Optical node architectures for optical communication systems

1 - 23 . (canceled) 24 . An apparatus, comprising: a set of optical switches including a set of optical input ports and a set of optical output ports, wherein the optical switches are at least partially optically interconnected to optically switch optical communications between the optical input ports and the optical output ports. 25 . The apparatus of claim 24 , wherein the optical switches are directly interconnected to optically switch optical communications between the optical input ports and the optical output ports. 26 . The apparatus of claim 25 , wherein the optical switches are configured to be directly interconnected in a full mesh architecture providing interconnectivity between each pair of optical switches in the set of optical switches. 27 . The apparatus of claim 26 , wherein the full mesh of interconnections between the optical switches includes respective pairs of duplex connections between each pair of optical switches in the set of optical switches. 28 . The apparatus of claim 25 , wherein the optical switches are configured to be directly connected in a ring architecture providing interconnectivity between adjacent pairs of optical switches in the set of optical switches. 29 . The apparatus of claim 28 , wherein the ring architecture is a duplex architecture supporting a first ring of connectivity for the adjacent pairs of optical switches in a first direction and a second ring of connectivity for the adjacent pairs of optical switches in a second direction, wherein the first direction and the second direction are opposite to each other. 30 . The apparatus of claim 24 , wherein the optical switches are configured to be indirectly interconnected, via an auxiliary optical switch, to optically switch optical communications between the optical input ports and the optical output ports. 31 . The apparatus of claim 30 , wherein the auxiliary optical switch is configured to support, for each of the optical switches, a respective pair of duplex connections for the respective optical switch configured to support bidirectional connectivity between the auxiliary optical switch and the respective optical switch. 32 . The apparatus of claim 24 , wherein the set of optical switches is disposed as a middle stage in an optical Clos network that includes the middle stage and at least one of an ingress stage or an egress stage. 33 . The apparatus of claim 24 , further comprising at least one of: a set of ingress optical switches configured to be connected to the set of optical input ports of the optical switches; or a set of egress optical switches configured to be connected to the set of optical output ports of the optical switches. 34 . A method, comprising: receiving, by a set of optical switches including a set of optical input ports and a set of optical output ports, a set of optical signals, wherein the optical switches are at least partially optically interconnected to optically switch optical communications between the optical input ports and the optical output ports; and switching, by the set of optical switches, the set of optical signals from the set of optical input ports to the set of optical output ports. 35 . An optical switching stage, comprising: a set of optical input ports, a set of optical output ports, and two or more optical switches, wherein each respective optical switch of the two or more optical switches comprises: a set of optical input ports, a set of optical output ports, one or more additional optical input ports, and one or more additional optical output ports, wherein the set of optical input ports of the respective optical switch is a subset of, or is optically connected to, the set of optical input ports of the optical switching stage, wherein the set of optical output ports of the respective optical switch is a subset of, or is optically connected to, the set of optical output ports of the optical switching stage, and wherein each of the additional optical output ports of the respective optical switch is optically connected, or optically connectable, to one of the additional optical input ports of one of the other optical switches of the two or more optical switches. 36 . The optical switching stage of claim 35 , wherein each respective optical switch of the two or more optical switches is optically connected, or optically connectable, to every other optical switch of the two or more optical switches via one of the one or more additional optical output ports of the respective optical switch and one of the one or more additional optical input ports of the other optical switch. 37 . The optical switching stage of claim 35 , further comprising: an auxiliary optical switch, wherein each of the one or more additional optical output ports of each respective optical switch of the two or more optical switches is optically connectable, via the auxiliary optical switch, to any one of the one or more additional optical input ports of any one of the other optical switches of the two or more optical switches. 38 . The optical switching stage of claim 35 , wherein each respective optical switch of the two or more optical switches is optically connected to every other optical switch of the two or more optical switches via one of the one or more additional optical output ports of the respective optical switch and one of the one or more additional optical input ports of the other optical switch. 39 . The optical switching stage of claim 35 , wherein the two or more optical switches are S optical switches, numbered 1 to S, wherein S≥3, and wherein for every J from 1 to S: a first additional optical output port of the one or more additional optical output ports of optical switch J is optically connected to a first additional optical input port of the one or more additional optical input ports of optical switch J+1, where J+1 is defined as 1 when J equals S. 40 . The optical switching stage of claim 39 , wherein for every J from 1 to S: a second additional optical output port of the one or more additional optical output ports of optical switch J is optically connected to a second additional optical input port of the one or more additional optical input ports of optical switch J−1, where J−1 is defined as S when J equals 1. 41 . The optical switching stage of claim 40 , wherein for every J from 1 to S: optical switch J is not optically connected to any one of the S optical switches other than optical switches J+1 and J−1. 42 . The optical switching stage of claim 35 , wherein at least one of the optical input ports, or at least one of the optical output ports, of at least one of the two or more optical switches is optically connected to a near end of an optical fiber or to a near end of an optical fiber core. 43 . The optical switching stage of claim 35 , wherein: at least one of the optical input ports of at least one of the two or more optical switches is optically connected to an optical ingress switch, or at least one of the optical output ports of at least one of the two or more optical switches is optically connected to an optical egress switch. 44 . The optical switching stage of claim 35 , wherein the optical switching stage is disposed as a middle stage in an optical Clos network that includes the middle stage and at least one of an ingress stage or an egress stage. 45 . The optical switching stage of claim 35 , wherein the two or more optical switches are configured to communica