USRE46520EActiveUtility
Server cluster and control mechanism thereof
Est. expiryOct 5, 2031(~5.2 yrs left)· nominal 20-yr term from priority
H04L 41/00H04L 12/24G06F 11/0709G06F 1/3287G06F 11/3055G06F 11/0793Y02B60/1282G06F 11/00H04L 12/12Y02B60/34H04L 49/356G06F 11/3006H04L 12/26G06F 1/3209H04L 43/00Y02D10/00Y02D30/50
47
PatentIndex Score
0
Cited by
25
References
14
Claims
Abstract
A server cluster including a network switch and multiple server nodes is provided. The network switch is connected to an external network. Each server node performs an operation system and respectively includes a network port, a network chip and a south bridge chip. The network port is connected to the network switch via a cable. The network chip outputs a power-off signal according to a received power-off packet after the network switch is started. The south bridge chip outputs a shutdown signal to shut down the server node according to the power-off signal when the server node is turned on and the operation system is working normally.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A server cluster, comprising:
a network switch connected to an external network; and
a plurality of server nodes, wherein each server node performs an operation system and respectively comprises:
a network port connected to the network switch via a cable;
a network chip used for outputting a power-off signal according to a received power-off packet after the network switch is started;
a south bridge chip used for outputting a shutdown signal to shut down the server node according to the power-off signal when the server node is turned on and the operation system is working normally; and
a pulse delay circuit that transforms the power-off signal into a delay signal and transmits the delay signal to the south bridge chip when the operation system is abnormal and the server node, is turned on, such that the south bridge chip shuts down the server node; wherein the pulse delay circuit judges whether the server node is turned on through the south bridge chip.
2. The server cluster according to claim 1 , wherein the power-off packet is a network power-on reboot on LAN packet or a network wake on LAN packet.
3. The server cluster according to claim 1 , wherein the delay signal has a low level pulse whose pulse width amounts to 4 seconds.
4. A control mechanism method of a server cluster, wherein the server cluster comprises a network switch and a plurality of server nodes, each server node performs an operation system and respectively comprises a network port, a network chip and a south bridge chip, the network switch is connected to an external network, the network port is connected to the network switch via a cable, and the control mechanism method comprises:
starting the network switch;
outputting a power-off signal by the network chip according to a received power-off packet; and
outputting a shutdown signal by the south bridge chip to shut down the server node according to the power-off signal when the server node is turned on and the operation system is working normally,
wherein each server node further comprises a pulse delay circuit, and the control mechanism method further comprises
judging whether the server node is abnormal when the operation system is turned on; and
transforming the power-off signal into a delay signal and further transmitting the delay signal to the south bridge chip by the pulse delay circuit when the operation system is abnormal, such that the south bridge chip shuts down the server node;
wherein the pulse delay circuit judges whether the server node is turned on through the south bridge chip.
5. The control mechanism method of a server cluster according to claim 4 , wherein the power-off packet is a network power-on reboot on LAN packet or a network wake on LAN packet.
6. The control mechanism method of a server cluster according to claim 4 , wherein the delay signal has a low level pulse whose pulse width amounts to 4 seconds.
7. A server cluster, comprising:
a network switch connected to an external network; and a plurality of server nodes, wherein each server node performs an operation system and comprises: a network port connected to the network switch; a network chip used for outputting a power-off signal according to a received power-off packet; a south bridge chip used for outputting a shutdown signal to shut down the server node according to the power-off signal when the server node is on and the operation system is working; and a pulse delay circuit that transforms the power-off signal into a delay signal and transmits the delay signal to the south bridge chip when the operation system is abnormal and the server node is on, such that the south bridge chip shuts down the server node.
8. The server cluster according to claim 7, wherein the pulse delay circuit judges whether the server node is turned on through the south bridge chip.
9. The server cluster according to claim 7, wherein the power-off packet is a network reboot on LAN packet or a network wake on LAN packet.
10. The server cluster according to claim 7, wherein the delay signal has a low level pulse whose pulse width amounts to 4 seconds.
11. A control method for a server cluster, wherein the server cluster comprises a network switch and a plurality of server nodes, each server node performs an operation system and comprises a network port, a network chip, a pulse delay circuit, and a south bridge chip, the network switch is connected to an external network, the network port is connected to the network switch, and the control method comprising:
starting the network switch; outputting a power-off signal by the network chip according to a received power-off packet; judging whether the server node is abnormal when the operation system is on; outputting a shutdown signal by the south bridge chip to shut down the server node according to the power-off signal when the server node is on and the operation system is working; and transforming the power-off signal into a delay signal and further transmitting the delay signal to the south bridge chip by the pulse delay circuit when the operation system is abnormal, such that the south bridge chip shuts down the server node.
12. The control method of claim 11, wherein the pulse delay circuit judges whether the server node is turned on through the south bridge chip.
13. The control method according to claim 11, wherein the power-off packet is a network reboot on LAN packet or a network wake on LAN packet.
14. The control method according to claim 11, wherein the delay signal has a low level pulse whose pulse width amounts to 4 seconds.Cited by (0)
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