Patent
L1 replicator and switch combination
| العنوان: | L1 replicator and switch combination |
|---|---|
| Patent Number: | 12177,132 |
| تاريخ النشر: | December 24, 2024 |
| Appl. No: | 18/474747 |
| Application Filed: | September 26, 2023 |
| مستخلص: | A data replication and switching device and method, including a plurality of data communication ports, a management port, at least one replicator respectively associated with the data communication port, a Layer 1 (“L1”) switch, and a L1 bypass. At least some data received via the at least one of the plurality of ports can be routed to at least one of the plurality of data communication ports and, in response to the configuration data received via the at least one management port, the data replication and switching device can route at least some of the data received via the data communication port to bypass the L1 switch or to route at least some of the data received via the data communication port to the L1 switch. |
| Inventors: | Morgan Stanley Services Group Inc. (New York, NY, US) |
| Assignees: | Morgan Stanley Services Group Inc. (New York, NY, US) |
| Claim: | 1. A data replication and switching device, comprising: a plurality of data communication ports, each configured to transmit and receive data to and from at least one computing device; at least one electrical replicator configured to receive and replicate the data received from respective ones of the plurality of data communication ports; a Layer 1 (“L1”) switch configured to receive some of the data from the at least one electrical replicator; a management port configured to receive configuration data associated with operations of the data replication and switching device; and a L1 bypass configured to route some of the data received from the at least one electrical replicator directly to at least one of the plurality of data communication ports, thereby bypassing the L1 switch, wherein the at least one electrical replicator is located in front of the L1 switch, and further wherein the at least one electrical replicator is configured to route the replicated data to at least one of a replication port and the L1 switch, and further wherein, in response to the configuration data received via the at least one management port, the data replication and switching device is configured to route some of the data received from the at least one electrical replicator to bypass the L1 switch via the L1 bypass and to route some of the data received from the at least one electrical replicator to the L1 switch, wherein the some of the data routed to bypass the L1 switch is not received by the L1 switch. |
| Claim: | 2. The device of claim 1 , wherein the at least one electrical replicator comprises a plurality of replicators, each of the plurality of replicators configured to route replicated data to a respective one of a plurality of replication ports. |
| Claim: | 3. The device of claim 2 , wherein at least one of the plurality of electrical replicators is configured to route replicated data to an ethernet port. |
| Claim: | 4. The device of claim 1 , wherein the at least one electrical replicator is configured to route the replicated data to a fixed egress port. |
| Claim: | 5. The device of claim 1 , wherein the at least one electrical replicator includes a silicon germanium fan-out chip. |
| Claim: | 6. The device of claim 1 , wherein the L1 switch is configured to provide 1:n or n:1 mapping. |
| Claim: | 7. The device of claim 1 , further comprising a Layer 2 (“L2”) switch configured to receive routed data, wherein the L2 switch is further configured to switch and route the routed data. |
| Claim: | 8. The device of claim 7 , wherein the L2 switch is a field programmable gate array. |
| Claim: | 9. The device of claim 1 , wherein the L1 switch is a crossbar switch. |
| Claim: | 10. A data replication and switching method, comprising: receiving data, via each of a plurality of data communication ports configured with a data replication and switching device, from at least one computing device; receiving, via a management port configured with the data replication and switching device, configuration data associated with operations of the data replication and switching device; replicating, by at least one electrical replicator respectively associated with at least one of the data communication ports, at least one of ingress data and egress data; routing, by the at least one electrical replicator, the replicated data to a replication port configured with the data replication and switching device; receiving, via a Layer 1 (“L1”) switch configured with the data replication and switching device, some data from the at least one electrical replicator; and routing, by the data replication and switching device in response to the configuration data received via the at least one management port, some of the data from the at least one electrical replicator to bypass the L1 switch and to route some of the data from the electrical replicator to the L1 switch, wherein the some of the data routed to bypass the L1 switch is not received by the L1 switch. |
| Claim: | 11. The method of claim 1 , wherein at least some of the data received from the at least one electrical replicator is routed to at least one replication port located physically away from the at least one electrical replicator. |
| Claim: | 12. The method of claim 1 , wherein the at least one electrical replicator comprises a plurality of electrical replicators, and further comprising: routing, by each of the plurality of electrical replicators, replicated data to a respective one of a plurality of replication ports. |
| Claim: | 13. The method of claim 12 , further comprising: routing, by at least one of the plurality of electrical replicators, replicated data to an ethernet port. |
| Claim: | 14. The method of claim 10 , further comprising routing, by at least one electrical replicator, the replicated data to a fixed egress port. |
| Claim: | 15. The method of claim 10 , wherein at least one electrical replicator includes a silicon germanium fan-out chip. |
| Claim: | 16. The method of claim 10 , further comprising providing, by L1 switch, 1:n or n:1 mapping. |
| Claim: | 17. The method of claim 10 , further comprising: receiving, by a Layer 2 (“L2”) switch, routed data; and switching and routing the routed data. |
| Claim: | 18. The method of claim 17 , wherein the L2 switch is a field programmable gate array. |
| Claim: | 19. The method of claim 10 , wherein the L1 switch is a crossbar switch. |
| Patent References Cited: | 5577204 November 1996 Brewer et al. 10630608 April 2020 Snowdon 10708127 July 2020 Acharya 11570138 January 2023 Goodwin 2014/0219650 August 2014 Bruno 2017/0235695 August 2017 Blankenship et al. 2019/0095373 March 2019 Manohar 2022/0014483 January 2022 Zhou 2022/0206849 June 2022 Guim Bernat et al. 2022/0232111 July 2022 Ford et al. 2023/0066682 March 2023 Catalano |
| Other References: | “Exablaze Introduces Ultra Low Latency Switch and Application Platform”, retrieved from https://www.prnewswire.com/news-releases/exablaze-introduces-ultra-low-latency-switch-and-application-platform-281002252.html, dated Oct. 30, 2014. cited by applicant |
| Primary Examiner: | Mills, Donald L |
| Attorney, Agent or Firm: | Leason Ellis LLP |
| رقم الانضمام: | edspgr.12177132 |
| قاعدة البيانات: | USPTO Patent Grants |
| الوصف غير متاح. |