Routing Engine is an Intel-based PC platform that runs Junos OS. Software processes that run on the Routing Engine maintain the routing tables, manage the routing protocols used on the router, control the router interfaces, control some chassis components, and provide the interface for system management and user access to the router.

You can install one or two Routing Engines in the router. The Routing Engines install into the front of the chassis in horizontal slots in the SCBs labeled 0 and 1. If two Routing Engines are installed, one functions as the primary and the other acts as the backup. If the primary Routing Engine fails or is removed, and the backup is configured appropriately, the backup takes over as the primary.

The Routing Engines are hot-pluggable. Each Routing Engine must be installed directly into an SCB. A USB port on the Routing Engine accepts a USB memory card that allows you to load Junos OS. Figure 2 shows RE-S-1800 Routing Engine and Figure 3 shows the RE-S-X6-64G Routing Engine.

Figure 2: RE-S-1800 Routing Engine

Figure 3: RE-S-X6-64G Routing Engine Front View

1 — Extractor clips	6 — ONLINE/OFFLINE Button
2 — Auxiliary port (AUX)	7 — SSD LEDs—DISK1 and DISK2
3 — Console port (Con)	8 — Ports—USB1 and USB2
4 — Management port (MGMT)	9 — RESET Button
5 — LEDs—ONLINE, OK/FAIL, and MASTER	10 — SSD card slot cover

Figure 4: RE-S-X6-64G-LT Routing Engine Front View

1 — Extractor clips	6 — ONLINE/OFFLINE Button
2 — Auxiliary port (AUX)	7 — SSD LEDs—DISK1 and DISK2
3 — Console port (Con)	8 — Ports—USB1 and USB2
4 — Management port (MGMT)	9 — RESET Button
5 — LEDs—ONLINE, OK/FAIL, and MASTER	10 — SSD card slot cover

Routing Engine Components
Routing Engine Interface Ports
Routing Engine Boot Sequence

Routing Engine Components

Note:

For specific information about Routing Engine components (for example, the amount of DRAM), issue the show vmhost hardware command.

Routing Engine Interface Ports

Three ports, located on the right side of the Routing Engine, connect the Routing Engine to one or more external devices on which system administrators can issue Junos OS command-line interface (CLI) commands to manage the router.

The ports with the indicated labels function as follows:

AUX—Connects the Routing Engine to a laptop, modem, or other auxiliary device through a serial cable with an RJ-45 connector.
CONSOLE—Connects the Routing Engine to a system console through a serial cable with an RJ-45 connector.
ETHERNET or MGMT—Connects the Routing Engine through an Ethernet connection to a management LAN (or any other device that plugs into an Ethernet connection) for out-of-band management. The port uses an autosensing RJ-45 connector to support 10-Mbps or 100-Mbps connections. Two small LEDs on the right of the port indicate the connection in use: The LED on the left indicates speed—green for 1000-Mbps, yellow for 100-Mbps and when the LED is dark, it indicates 10-Mbps speed. The LED on the right indicates activity—flashing green when packets are passing through the port.

Routing Engine Boot Sequence

The Routing Engine boots from the storage media in this order: the USB device (if present), then the CompactFlash card, then the hard disk, then the LAN. The disk from which the router boots is called the primary boot device, and the other disk is the alternate boot device.

Note:

If the router boots from an alternate boot device, a yellow alarm lights the LED on the router’s craft interface.

Booting in a RE-S-X6-64G Routing Engine follows this sequence—the USB device, SSD1, SSD2, and LAN. SSD1 is the primary boot device. Boot sequence is tried twice for SSD1 and SSD2.

If the Routing Engines are configured for graceful switchover, the backup Routing Engine automatically synchronizes its configuration and state with the primary Routing Engine. Any update to the primary Routing Engine state is replicated on the backup Routing Engine. If the backup Routing Engine assumes primary role, packet forwarding continues through the router without interruption. For more information about graceful switchover, see the Junos OS Administration Library for Routing Devices.

Note:

If two Routing Engines are installed, they must both be the same hardware model.

MX480 Routing Engine LEDs

Each Routing Engine has four LEDs that indicate its status. The LEDs, labeled MASTER, HDD, ONLINE, and FAIL, are located directly on the faceplate of the Routing Engine. Table 1 and Table 2 describe the functions of the Routing Engine LEDs.

Figure 5: RE-S-1800 Routing Engine

Table 1: RE-S-1800 Routing Engine LEDs
Label	Color	State	Description
MASTER	Blue	On steadily	Routing Engine is the primary.
HDD	Green	Blinking	Indicates activity on the hard disk drive.
ONLINE	Green	Blinking	Routing Engine is transitioning online.
ONLINE	Green	On steadily	Routing Engine is functioning normally.
FAIL	Red	On steadily	Routing Engine has failed.

Routing Engine LEDs (RE-S-X6-64G)

Figure 6: RE-S-X6-64G Routing Engine LEDs

1 — ONLINE LED	4 — DISK2 LED
2 — OK/FAIL LED	5 — ONLINE/OFFLINE Button
3 — DISK1 LED	6 — MASTER LED

Table 2: Routing Engine LEDs (RE-S-X6-64G)
Label	Color	State	Description
ONLINE	Green	Blinking slowly	Routing Engine is in the process of booting BIOS, and the host OS.
	Green	Blinking rapidly	Routing Engine is in the process of booting Junos OS.
	-	Off	Routing Engine is not online or not functioning normally
DISK1	Green	Blinking	Indicates presence of the disk activity.
DISK1	-	Off	There is no disk activity.
DISK2	Green	Blinking	Indicates presence of the disk activity.
DISK2	-	Off	There is no disk activity.
OK/FAIL	Green	On steadily	Routing Engine is powering up.
OK/FAIL	Yellow	On steadily	Routing Engine is not powering up indicating failure.
MASTER	Blue	On steadily	This Routing Engine is the Primary Routing Engine.

RE-S-1800 Routing Engine Description

Figure 7 shows RE-S-1800 routing engine.

Figure 7: RE-S-1800 Front View

RE-S-1800 Routing Engine Components
RE-S-1800 Routing Engine LEDs
RE-S-1800 Routing Engine Boot Sequence

RE-S-1800 Routing Engine Components

Each Routing Engine consists of the following components:

CPU—Runs Junos OS to maintain the router's routing tables and routing protocols..
DRAM—Provides storage for the routing and forwarding tables and for other Routing Engine processes.
USB port—Provides a removable media interface through which you can install Junos OS manually. Junos OS supports USB version 1.0.
CompactFlash card—Provides primary storage for software images, configuration files, and microcode. The CompactFlash card is fixed and is inaccessible from outside the router.
Solid-state Drive (SSD)—Provides secondary storage for log files, memory dumps, and rebooting the system if the CompactFlash card fails.
Interface ports—The AUX, CONSOLE, and ETHERNET provide access to management devices. Each Routing Engine has one 10/100/1000-Mbps Ethernet port for connecting to a management network, and two asynchronous serial ports—one for connecting to a console and one for connecting to a modem or other auxiliary device.
EEPROM—Stores the serial number of the Routing Engine.
RESET button—Reboots the Routing Engine when pressed.
ONLINE/OFFLINE button—Takes the Routing Engine online or offline when pressed.
Extractor clips—Used for inserting and extracting the Routing Engine.
Captive screws—Secure the Routing Engine in place.

Note:

For specific information about Routing Engine components (for example, the amount of DRAM), issue the show chassis routing-engine command.

RE-S-1800 Routing Engine LEDs

Each Routing Engine has four LEDs that indicate its status. The LEDs, labeled MASTER, STORAGE, ONLINE, and OK/FAIL, are located directly on the faceplate of the Routing Engine. Table 3 describes the functions of the Routing Engine LEDs.

Table 3: Routing Engine LEDs
Label	Color	State	Description
MASTER	Blue	On steadily	Routing Engine is the Primary.
STORAGE	Green	Blinking	Indicates activity on the SSD or Compact Flash.
ONLINE	Green	Blinking	Routing Engine is transitioning online.
ONLINE	Green	On steadily	Routing Engine is functioning normally.
OK/FAIL	Red	On steadily	Routing Engine has failed.

RE-S-1800 Routing Engine Boot Sequence

The router is shipped with Junos OS preinstalled on the Routing Engine. There are three copies of software:

One copy on the CompactFlash card in the Routing Engine.
One copy on the hard disk in the Routing Engine.
One copy on a USB flash drive that can be inserted into the slot on the Routing Engine faceplate.

The Routing Engine boots from the storage media in this order: the USB device (if present), then the CompactFlash card, then the Solid State Disk (SSD), then the LAN. Normally, the router boots from the copy of the software on the CompactFlash card.

RE-S-1800 Routing Engine LEDs

Each Routing Engine has four LEDs that indicate its status. The LEDs, labeled MASTER, STORAGE, ONLINE, and OK/FAIL, are located directly on the faceplate of the Routing Engine. Table 4 describes the functions of the Routing Engine LEDs.

Table 4: Routing Engine LEDs
Label	Color	State	Description
MASTER	Blue	On steadily	Routing Engine is the Primary.
STORAGE	Green	Blinking	Indicates activity on the SSD or Compact Flash.
ONLINE	Green	Blinking	Routing Engine is transitioning online.
ONLINE	Green	On steadily	Routing Engine is functioning normally.
OK/FAIL	Red	On steadily	Routing Engine has failed.

RE-S-X6-64G Routing Engine Description

Figure 8 shows the Routing Engine.

Figure 8: RE-S-X6-64G Routing Engine Front View

1 — Extractor clips	6 — ONLINE/OFFLINE button
2 — Auxiliary port (AUX)	7 — SSD LEDs—DISK1 and DISK2
3 — Console port (CONSOLE)	8 — Ports—USB1 and USB2
4 — Management port (MGMT)	9 — RESET button
5 — LEDs—ONLINE, OK/FAIL, and MASTER	10 — SSD card slot cover

RE-S-X6-64G Routing Engine Components
RE-S-X6-64G Routing Engine Boot Sequence

RE-S-X6-64G Routing Engine Components

In routers with dual Routing Engines, both Routing Engines must be RE-S-X6-64G Routing Engines.

Each RE-S-X6-64G Routing Engine (shown in Figure 8) consists of the following components:

CPU—Runs Junos OS to maintain the routing tables and routing protocols.
EEPROM—Stores the serial number of the Routing Engine.
DRAM—Provides storage for the routing and forwarding tables and for other Routing Engine processes.
One 10-Gigabit Ethernet interface between the Routing Engine and Switch Control Board.
Two 50-GB slim solid-state drives—SSD1 (primary) and SSD2 (secondary)—Provide storage for software images, configuration files, microcode, log files, and memory dumps. The Routing Engine reboots from SSD2 when boot from primary SSD fails.
Two USB ports (USB1 and USB2)—Provide a removable media interface through which you can install Junos OS manually. The Junos OS supports USB versions 3.0, 2.0, and 1.1.
Interface ports—The AUX, CONSOLE, and MGMT provide access to management devices. Each Routing Engine has one 10/100/1000-Mbps Ethernet port for connecting to a management network, and two asynchronous serial ports—one for connecting to a console and one for connecting to a modem or other auxiliary device.
RESET button—Reboots the Routing Engine when pressed.
ONLINE/OFFLINE button—Brings the Routing Engine online or takes it offline when pressed.

Note:
The ONLINE/OFFLINE button must be pressed for a minimum of 4 seconds for the power off or power on to occur.
Extractor clips—Control the locking system that secures the Routing Engine.
LEDs—RE-S-X6-64G Routing Engine LEDs describes the functions of these LEDs.

Note:

For specific information about Routing Engine components (for example, the amount of DRAM), issue the show vmhost hardware command.

RE-S-X6-64G Routing Engine Boot Sequence

Booting in a RE-S-X6-64G Routing Engine follows this sequence—the USB device, SSD1, SSD2, LAN. SSD1 is the primary boot device. The boot sequence is tried twice for SSD1 and SSD2.

RE-S-X6-64G Routing Engine LEDs

Each Routing Engine has five LEDs that indicate its status. The LEDs—labeled MASTER, DISK1, DISK2, ONLINE, and OK/FAIL—are located on the faceplate of the Routing Engine. Table 5 describes the functions of the Routing Engine LEDs.

Figure 9: RE-S-X6-64G Routing Engine LEDs

1 — ONLINE LED	4 — DISK2 LED
2 — OK/FAIL LED	5 — ONLINE/OFFLINE button
3 — DISK1 LED	6 — MASTER LED

Table 5: RE-S-X6-64G Routing Engine LEDs
Label	Color	State	Description
ONLINE	Green	Blinking slowly	Routing Engine is in the process of booting BIOS, and the host OS.
	Green	Blinking rapidly	Routing Engine is in the process of booting Junos OS.
	-	Off	Routing Engine is not online or not functioning normally.
	Green	On steadily	Routing Engine has booted both JunOS and host OS.
DISK1	Green	Blinking	Indicates presence of disk activity.
DISK1	-	Off	There is no disk activity.
DISK2	Green	Blinking	Indicates presence of disk activity.
DISK2	-	Off	There is no disk activity.
OK/FAIL	Yellow	On steadily	Routing Engine is not powering up, which indicates failure.
MASTER	Blue	On steadily	This Routing Engine is the Primary Routing Engine.
MASTER	-	Off	This Routing Engine is the backup Routing Engine, if the ONLINE LED is solid green.

RE-S-X6-128G Routing Engine Description

Figure 10 shows the Routing Engine.

Figure 10: RE-S-X6-128G Routing Engine Front View

1 — Extractor clips	6 — ONLINE/OFFLINE button
2 — Auxiliary port (AUX)	7 — SSD LEDs—DISK1 and DISK2
3 — Console port (CONSOLE)	8 — Ports—USB1 and USB2
4 — Management port (MGMT)	9 — RESET button
5 — LEDs—ONLINE, OK/FAIL, and MASTER	10 — SSD card slot cover

RE-S-X6-128G Routing Engine Components
RE-S-X6-128G Routing Engine LEDs
RE-S-X6-128G Routing Engine Boot Sequence

RE-S-X6-128G Routing Engine Components

In routers with dual Routing Engines, both Routing Engines must be RE-S-X6-128G Routing Engines.

Each RE-S-X6-128G Routing Engine (shown in Figure 10) consists of the following components:

CPU—Runs Junos OS to maintain the routing tables and routing protocols.
EEPROM—Stores the serial number of the Routing Engine.
DRAM—Provides storage for the routing and forwarding tables and for other Routing Engine processes.
One 10-Gigabit Ethernet interface between the Routing Engine and Switch Control Board.
Two 200-GB slim solid-state drives—SSD1 (primary) and SSD2 (secondary)—Provide storage for software images, configuration files, microcode, log files, and memory dumps. The Routing Engine reboots from SSD2 when boot from primary SSD fails.
Two USB ports (USB1 and USB2)—Provide a removable media interface through which you can install Junos OS manually. The Junos OS supports USB versions 3.0, 2.0, and 1.1.
Interface ports—The AUX, CONSOLE, and MGMT provide access to management devices. Each Routing Engine has one 10/100/1000-Mbps Ethernet port for connecting to a management network, and two asynchronous serial ports—one for connecting to a console and one for connecting to a modem or other auxiliary device.
RESET button—Reboots the Routing Engine when pressed.
ONLINE/OFFLINE button—Brings the Routing Engine online or takes it offline when pressed.

Note:
The ONLINE/OFFLINE button must be pressed for a minimum of 4 seconds for the power off or power on to occur.
Extractor clips—Control the locking system that secures the Routing Engine.
LEDs—Table 6 describes the functions of these LEDs.

Note:

For specific information about Routing Engine components (for example, the amount of DRAM), issue the show vmhost hardware command.

RE-S-X6-128G Routing Engine LEDs

Each Routing Engine has five LEDs that indicate its status. The LEDs—labeled MASTER, DISK1, DISK2, ONLINE, and OK/FAIL—are located on the faceplate of the Routing Engine. Table 6 describes the functions of the Routing Engine LEDs.

Figure 11: RE-S-X6-128G Routing Engine LEDs

1 — ONLINE LED	4 — DISK2 LED
2 — OK/FAIL LED	5 — ONLINE/OFFLINE button
3 — DISK1 LED	6 — MASTER LED

Table 6: RE-S-X6-128G Routing Engine LEDs
Label	Color	State	Description
ONLINE	Green	Blinking slowly	Routing Engine is in the process of booting BIOS, and the host OS.
	Green	Blinking rapidly	Routing Engine is in the process of booting Junos OS.
	-	Off	Routing Engine is not online or not functioning normally.
DISK1	Green	Blinking	Indicates presence of disk activity.
DISK1	-	Off	There is no disk activity.
DISK2	Green	Blinking	Indicates presence of disk activity.
DISK2	-	Off	There is no disk activity.
OK/FAIL	Green	On steadily	Routing Engine is powering up.
OK/FAIL	Yellow	On steadily	Routing Engine is not powering up, which indicates failure.
MASTER	Blue	On steadily	This Routing Engine is the Primary Routing Engine.

RE-S-X6-128G Routing Engine Boot Sequence

Booting in a RE-S-X6-128G Routing Engine follows this sequence—the USB device, SSD1, SSD2, LAN. SSD1 is the primary boot device. The boot sequence is tried twice for SSD1 and SSD2.

RE-S-X6-128G-K Routing Engine Description

The RE-S-X6-128G-K is a Routing Engine integrated with Trusted Platform Module 2.0 (TPM 2.0). This Routing Engine is an upgrade to the RE-S-X6-128G-S. The key features of the RE-S-X6-128G-K include:

Digital cryptographic identity (also called device ID or DevID) embedded in the TPM2.0. The DevID helps the device provide its authenticity to the phone-home, bootstrap, or redirect server.
RFC 8572-based secure zero-touch provisioning (secure ZTP)

Figure 12 shows the Routing Engine.

Figure 12: RE-S-X6-128G-K Routing Engine Front View

1 — Extractor clips	6 — ONLINE/OFFLINE button
2 — Auxiliary port (AUX)	7 — Solid-state drive (SSD) LEDs—DISK1 and DISK2
3 — Console port (CONSOLE)	8 — USB Ports—1 and 2
4 — Management port (MGMT)	9 — RESET button
5 — LEDs—ONLINE, OK/FAIL, and MASTER	10 — SSD slot cover

RE-S-X6-128G-K Routing Engine Components
RE-S-X6-128G-K Routing Engine LEDs
RE-S-X6-128G-K Routing Engine Boot Sequence

RE-S-X6-128G-K Routing Engine Components

In routers with dual Routing Engines, you must install the RE-S-X6-128G-K in both Routing Engine slots.

Note:

The RE-S-X6-128G-K Routing Engine must be used with either SCBE2-MX or SCBE3-MX.

Each RE-S-X6-128G-K Routing Engine consists of the following components:

CPU—Runs Junos OS to maintain the routing tables and routing protocols.
EEPROM—Stores the serial number of the Routing Engine.
DRAM (128 GB)—Provides storage for the routing and forwarding tables and for other Routing Engine processes.
One 10-Gigabit Ethernet (10GbE) interface between the Routing Engine and Switch Control Board (SCB).
Two 200-GB slim SSDs—The SSD1 (primary) and SSD2 (secondary) solid-state drives provide storage for software images, configuration files, microcode, log files, and memory dumps. The Routing Engine reboots from SSD2 when boot from the primary SSD (SSD1) fails.
Two USB ports (1 and 2)—Provide a removable media interface through which you can install Junos OS manually. Junos OS supports USB versions 3.0, 2.0, and 1.1.
Interface ports—The AUX, CONSOLE, and MGMT ports provide access to management devices. Each Routing Engine has one 10/100/1000-Mbps Ethernet port for connecting to a management network. It also has two asynchronous serial ports—one for connecting to a console and another for connecting to a modem or other auxiliary device.
RESET button—Reboots the Routing Engine when pressed.
ONLINE/OFFLINE button—Brings the Routing Engine online or takes it offline when pressed.

Note:
You must keep the ONLINE/OFFLINE button pressed for a minimum of 4 seconds for the device to power off or power on.
Extractor clips—Control the locking system that secures the Routing Engine.
LEDs—Table 7 describes the functions of the LEDs on the RE-S-X6-128G-K Routing Engine.

Note:

For specific information about Routing Engine components (for example, the amount of DRAM), issue the show vmhost hardware CLI command.

RE-S-X6-128G-K Routing Engine LEDs

Each Routing Engine has five LEDs that indicate its status. You'll see the LEDs—labeled ONLINE, OK/FAIL, DISK1, DISK2, and MASTER— on the faceplate of the Routing Engine. Table 7 describes the functions of the Routing Engine LEDs.

Figure 13: RE-S-X6-128G-K Routing Engine LEDs

1 — ONLINE LED	4 — DISK2 LED
2 — OK/FAIL LED	5 — MASTER LED
3 — DISK1 LED

Table 7: RE-S-X6-128G-K Routing Engine LEDs
Label	Color	State	Description
ONLINE	Green	Blinking slowly	Routing Engine is in the process of booting BIOS and the host OS.
	Green	Blinking rapidly	Routing Engine is in the process of booting Junos OS.
	–	Off	Routing Engine is not online or not functioning normally.
DISK1	Green	Blinking	Indicates presence of disk activity.
DISK1	–	Off	No disk activity.
DISK2	Green	Blinking	Indicates presence of disk activity.
DISK2	–	Off	No disk activity.
OK/FAIL	Green	On steadily	Routing Engine is powering on.
OK/FAIL	Yellow	On steadily	Routing Engine is not powering on, which indicates failure.
MASTER	Blue	On steadily	This Routing Engine is the primary Routing Engine.

RE-S-X6-128G-K Routing Engine Boot Sequence

Booting in an RE-S-X6-128G-K Routing Engine follows this sequence—the USB device, SSD1, SSD2, LAN. SSD1 is the primary boot device. The Routing Engine tries the booting sequence twice for SSD1 and SSD2.

RE-S-X6-128G-LT Routing Engine Description

The RE-S-X6-128G-LT is an upgrade to the RE-S-X6-64G-LT.

Figure 14 shows the Routing Engine.

Figure 14: RE-S-X6-128G-LT Routing Engine Front View

1 — Extractor clips on either ends	6 — ONLINE/OFFLINE button
2 — Auxiliary port (AUX)	7 — Solid-state drive (SSD) LEDs—DISK1 and DISK2
3 — Console port (CONSOLE)	8 — USB Ports—1 and 2
4 — Management port (MGMT)	9 — RESET button
5 — LEDs—ONLINE, OK/FAIL, and MASTER	10 — SSD slot cover

RE-S-X6-128G-LT Routing Engine Components
RE-S-X6-128G-LT Routing Engine LEDs
RE-S-X6-128G-LT Routing Engine Boot Sequence

RE-S-X6-128G-LT Routing Engine Components

In routers with dual Routing Engines, you must install the RE-S-X6-128G-LT in both Routing Engine slots.

Note:

The RE-S-X6-128G-LT Routing Engine must be used with either SCBE2-MX or SCBE3-MX.

Each RE-S-X6-128G-LT Routing Engine consists of the following components:

CPU—Runs Junos OS to maintain the routing tables and routing protocols.
EEPROM—Stores the serial number of the Routing Engine.
DRAM (128 GB)—Provides storage for the routing and forwarding tables and for other Routing Engine processes.
One 10-Gigabit Ethernet (10GbE) interface between the Routing Engine and Switch Control Board (SCB).
Two 200-GB slim SSDs—The SSD1 (primary) and SSD2 (secondary) solid-state drives provide storage for software images, configuration files, microcode, log files, and memory dumps. The Routing Engine reboots from SSD2 when boot from the primary SSD (SSD1) fails.
Two USB ports (1 and 2)—Provide a removable media interface through which you can install Junos OS manually. Junos OS supports USB versions 3.0, 2.0, and 1.1.
Interface ports—The AUX, CONSOLE, and MGMT ports provide access to management devices. Each Routing Engine has one 10/100/1000-Mbps Ethernet port for connecting to a management network. It also has two asynchronous serial ports—one for connecting to a console and another for connecting to a modem or other auxiliary device.
RESET button—Reboots the Routing Engine when pressed.
ONLINE/OFFLINE button—Brings the Routing Engine online or takes it offline when pressed.

Note:
You must keep the ONLINE/OFFLINE button pressed for a minimum of 4 seconds for the device to power off or power on.
Extractor clips—Two clips at either end of the routing engine, controls the locking system that secures the Routing Engine.
LEDs—Figure 15 describes the functions of the LEDs on the RE-S-X6-128G-LT Routing Engine.

Note:

For specific information about Routing Engine components (for example, the amount of DRAM), issue the show vmhost hardware CLI command.

RE-S-X6-128G-LT Routing Engine LEDs

Each Routing Engine has five LEDs that indicate its status. You'll see the LEDs—labeled ONLINE, OK/FAIL, DISK1, DISK2, and MASTER— on the faceplate of the Routing Engine. Figure 15 describes the functions of the Routing Engine LEDs.

Figure 15: RE-S-X6-128G-LT Routing Engine LEDs

1 — ONLINE LED	4 — DISK2 LED
2 — OK/FAIL LED	5 — MASTER LED
3 — DISK1 LED

Table 8: RE-S-X6-128G-LT Routing Engine LEDs
Label	Color	State	Description
ONLINE	Green	Blinking slowly	Routing Engine is in the process of booting BIOS and the host OS.
	Green	Blinking rapidly	Routing Engine is in the process of booting Junos OS.
	–	Off	Routing Engine is not online or not functioning normally.
DISK1	Green	Blinking	Indicates presence of disk activity.
DISK1	–	Off	No disk activity.
DISK2	Green	Blinking	Indicates presence of disk activity.
DISK2	–	Off	No disk activity.
OK/FAIL	Green	On steadily	Routing Engine is powering on.
OK/FAIL	Yellow	On steadily	Routing Engine is not powering on, which indicates failure.
MASTER	Blue	On steadily	This Routing Engine is the primary Routing Engine.

RE-S-X6-128G-LT Routing Engine Boot Sequence

Booting in an RE-S-X6-128G-LT Routing Engine follows this sequence—the USB device, SSD1, SSD2, LAN SSD1 is the primary boot device. The Routing Engine tries the booting sequence twice for SSD1 and SSD2.

Routing Engine Specifications

Table 9 lists the current specifications for Routing Engines supported on M Series, MX Series, and T Series routers. Table 10 lists the hardware specifications of the Routing Engines with VMHost support. Table 11 lists the specifications for end-of-life Routing Engines.

Note:

For a list of the routing engines that are supported on the M Series, MX Series, T Series, and PTX routers, see Supported Routing Engines by Router.

Table 9: Routing Engine Specifications
Routing Engine	Processor	Memory	Connection to PFEs	Disk	Media	First Junos OS Support	Switch Control Board
RE-400-768	400-MHz Celeron	768 MB	Fast Ethernet	40 GB hard disk	1 GB CompactFlash card	9.0	–
RE-A-1000-2048	1.0-GHz Pentium	2048 MB	Gigabit Ethernet	40 GB hard disk	1 GB CompactFlash card	8.1	–
RE-A-2000-4096	2.0-GHz Pentium	4096 MB	Gigabit Ethernet	40 GB hard disk	1 GB CompactFlash card	8.1	–
RE-S-1300-2048	1.3-GHz Pentium	2048 MB	Gigabit Ethernet	40 GB hard disk	1 GB CompactFlash card	8.2	SCB, SCBE
RE-S-2000-4096	2.0-GHz Pentium	4096 MB	Gigabit Ethernet	40 GB hard disk	1 GB CompactFlash card	8.2	SCB, SCBE
RE-C1800	1.8-GHz	8 GB	Gigabit Ethernet	SSD	4 GB CompactFlash card	T1600 router in a routing matrix: 9.6R2 Standalone T640 or T1600 router:11.2	CB-T for a standalone router. CB-LCC for a router in a routing matrix.
RE-C1800	1.8 Ghz	16 GB	Gigabit Ethernet	SSD	4 GB CompactFlash card	32-bit Junos OS on a standalone T1600 router: 11.4R2 32-bit Junos OS on a T1600 router in a routing matrix: 11.4R2 64-bit Junos OS on a standalone T1600 router: 11.4R2 64-bit Junos OS on a T1600 router in a routing matrix: 11.4R2	CB-T for a standalone router. CB-LCC for a router in a routing matrix.
RE-C2600	2.6-GHz	16 GB	Gigabit Ethernet	SSD	4 GB CompactFlash card	TX Matrix Plus router: 9.6R2	–
RE-A-1800x2	1800-MHz	8 GB or 16 GB	Gigabit Ethernet	32 GB SSD	4 GB CompactFlash card	10.4	–
RE-S-1800x2	1800-MHz	8 GB or 16 GB	Gigabit Ethernet	32 GB SSD	4 GB CompactFlash card	10.4	SCB, SCBE, SCBE2, SCBE3
RE-S-1800x4	1800-MHz	8GB or 16 GB	Gigabit Ethernet	32 GB SSD	4 GB CompactFlash card	10.4	SCB, SCBE, SCBE2, SCBE3
RE-S-MX104	1.8-GHz	4 GB	Gigabit Ethernet	–	8 GB NAND Flash	13.2	–
RE-B-1800x1-4G	1.73-GHz	4 GB	Gigabit Ethernet	64 GB SSD	4 GB CompactFlash card	12.1R2, 11.4R4, and 12.2R1	–
RE-MX2000-1800x4	1.8- GHz	16 GB	Gigabit Ethernet	32 GB SSD	4 GB Fixed Internal CompactFlash card	12.3R2	SFB
RE-S-1800X4-32G-S	1.8- Ghz	32 GB	Gigabit Ethernet	32 GB SSD	4 GB Fixed Internal CompactFlash card	12.3R4 13.2R1	SCB, SCBE, SCBE2, SCBE3
REMX2K-1800-32G-S	1.8- Ghz	32 GB	Gigabit Ethernet	32 GB SSD	4GB Fixed Internal CompactFlash card	12.3R4 13.2R1	–
RE-S-X6-64G, RE-S-X6-64G-LT	2 Ghz	64 GB	Gigabit Ethernet	Two 50-GB SSDs	-	15.1F4 and 16.1 (RE-S-X6-64G) 17.2R1 (RE-S-X6-64G-LT)	SCBE2, SCBE3
REMX2K-X8-64G	2 Ghz	64 GB	Gigabit Ethernet	Two 100-GB SSDs	-	15.1F5-S1, 16.1R2, and 16.2R1	–
REMX2K-X8-64G-LT	2 Ghz	64 GB	Gigabit Ethernet	Two 100-GB SSDs	-	17.2R1	–
REMX2008-X8-64G	2.3 Ghz	64 GB	Gigabit Ethernet	Two 50-GB SSDs	–	15.1F7	–
RE-S-1600x8	1.6 Ghz	64 GB	Gigabit Ethernet	Two 50-GB SSDs	–	17.3R1	–
REMX2008-X8-64G-LT	2.1 Ghz	64 GB	Gigabit Ethernet	Two 100-GB SSDs	-	17.2R1	-
REMX2008-X8-128G	2.3 Ghz	128 GB	Gigabit Ethernet	Two 200-GB SSDs	-	18.2R1	-
RE-S-X6-128G	2.0 Ghz	128 GB	Gigabit Ethernet	Two 200-GB SSDs	-	18.1R1 (SCBE2) 18.4R1 (SCBE3)	SCBE2, SCBE3
RE-S-X6-128G-K	2.0 Ghz	128 GB	Gigabit Ethernet	Two 200-GB SSDs	-	22.2R1S2	SCBE2, SCBE3
REMX2K-X8-128G	REMX2K-X8-128G	128 GB	Gigabit Ethernet	Two 200-GB SSDs	-	18.1R1	-
JNP10003-RE1	1.6-GHz	64 GB	Gigabit Ethernet	Two 100 GB SSDs	-	17.3R1	-
JNP10003-RE1-LT	1.6-GHz	64 GB	Gigabit Ethernet	Two 100 GB SSDs	-	18.1R1	-
JNP10K-RE0	2.5 GhZ	32 GB	Gigabit Ethernet	Two 50 GB SSDs	-	17.2R1	-
JNP10K-RE1	2.3 GhZ	64 GB	Gigabit Ethernet	Two 200 GB SSDs	-	18.2R1	-
JNP10K-RE1-LT	2.3 GhZ	64 GB	Gigabit Ethernet	Two 200 GB SSDs	-	18.3R1	-
JNP10K-RE1-128	2.3 GhZ	128 GB	Gigabit Ethernet	Two 200 GB SSDs	-	18.3R1	-

Note:

Use shielded CAT5e, CAT6, or CAT7 cables for connecting the AUX, CONSOLE, and MGMT ports in RE-S-X6-64G, REMX2K-X8-64G, and REMX2008-X8-64G Routing Engines.

Table 10 lists the hardware specifications of the Routing Engines with VMHost support.

Table 10: Hardware Specifications of the RE-MX-X6, RE-MX-X8, RE-PTX-X8, RCBPTX, RE-QFX10002-60C, and RE-PTX10002-60C Routing Engines
Model Number	Supported on Device	Specifications
RE-S-X6-64G	MX240, MX480, and MX960	6-core Haswell CPU Wellsburg PCH-based Routing Engine with 64-GB DRAM and two 50-GB solid-state drives (SSDs)
RE-S-X6-128G	MX240, MX480, and MX960	6-core Haswell CPU Wellsburg PCH-based Routing Engine with 128-GB DRAM and two 200-GB solid-state drives (SSDs)
REMX2K-X8-64G	MX2020 and MX2010	8-core Haswell CPU Wellsburg PCH-based Routing Engine with 64-GB DRAM and two 100-GB SSDs
RE-PTX-X8-64G	PTX5000	8-core Haswell CPU Wellsburg PCH-based Routing Engine with 64-GB DRAM and two 50-GB SSDs New Control Board CB2-PTX
RCB-PTX-X6-32G	PTX3000	Wellsburg PCH-based Routing Engine with 64-GB DRAM and two 100-GB SSDs Multi-core Haswell CPU RCB combines the functionality of a Routing Engine, Control Board, and Centralized Clock Generator (CCG)
RE-S-1600x8	MX10003	High-performance 1.6-GHz Intel 8 Core X86 CPU 64-GB DDR4 RAM 100-GB SATA SSD
RE-S-1600x8	MX204	High-performance 1.6-GHz Intel 8 Core X86 CPU 32-GB DDR4 RAM 100-GB SATA SSD
JNP304-RE-S	MX304	8-core, Intel Icelake Based Multicore Processor CPU 128-GB of DRAM Two 200-GB SATA SSD
RE-QFX10002-60C	QFX10002-60C	High-performance 1.6-GHz Intel 8 Core X86 CPU 32-GB DDR4 RAM Two 50-GB SATA SSD
RE-PTX10002-60C	PTX10002-60C	High-performance 1.6-GHz Intel 8 Core X86 CPU 32-GB DDR4 RAM Two 50-GB SATA SSD
RE-ACX-5448	ACX5448	High-performance 1.6-GHz Intel 8 Core X86 CPU 32-GB two DIMM DRAM Two 100-GB SATA SSD
RE-X10	MX10008	High-performance 1.6-GHz Intel 10 Core X86 CPU 64-GB DDR4 RAM Two 200-GB SATA SSD

Table 11: End-of-Life Routing Engine Specifications
Routing Engine	Processor	Memory	Connection to PFEs	Disk	Media	First Junos OS Support	EOL Details
RE-333-256	333-MHz Pentium II	256 MB	Fast Ethernet	6.4 GB hard disk	80 MB CompactFlash card	3.4	PSN-2003-01-063
RE-333-768	333-MHz Pentium II	768 MB	Fast Ethernet	6.4 GB hard disk	80 MB CompactFlash card	3.4	PSN-2003-01-063
RE-600-512	600-MHz Pentium III	512 MB	Fast Ethernet	30 GB hard disk	256 MB CompactFlash card	5.4	PSN-2004-07-019
RE-600-2048	600-MHz Pentium III	2048 MB	Fast Ethernet	40 GB hard disk	1 GB CompactFlash card	5.3	PSN-2008-02-018
RE-850-1536	850-MHz Pentium III	1536 MB	Fast Ethernet	40 GB hard disk	1 GB CompactFlash card	7.2	PSN-2011-04-226
RE-M40	200-MHz Pentium	256 MB	Fast Ethernet	6.4 GB hard disk	80 MB CompactFlash card	3.2	FA-HW-0101-001
RE-M40-333-768	333-MHz Pentium II	768 MB	Fast Ethernet	10 GB hard disk	80 MB CompactFlash card	4.2	PSN-2003-01-063
RE-M40-600-2048	600-MHz Pentium III	2048 MB	Fast Ethernet	30 GB hard disk	128 MB CompactFlash card	5.4	PSN-2004-11-020
RE-1600-2048	1.6-GHz Pentium M	2048 MB	Gigabit Ethernet	40 GB hard disk	1 GB CompactFlash card	6.2	PSN-2008-02-019

Note:

The memory in Table 9 indicates the amount of total memory. To determine the amount of available memory, issue the show chassis routing-engine CLI command.

On routers that accept two Routing Engines, you cannot mix Routing Engine types except for a brief period (one minute or so) during an upgrade or downgrade to two Routing Engines of the same type.

Supported Routing Engines by Router

The following tables list the Routing Engines that each router supports, the first supported release for the Routing Engine in the specified router, the management Ethernet interface, and the internal Ethernet interfaces for each Routing Engine.

M7i Routing Engines

Table 12 lists the Routing Engines supported by the M7i router. The M7i router supports 32-bit Junos OS only.

Table 12: M7i Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-400-768 (EOL details: TSB16445)	`RE-5.0`	9.0	fxp0	fxp1
RE-850-1536 (EOL details: TSB15553)	`RE-850`	7.2	fxp0	fxp1
RE-B-1800X1-4G	`RE-B-1800x1`	11.4R4 12.1R2	fxp0	em0

M10i Routing Engines

Table 13 lists the Routing Engines supported by the M10i router. The M10i router supports 32-bit Junos OS only.

Table 13: M10i Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-400-768 (EOL details: TSB16445)	`RE-5.0`	9.0	fxp0	fxp1 fxp2
RE-850-1536 (EOL details: TSB15553)	`RE-850`	7.2	fxp0	fxp1 fxp2
RE-B-1800X1-4G	`RE-B-1800x1`	11.4R4 12.1R2	fxp0	em0

M40e Routing Engines

Table 14 lists the Routing Engines supported by the M40e router.

Table 14: M40e Routing Engines
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-600-2048 (EOL details: TSB14373)	`RE-3.0` or `RE-3.0 (RE-600)`	5.3	fxp0	fxp1 fxp2
RE-A-1000-2048	`RE-A-1000`	8.1	fxp0	fxp1 fxp2

M120 Routing Engines

Table 15 lists the Routing Engines supported by the M120 router.

Table 15: M120 Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-A-1000-2048	`RE-A-1000`	8.0R2	–	fxp0	fxp1 fxp2
RE-A-2000-4096	`RE-A-2000`	8.0R2	–	fxp0	em0 bcm0
RE-A-1800X2-8G	`RE-A-1800x2`	11.4R5 12.1R3	10.4	fxp0	fxp1 fxp2
RE-A-1800X2-16G	`RE-A-1800x2`	11.4R5 12.1R3	10.4	fxp0	fxp1 fxp2
RE-A-1800X4-16G	`RE-A-1800x4`	11.4R5 12.1R3	10.4	fxp0	em0 em1

M320 Routing Engines

Table 16 lists the Routing Engines supported by the M320 router.

Table 16: M320 Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-1600-2048 (EOL details: TSB14374)	`RE-4.0`	6.2	–	fxp0	fxp1 fxp2
RE-A-2000-4096	`RE-A-2000`	8.1	–	fxp0	em0 bcm0
RE-A-1800X2-8G	`RE-A-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 bcm0
RE-A-1800X2-16G	`RE-A-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 bcm0
RE-A-1800X4-8G	`RE-A-1800X4`	11.4R5 12.1R3 12.2	10.4	fxp0	em0 em1

MX5, MX10, MX40, and MX80 Routing Engine

Table 17 lists the Routing Engines supported by the MX5, MX10, MX40, and MX80 routers.

Table 17: MX5, MX10, MX40, and MX80 Routing Engine
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
Built-in Routing Engine	`Routing Engine RE-MX80`	12.3	-	fxp0	em0 em1 Note: em1 is used to communicate with the MS-MIC when it is inserted.

MX104 Routing Engines

Table 18 lists the Routing Engines supported by MX104 routers.

Table 18: MX104 Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-S-MX104	`Routing Engine`	13.2	–	fxp0	em0 em1

MX204 Routing Engine

Table 19 lists the Routing Engines supported by the MX204 router.

Table 19: MX204 Routing Engine
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
Built-in Routing Engine	`RE-S-1600x8`	-	17.4	fxp0	em2 em3 em4

MX304 Routing Engine

Table 20 lists the Routing Engines supported by the MX304 router.

Table 20: MX304 Routing Engine
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
JNP304-RE-S	`RE 2700 8C 128G`	-	22.2R	fxp0	fxp0

MX240 Routing Engines

Table 21 lists the Routing Engines supported by MX240 routers.

Table 21: MX240 Supported Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-S-1300-2048 (EOL details: TSB16556	`RE-S-1300`	9.0	–	fxp0	fxp1 fxp2
RE-S-2000-4096 (EOL details: TSB16735	`RE-S-2000`	9.0	–	fxp0	fxp1 fxp2
RE-S-1800X2-8G (EOL details: TSB16556	`RE-S-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800x2-16G (EOL details: TSB16556	`RE-S-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-8G	`RE-S-1800X4`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-16G	`RE-S-1800x4`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-32G-S	`RE-S-1800X4`	12.3R4 13.2R1	12.3R4 13.2R1	fxp0	em0, em1
RE-S-X6-64G	`RE-S-2X00x6`	–	15.1F4 16.1R1	fxp0	ixlv0, igb0
RE-S-X6-64G-LT	`RE-S-2X00x6-LT`	–	17.2R1	fxp0	ixlv0, igb0 em0
RE-S-X6-128G	`RE-S-2X00x6-128`	–	18.1R1	fxp0	ixlv0, igb0 em0
RE-S-X6-128G-K	RE-S-X6-128G-K	-	22.2R1S2	fxp0	ixlv0, igb0, em0
RE-S-X6-128G-LT	RE-S-X6-128G-LT	-	24.2R1	fxp0	ixlv0, igb0, em0

MX480 Routing Engines

Table 22 lists the Routing Engines supported by MX480 routers.

Table 22: MX480 Supported Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-S-1300-2048 (EOL details: TSB16556	`RE-S-1300`	8.4	–	fxp0	fxp1 fxp2
RE-S-2000-4096 (EOL details: TSB16735	`RE-S-2000`	8.4	–	fxp0	fxp1 fxp2
RE-S-1800X2-8G (EOL details: TSB16556	`RE-S-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X2-16G (EOL details: TSB16556	`RE-S-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-8G	`RE-S-1800X4`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-16G	`RE-S-1800x4`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-32G-S	`RE-S-1800X4`	12.3R4 13.2R1	12.3R4 13.2R1	fxp0	em0 em1
RE-S-X6-64G	`RE-S-2X00x6`	–	15.1F4 16.1R1	fxp0	ixlv0, igb0
RE-S-X6-64G-LT	`RE-S-2X00x6--LT`	–	17.2R1	fxp0	ixlv0, igb0 em0
RE-S-X6-128G	`RE-S-2X00x6-128`	–	18.1R1	fxp0	ixlv0, igb0 em0
RE-S-X6-128G-K	RE-S-X6-128G-K	-	22.2R1S2	fxp0	ixlv0, igb0, em0
RE-S-X6-128G-LT	RE-S-X6-128G-LT	-	24.2R1	fxp0	ixlv0, igb0, em0

MX960 Routing Engines

Table 23 lists the Routing Engines supported by MX960 routers.

Table 23: MX960 Supported Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-S-1300-2048 (EOL details: TSB16556	`RE-S-1300`	8.2	–	fxp0	fxp1 fxp2
RE-S-2000-4096 (EOL details: TSB16735	`RE-S-2000`	8.2	–	fxp0	fxp1 fxp2
RE-S-1800X2-8G (EOL details: TSB16556	`RE-S-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X2-16G (EOL details: TSB16556	`RE-S-1800x2`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-8G	`RE-S-1800x4`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-16G	`RE-S-1800x4`	11.4R5 12.1R3	10.4	fxp0	em0 em1
RE-S-1800X4-32G-S	`RE-S-1800x4`	12.3R4 13.2R1	12.3R4 13.2R1	fxp0	em0 em1
RE-S-X6-64G	`RE-S-2X00x6`	–	15.1F4 16.1R1	fxp0	ixlv0, igb0
RE-S-X6-64G (For MX960-VC)	`RE-S-2X00x6`	–	17.2R1	fxp0	ixlv0, igb0
RE-S-X6-64G-LT	`RE-S-2X00x6-LT`	–	17.2R1	fxp0	ixlv0, igb0 em0
RE-S-X6-128G	`RE-S-2X00x6-128`	–	18.1R1	fxp0	ixlv0, igb0 em0
RE-S-X6-128G-K	RE-S-X6-128G-K	-	22.2R1S2	fxp0	ixlv0, igb0, em0
RE-S-X6-128G-LT	RE-S-X6-128G-LT	-	24.2R1	fxp0	ixlv0, igb0, em0

MX2008 Routing Engines

Table 24 lists the Routing Engines supported by MX2008 routers.

Table 24: MX2008 Supported Routing Engines
Model Number	Name in CLI Output	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
REMX2008-X8-64G	`RE-MX2008-X8-64G`	15.1F7	fxp0	ixlv0 ixlv1
REMX2008-X8-64G-LT	`REMX2008-X8-64G-LT`	17.2R1	fxp0	ixlv0 ixlv1
REMX2008-X8-128G	RE-MX2008-X8-128G	18.2R1	fxp0	ixlv0 ixlv1

MX2010 Routing Engines

Table 25 lists the Routing Engines supported by MX2010 routers.

Table 25: MX2010 Supported Routing Engines
Model Number	Name in CLI Output	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-MX2000-1800X4	`RE-S-1800x4`	12.3R2	fxp0	em0 em1
REMX2K-1800-32G-S	`RE-S-1800x4`	12.3R4 13.2R1	fxp0	em0 em1
REMX2K-X8-64G	`RE-S-2X00x8`	15.1F5-S1 16.1R2 16.2R1	fxp0	ixlv0 ixlv1 em0
REMX2K-X8-64G-LT	`RE-S-2X00x8`	17.2R1	fxp0	ixlv0 ixlv1 em0
REMX2K-X8-128G	`RE-MX200X8-128G`	18.1R1	fxp0	ixlv0 ixlv1

MX2020 Supported Routing Engines

Table 26 lists the Routing Engines supported by MX2020 routers.

Table 26: MX2020 Supported Routing Engines
Model Number	Name in CLI Output	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-MX2000-1800X4	`RE-S-1800x4`	12.3R2	fxp0	em0 em1
REMX2K-1800-32G-S	`RE-S-1800x4`	12.3R4 13.2R1	fxp0	em0 em1
REMX2K-X8-64G	`RE-S-2X00x8`	15.1F5-S1 16.1R2 16.2R1	fxp0	ixlv0 ixlv1 em0
REMX2K-X8-64G-LT	`RE-S-2X00x8`	17.2R1	fxp0	ixlv0 ixlv1 em0
REMX2K-X8-128G	`RE-MX200X8-128G`	18.1R1	fxp0	ixlv0 ixlv1 em0

MX10003 Routing Engines

Table 27 lists the Routing Engines supported by MX10003 routers.

Table 27: MX10003 Supported Routing Engines
Model Number	Name in CLI Output	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
JNP10003-RE1	`RE-S-1600x8`	17.3R1	fxp0	em3 em4
JNP10003-RE1-LT	`RE-S-1600x8`	18.1R1	fxp0	em3 em4

MX10008 Routing Engines

Table 28 lists the Routing Engines supported on the MX10008 router.

Table 28: MX10008 Routing Engines
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
JNP10K-RE1	`RE X10`	18.2R1	em0	bme0 bme1

PTX1000 Routing Engines

Table 29 lists the Routing Engine supported on the PTX1000.

Note:

The PTX1000 supports 64-bit Junos OS only.

Table 29: PTX1000 Routing Engines
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
Built-in Routing Engine	`RE-PTX1000`	16.1X65-D30 17.2R1	em0 em2	bme0 em1

PTX3000 Routing Engines

Table 30 lists the Routing Engines supported on the PTX3000.

Note:

The PTX3000 supports 64-bit Junos OS only.

Table 30: PTX3000 Routing Engines
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-DUO-C2600-16G	`RE-DUO-2600`	13.2R2	em0	ixgbe0 ixgbe1
RCB-PTX-X6-32G	`RE-PTX-2X00x6`	16.1R4 17.1R1 This Routing Engine does not support Junos OS Release 16.2.	em0	ixlv0 ixlv1

PTX5000 Routing Engines

Table 31 lists the Routing Engines supported on the PTX5000.

Note:

PTX5000 supports 64-bit Junos OS only.
The PTX5000 router supports two midplanes. The midplane identified as Midplane-8S in the CLI output is supported in Junos OS releases, 12.1X48, 12.3, and 13.2. The enhanced midplane, identified as Midplane-8SeP is supported from Junos OS release 14.1 onwards.

The RE-DUO-2600 routing engine with Junos OS 13.2 or earlier is not supported on the PTX5000BASE2 midplane.

Table 31: PTX5000 Routing Engines
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-DUO-C2600-16G	`RE-DUO-2600`	12.1X48 12.3 13.2 Note: The PTX5000 does not support Junos OS Releases 12.1, 12.2, or 13.1.	em0	ixgbe0 ixgbe1
RE-PTX-X8-64G	`RE-PTX-2X00x8`	15.1F4 16.1R1	em0	ixlv0 ixlv1 em1
RE-PTX-X8-128G	`RE-PTX-2X00x8-128G`	18.1R1	em0	ixlv0 ixlv1 em1

PTX10008 and PTX10016 Routing Engines

Table 32 lists the Routing Engines supported on the PTX10008 and PTX10016 routers.

Table 32: PTX10008 and PTX10016 Routing Engines
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
JNP10K-RE0	`RE-PTX-2X00x4`	17.2R1	em0, em1	bme0 bme1
JNP10K-RE1 (on PTX10008)	`RE X10`	18.2R1	em0 em1	bme0 bme1

PTX10001 Routing Engine

Table 33 lists the Routing Engine supported on the PTX10001 router (JNP10001-20C).

Table 33: PTX10001 Routing Engine
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
Built-in Routing Engine	`RE-PTX10001-20C`	18.4R1	em0, em2	em1 bme0

PTX10002-60 Routing Engine

Table 34 lists the Routing Engine supported on the PTX10002-60 router.

Table 34: PTX10002-60 Routing Engine
Model Number	Name in CLI Output	First Supported Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
Built-in Routing Engine	`RE-PTX10002-60C`	18.2R1	em0, em2	em1 bme0

T320 Routing Engines

Table 35 lists the Routing Engines supported by the T320 router.

Table 35: T320 Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-600-2048 (EOL details: TSB14373)	`RE-3.0` or `RE-3.0 (RE-600)`	5.3	fxp0	fxp1 fxp2
RE-1600-2048 (EOL details: TSB14374	`RE-4.0`	6.2	fxp0	fxp1 fxp2
RE-A-2000-4096	`RE-A-2000`	8.1	fxp0	fxp1 fxp2

The T320 router supports the CB-T control board.

T640 Routing Engines

Table 36 lists the Routing Engines supported by the T640 router.

Table 36: T640 Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-600-2048 (EOL details: TSB14373)	`RE-3.0` or `RE-3.0 (RE-600)`	5.3	–	fxp0	fxp1 fxp2
RE-1600-2048 (EOL details: TSB14374	`RE-4.0`	6.2	–	fxp0	fxp1 fxp2
RE-A-2000-4096	`RE-A-2000`	8.1	–	fxp0	em0 bcm0
RE-DUO-C1800-8G	`RE-DUO-1800`	32-bit Junos OS on a standalone T640 router: 11.2 32-bit Junos OS on a T640 router in a routing matrix: 11.4R9	64-bit Junos OS on a standalone T640 router: 11.3 64-bit Junos OS on a T640 router in a routing matrix: 11.4R9	em0	bcm0 em1
RE-DUO-C1800-16G	`RE-DUO-1800`	32-bit Junos OS on a standalone T640 router: 11.4R2 32-bit Junos OS on a T640 router in a routing matrix: 11.4R9	64-bit Junos OS on a standalone T640 router: 11.4R2 64-bit Junos OS on a T640 router in a routing matrix: 11.4R9	em0	bcm0 em1

The T640 standalone router supports CB-T control board and CB-LCC in a T640 routing matrix.

T1600 Routing Engines

Table 37 lists the Routing Engines supported by the T1600 router.

Note:

(Two RE-DUO-C1800-8G or two RE-DUO-C1800-16G are required to connect to a Routing Matrix)

Table 37: T1600 Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-600-2048 (EOL details: TSB14373)	`RE-3.0` or `RE-3.0 (RE-600)`	8.5	–	fxp0	fxp1 fxp2
RE-1600-2048 (EOL details: TSB14374	`RE-4.0 (RE-1600)`	8.5	–	fxp0	fxp1 fxp2
RE-A-2000-4096	`RE-A-2000`	8.5	–	fxp0	em0 bcm0
RE-DUO-C1800-8G	`RE-TXP-LCC` or `RE-DUO-1800`	32-bit Junos OS on a T1600 router in a routing matrix: 9.6 Note: Junos OS Releases 9.6 through 10.4 support RE-DUO-C1800-8G only during upgrade to a line-card chassis (LCC) in a routing matrix. 32-bit Junos OS on a standalone T1600 router: 11.1	64-bit Junos OS on a T1600 router in a routing matrix: 9.6 64-bit Junos OS on a standalone T1600 router: 11.1	em0	bcm0 em1
RE-DUO-C1800-16G	`RE-DUO-1800`	32-bit Junos OS on a standalone T1600 router: 11.4R2 32-bit Junos OS on a T1600 router in a routing matrix: 11.4R2	64-bit Junos OS on a standalone T1600 router: 11.4R2 64-bit Junos OS on a T1600 router in a routing matrix: 11.4R2	em0	bcm0 em1

T4000 Routing Engines

Table 38 lists the Routing Engines supported by the T4000 router.

Note:

The T4000 router supports 64-bit Junos OS only.

Table 38: T4000 Routing Engines
Model Number	Name in CLI Output	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-DUO-C1800-8G	`RE-DUO-1800`	Standalone T4000 router: 12.1 T4000 router in a routing matrix: 13.1	em0	bcm0 em1
RE-DUO-C1800-16G	`RE-DUO-1800`	Standalone T4000 router: 12.1R2 T4000 router in a routing matrix: 13.1	em0	bcm0 em1

The T4000 router supports the CB-LCC control board.

TX Matrix Routing Engines

Table 39 lists the Routing Engines supported by the TX Matrix router.

Table 39: TX Matrix Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-600-2048 (EOL details: TSB14373)	`RE-3.0` or `RE-3.0 (RE-600)`	7.0	–	fxp0	fxp1 fxp2
RE-1600-2048 (EOL details: TSB14374	`RE-4.0 (RE-1600)`	7.0	–	fxp0	fxp1 fxp2
RE-A-2000-4096	`RE-A-2000`	8.5	–	fxp0	em0 bcm0
RE-DUO-C1800-8G	`RE-DUO-1800`	11.4R9	11.4R9	em0	bcm0 em1
RE-DUO-C1800-16G	`RE-DUO-1800`	11.4R9	11.4R9	em0	bcm0 em1

The TXP router supports two control boards, CB-TX and CB-LCC. The CB-LCC is required for both RE-DUO-C1800-8G and RE-DUO-C1800-16G Routing Engines.

TX Matrix Plus Routing Engines

Table 40 lists the Routing Engines supported by the TX Matrix Plus router.

Table 40: TX Matrix Plus Routing Engines
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-DUO-C2600-16G	`RE-TXP-SFC` or `RE-DUO-2600`	32-bit Junos OS: 9.6	64-bit Junos OS: 11.4	em0	ixgbe0 ixgbe1

The TX Matrix Plus router supports the CB-TXP control board.

TX Matrix Plus (with 3D SIBs) Routing Engines

Table 41 lists the Routing Engines supported by the TX Matrix Plus router with 3D SIBs.

Table 41: Routing Engines on TX Matrix Plus with 3D SIBs
Model Number	Name in CLI Output	First Supported 32-bit Junos OS Release	First Supported 64-bit Junos OS Release	Management Ethernet Interface	Internal Ethernet Interface
RE-DUO-C2600-16G	`RE-TXP-SFC` or `RE-DUO-2600`	-	64-bit Junos OS: 11.4	em0	ixgbe0 ixgbe1

ON THIS PAGE

MX480 Host Subsystem

MX480 Host Subsystem Description

See Also

MX480 Host Subsystem LEDs

MX480 Midplane Description

See Also

MX480 Routing Engine Description

Routing Engine Components

Routing Engine Interface Ports

Routing Engine Boot Sequence

See Also

MX480 Routing Engine LEDs

Routing Engine LEDs (RE-S-X6-64G)

See Also

RE-S-1800 Routing Engine Description

RE-S-1800 Routing Engine Components

RE-S-1800 Routing Engine LEDs

RE-S-1800 Routing Engine Boot Sequence

See Also

RE-S-1800 Routing Engine LEDs

See Also

RE-S-X6-64G Routing Engine Description

RE-S-X6-64G Routing Engine Components

RE-S-X6-64G Routing Engine Boot Sequence

See Also

RE-S-X6-64G Routing Engine LEDs

See Also

RE-S-X6-128G Routing Engine Description

RE-S-X6-128G Routing Engine Components

RE-S-X6-128G Routing Engine LEDs

RE-S-X6-128G Routing Engine Boot Sequence

See Also

RE-S-X6-128G-K Routing Engine Description

RE-S-X6-128G-K Routing Engine Components

RE-S-X6-128G-K Routing Engine LEDs

RE-S-X6-128G-K Routing Engine Boot Sequence

See Also

RE-S-X6-128G-LT Routing Engine Description

RE-S-X6-128G-LT Routing Engine Components

RE-S-X6-128G-LT Routing Engine LEDs

RE-S-X6-128G-LT Routing Engine Boot Sequence

See Also

Routing Engine Specifications

See Also

Supported Routing Engines by Router

M7i Routing Engines

M10i Routing Engines

M40e Routing Engines

M120 Routing Engines

M320 Routing Engines

MX5, MX10, MX40, and MX80 Routing Engine

MX104 Routing Engines

MX204 Routing Engine

MX304 Routing Engine

MX240 Routing Engines

MX480 Routing Engines

MX960 Routing Engines

MX2008 Routing Engines

MX2010 Routing Engines

MX2020 Supported Routing Engines

MX10003 Routing Engines

MX10008 Routing Engines

PTX1000 Routing Engines

PTX3000 Routing Engines

PTX5000 Routing Engines

PTX10008 and PTX10016 Routing Engines

PTX10001 Routing Engine

PTX10002-60 Routing Engine

T320 Routing Engines

T640 Routing Engines

T1600 Routing Engines

T4000 Routing Engines

TX Matrix Routing Engines

TX Matrix Plus Routing Engines

TX Matrix Plus (with 3D SIBs) Routing Engines

See Also