The ability to remotely wake computers is an important development in computer management. This feature has evolved over the last few years from a simple remote power-on capability to a complex system interacting with a variety of device and operating system (OS) power states.
NOTES:
The following adapters do not support Wake on LAN* (WoL) operations
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In early implementations of Remote Wake-up, the computer could be started from a power-off state by sending a Magic Packet. A Magic Packet is an Ethernet packet that contains an adapter’s MAC address repeated 16 times in the data field. When an adapter receives a Magic Packet containing its own MAC address, it activates the computer’s power. This enables network administrators to perform off-hours maintenance at remote locations without sending a technician out.
This early implementation did not require an OS that was aware of remote wake-up. However, it did require a computer that was equipped with a standby power supply and had the necessary circuitry to allow the remote power control. These computers were typically equipped with a feature named Advanced Power Management (APM). APM provided BIOS-based power control.
Newer computers feature Advanced Configuration and Power Interface (ACPI), which extends the APM concept to enable the OS to selectively control power. ACPI supports a variety of power states. Each state represents a different level of power, from fully powered up to completely powered down, with partial levels of power in each intermediate state. Power states include:
Power State | Description |
S0 | On and fully operational |
S1 | System is in low power mode (sleep mode). The CPU clock is stopped, but RAM is powered on and being refreshed. |
S2 | Similar to S1, but power is removed from the CPU. |
S3 | Suspend to RAM (standby mode). Most components are shutdown. RAM remains operational. |
S4 | Suspend to disk (hibernate mode). The memory contents are swapped to the disk drive and then reloaded into RAM when the system is awakened. |
S5 | Power off |
Not all systems support being awakened from a powered-off state.
Remote wake-up can be initiated by a variety of user selectable packet types and is not limited to the Magic Packet format. For more information about supported packet types, see the operating system settings section.
The wake up capability of Intel gigabit adapters is based on patterns that are sent by the OS. You may configure the driver to the following settings using Intel® PROSet:
OS Controlled - Accept all the patterns sent to the OS.
Directed Packets - Accepts only patterns containing the Adapter's Ethernet address in the Ethernet Header or containing the IP address, assigned to the adapter, in the IP header.
Magic Packets - Accept only patterns containing 16 consecutive repetitions of the adapter's MAC address.
Directed & Magic - Accepts the patterns of both directed packets and magic packets.
Choosing "Directed Packets" will also accept patterns of the Address Resolution Protocol (ARP) querying the IP address assigned to the adapter. Upon configuring multiple IP addresses to one adapter, the OS may request to wake up on ARP patterns to all of the configured addresses. The adapter will only awaken in response to ARP packets querying the first IP address in the list.
A Wake on LAN cable is required on all remote wake-up capable adapters when used in older WoL-capable computers. These computers are generally equipped with a PCI 2.1 complaint bus and the BIOS is typically designed for APM compliant power management.
NOTE: Remote
Wake-Up from power-off (S5) is not supported on the following adapters in
computers using the PCI 2.1 bus. To use Remote Wake-Up on any of the
adapters listed below, the computer must have a PCI 2.2 compliant bus.
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The Wake on LAN cable is not usually required for computers equipped with a PCI 2.2 compliant bus, as the wake up signal is routed through the PCI bus. This is done through the PCI connector pin defined as PME (Power Management Event).
Many of the newer ACPI computers also have a connector for the 3-pin Wake on LAN cable for backwards compatibility with older WOL capable adapters. In this type of computer, the WOL cable is still required for older 82558-based Intel® PRO/100+ Management adapter model numbers PILA8900 and PILA8461.
Some motherboards only support remote wake-up (or remote wake-up from S5 state) in a particular slot. For example, the Intel® Desktop Board D815EPEA2 only supports remote wake-up from a powered off (S5) state if the adapter is plugged into PCI slot 2. It does, however, support remote wake-up from standby from any slot. See the documentation that came with your system or motherboard for details on remote wake-up support.
Early versions of the Intel PRO/100+ Management adapter are +5 volt only. These models must have the 3-pin cable attached for the remote wake-up function to work. These adapters are equipped with 3 LEDs on the adapter bracket, whereas the PCI 2.2 compliant PRO/100 models have 2 LEDs on the adapter bracket. The older +5 volt model adapters are not compliant to the PCI 2.2 specification and do not fit in a 3-volt only PCI slot due to the slot being keyed differently.
Newer Intel network adapters are 3.3 volt, but work in a 5-volt slot also. They are keyed to fit either type of slot.
If your computer requires the 3-pin cable, the +5 volt standby power supply must supply at least 0.2 amps at +5 volts for each adapter installed. For older PCI 2.1 compliant management adapters, the power supply must supply at least .6 amps. This value is usually listed on the power supply label as +5SB, +5VSB or +5AUX.
If your remote wake-up enabled computer is compliant to PCI specification 2.2, it does not require the 3-pin cable for remote wake-up. In these computers, the 3.3 volt standby power supply must provide at least 0.2 amps for each adapter installed. You may need to contact your computer manufacturer to verify the standby current rating. Turning off the remote wake up capability on the adapter by using the IBAUTIL utility reduces the power draw to around 50 milliamps (.05 amps) per adapter.
You may need to configure various settings in the computer BIOS so that remote wake-up will work.
Many ACPI computers can be configured to work in APM mode. Check your BIOS settings to determine which mode you are operating in.
In both APM and ACPI computers, you may find settings for Wake on LAN under the Power Control area and titled "Wake on LAN" and/or Wake on PME". Wake on LAN setting refers to wake up events received through the 3-pin header cable. Wake on PME refers to wake up events received through the PCI bus. To enable remote wake-up, you should enable the setting that corresponds to your adapter connection. For example, set Wake on LAN to enable if you are using the WOL cable.
In ACPI computers operating in ACPI mode and using an ACPI aware OS, look for an ACPI specific setting. If you want to power up the system from a power off state, set an ACPI specific setting such as "Wake on LAN from S5" to enable.
Last modified on 7/12/11 11:31p Revision