Flexible network switch fabric for clustering system
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IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0060655
(2008-04-01)
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등록번호 |
US-8107466
(2012-01-31)
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발명자
/ 주소 |
- Huang, Hung-Cheng
- Yu, Ming-Che
- Hirai, Tomonori
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출원인 / 주소 |
- Mitac International Corp.
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인용정보 |
피인용 횟수 :
3 인용 특허 :
1 |
초록
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A network switch fabric is provided for a clustering system to facilitate flexibility of network-related interconnection selection and system scalability. The network switch fabric includes replaceable network switch(s) and network interface(s) selectively configured on a base board. Multiple types
A network switch fabric is provided for a clustering system to facilitate flexibility of network-related interconnection selection and system scalability. The network switch fabric includes replaceable network switch(s) and network interface(s) selectively configured on a base board. Multiple types of interconnection protocols with similar characteristics will be able to implement on a common infrastructure of network switch fabric. A pass through card operating as a network interface is also applicable on the network switch fabric to directly connect with an external network. The pass through card allows the network switch fabric supporting the clustering system to be scalable, thereby capable of supporting a large-scale cluster computing.
대표청구항
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1. A network switch fabric for a clustering system with a plurality of nodes, each node having a first system input/output bus and a second system input/output bus, comprising: a base board;at least a first network switch and a second network switch being configured on the base board;a plurality of
1. A network switch fabric for a clustering system with a plurality of nodes, each node having a first system input/output bus and a second system input/output bus, comprising: a base board;at least a first network switch and a second network switch being configured on the base board;a plurality of network slots, divided into a first group and a second group, each having a sum number of differential pairs and being configured on the base board, each of said plurality of network slots of the first group being in circuit connection with the first network switch and being connected with a respective one of the nodes through the first system input/output bus thereof, and each of said plurality of network slots of the second group being in circuit connection with the second network switch and being connected with a respective one of the nodes through the second system input/output bus thereof; anda first network interface card inserted in a first network slot of said first group and a second network interface card inserted in said second network slot of said second group, the first network interface card having a first number of differential pairs and the second network interface card having a second number of differential pairs, the sum number being a superset of either the first number or the second number;wherein the first network interface card and the second network interface card are configured with different network interconnection protocols;wherein each node is connected via its first system input/output bus to a network slot in the first group and via its second system input/output bus to a network slot in the second group. 2. The network switch fabric of claim 1, wherein the first network switch comprises a first switch slot inserted with a first network switch card and the second network switch comprises a second switch slot inserted with a second network switch card. 3. The network switch fabric of claim 2, wherein the first network switch card is compatible with the first network interface card and the second network switch card is compatible with the second network interface card. 4. The network switch fabric of claim 2, wherein the first network interface card and the first network switch card are compatible with Giga Ethernet, the second network interface card and the second network switch card are compatible with InfiniBand. 5. The network switch fabric of claim 1 further comprising a pass through card selectively inserted in one of the network slots to directly connect an external network without passing through the network switch. 6. The network switch fabric of claim 5, wherein the pass through card is another network interface card with longer length and an external connector to directly connect the external network. 7. A network switch fabric for a clustering system with a plurality of nodes, each node having a first system input/output bus and a second system input/output bus, comprising: a base board;at least a first network switch and a second network switch being configured on the base board;a plurality of network slots including a first network slot and a second network slot, each having a sum number of differential pairs and being configured on the base board, the first network slot being in circuit connection with the first network switch and being connected with one of the plurality of the nodes through the first system input/output bus thereof, and the second network slot being in circuit connection with the second network switch and being connected with said one of the plurality of nodes through the second system input/output system bus thereof; andat least a first network interface card inserted in said first network slot and a second network interface card inserted in said second network slot, the first network interface card having a first number of differential pairs and the second network interface card having a second number of differential pairs, the sum number being a superset of either the first number or the second number;wherein the first network interface card and the second network interface card are configured with different network interconnection protocols. 8. The network switch fabric of claim 7, wherein the first network switch comprises a first switch slot inserted with a first network switch card and the second network switch comprises a second switch slot inserted with a second network switch card. 9. The network switch fabric of claim 8 wherein the first network switch card is compatible with the first network interface card and the second network switch card is compatible with the second network interface card. 10. The network switch fabric of claim 8, wherein the first network interface card and the first network switch card are compatible with Giga Ethernet, the second network interface card and the second network switch card are compatible with InfiniBand. 11. The network switch fabric of claim 7 further comprising a pass through card selectively inserted in one of the network slots to directly connect an external network without passing through the network switch. 12. The network switch fabric of claim 11, wherein the pass through card is another network interface card with longer length and an external connector to directly connect the external network. 13. A network switch fabric for a clustering system with a plurality of nodes, each node having a first system input/output bus and a second system input/output bus, comprising: a base board;a first network switch and a second network switch being configured on the base board;a plurality of first network interfaces configured on the base board, each being in circuit connection with the first network switch and each connected with a respective one of the nodes through the first system input/output bus thereof to allow the nodes connect with each other and to a first external network; anda plurality of second network interfaces configured on the base board, each being in circuit connection with the second network switch and each connected with a respective one of the nodes through the second system input/output system bus thereof to allow the nodes connect with each other and to a second external network;wherein the plurality of first network interfaces are configured with a network interconnection protocol different than the plurality of second network interfaces;wherein each node is connected via its first system input/output bus to one of said first network interfaces and via its second system input/output bus to one of said second network interfaces. 14. The network switch fabric of claim 13, wherein each of the first network interfaces comprises a network slot with a first network interface card inserted therein and each of the second network interfaces comprises another same network slot with a second network interface card inserted therein. 15. The network switch fabric of claim 14 further comprising a pass through card selectively inserted in the network slot to directly connect with the first or second external network without passing through the first or second network switch. 16. The network switch fabric of claim 15, wherein the pass through card is another network interface card with longer length and an external connector to directly connect with the first or second external network. 17. The network switch fabric of claim 13, wherein the first network switch comprises a first switch slot selectively inserted with a first network switch card. 18. The network switch fabric of claim 13, wherein the second network switch comprises a second switch slot selectively inserted with a second network switch card.
이 특허에 인용된 특허 (1)
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Papa, Stephen E. J.; Amdahl, Carlton G.; Henderson, Michael G.; Agneta, Don; Schiro, Don; Smith, Dennis H., Method of providing an interface to a plurality of peripheral devices using bus adapter chips.
이 특허를 인용한 특허 (3)
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Shoarinejad, Kambiz; Soltan, Maryam; Moshfeghi, Mehran, RFID location systems and methods.
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Newman, Jerry R.; Sung, Jeffrey; York, Justin E.; Hua, Chanh V., Stacking network switches.
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Shoarinejad, Kambiz, Wireless RFID networking systems and methods.
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