Data sharding for transmission over a high generation cellular network

What is claimed is: 1. A computing platform, comprising: at least one processor; and a non-transitory computer-readable medium storing computer-readable instructions that, when executed by the at least one processor, cause the computing platform to: detect, via a communication network, transmission of data from a first computing device to a second computing device; intercept, prior to receipt of the transmission by the second computing device, the data; shard the data into a first shard and a second shard, wherein the sharding comprises: determining that a size of the data exceeds a threshold; and sharding the data to limit a size of each of the first shard and the second shard to less than the threshold; identify, within the communication network, a first communication channel and a second communication channel; send, to the second computing device: the first shard via the first communication channel, and the second shard via the second communication channel; and merge, the first shard and the second shard, to reconfigure the data, wherein the transmission of data comprises encrypted data, and wherein the first shard comprises the encrypted data, and wherein the second shard comprises encryption key management data associated with the encrypted data. 2. The computing platform of claim 1 , wherein the data comprises trading data, and wherein the instructions to shard the data comprise additional computer-readable instructions that, when executed by the at least one processor, cause the computing platform to: identify, from the trading data, non-confidential data and confidential data; identify, within the communication network, a third communication channel; encrypt the confidential data; and wherein the encrypted data comprises the encrypted form of the confidential data, and wherein the instructions to send the data comprise additional computer-readable instructions that, when executed by the at least one processor, cause the computing platform to: send the non-confidential data via the third communication channel. 3. The computing platform of claim 1 , wherein the first communication channel is over a private enterprise network, and the second communication channel is over a public network. 4. The computing platform of claim 1 , wherein the first communication channel and the second communication channel are over a fifth-generation cellular network. 5. The computing platform of claim 4 , wherein the first communication channel is associated with a first frequency for data transmission, and the second communication channel is associated with a second frequency for data transmission. 6. The computing platform of claim 4 , wherein the first communication channel is over a private enterprise network of the fifth-generation cellular network, and the second communication channel is over a public network of the fifth-generation cellular network. 7. The computing platform of claim 4 , further comprising a transceiver, and wherein the instructions to send, to the second computing device, the first shard and the second shard, comprise additional computer-readable instructions that, when executed by the at least one processor, cause the computing platform to: prior to sending the first shard and the second shard, configure the transceiver to convert the first shard and the second shard into a format compatible with data transmission over the cellular network. 8. A method, comprising at a computing platform comprising at least one processor, and memory: detecting, via a communication network, transmission of encrypted data from a first computing device to a second computing device; intercepting, prior to receipt of the transmission by the second computing device, the encrypted data; sharding the encrypted data into a first shard comprising encryption traffic, and a second shard comprising encryption key management traffic, wherein the sharding comprises: determining that a size of the data exceeds a threshold; and sharding the data to limit a size of each of the first shard and the second shard to less than the threshold; identifying, within the communication network, a first communication channel and a second communication channel; sending, to the second computing device: the first shard via the first communication channel, and the second shard via the second communication channel; merging, the first shard and the second shard, to generate the encrypted data; and prior to sending the first shard and the second shard, configuring a transceiver to convert the first shard and the second shard into a format compatible with data transmission over a cellular network. 9. The method of claim 8 , wherein the first communication channel and the second communication channel are over a fifth-generation cellular network. 10. The method of claim 8 , wherein the first communication channel is associated with a first frequency for data transmission, and the second communication channel is associated with a second frequency for data transmission. 11. The method of claim 8 , wherein the first communication channel is over a private network of a fifth-generation cellular network, and the second communication channel is over a public network of the fifth-generation cellular network. 12. The method of claim 8 , wherein detecting the transmission of the encrypted data comprises detecting transmission of data comprising non-confidential data and confidential data, and the method further comprises: identifying, within the communication network, a third communication channel; encrypting the confidential data, wherein the encryption traffic comprises the encrypted form of the confidential data; and sending the non-confidential data via the third communication channel. 13. The method of claim 8 , wherein the first communication channel and the second communication channel are over a fifth-generation cellular network and wherein the computing platform comprises a transceiver, the method further comprising: prior to sending the first shard and the second shard, configuring the transceiver to convert the first shard and the second shard into a format compatible with data transmission over the fifth-generation cellular network. 14. One or more non-transitory computer-readable media storing instructions that, when executed by a computing platform comprising at least one processor, and memory, cause the computing platform to: detect, via a communication network, transmission of data from a first computing device to a second computing device, wherein the communication network is a fifth-generation cellular network; intercept, prior to receipt of the transmission by the second computing device, the data; shard the data into a first shard and a second shard, wherein the sharding comprises: determining that a size of the data exceeds a threshold; and sharding the data to limit a size of each of the first shard and the second shard to less than the threshold; identify, within the communication network, a first communication channel and a second communication channel; send, to the second computing device: the first shard via the first communication channel, and the second shard via the second communication channel; and merge, the first shard and the second shard, to reconfigure the data, wherein the transmission of data comprises encrypted data, and wherein the first shard comprises the encrypted data, and wherein the second shard comprises encryption key management data associated with the encrypted data. 15. The one or more non-transitory computer-readable media of claim 14 , wherein the f