Fronthaul physical layer split in a cellular telecommunications network

The invention claimed is: 1. A method of operating a base station in a cellular telecommunications network, the base station having a central base station unit and a distributed base station unit, wherein the central base station unit and the distributed base station unit communicate over a fronthaul link having a first capacity configuration and a second capacity configuration, and the cellular telecommunications network further includes a User Equipment (UE) consuming a service via the base station, the method comprising: communicating samples over the fronthaul link at the first capacity configuration and a first bit width; determining that a reliability measure of the service is either less than or more than a reliability threshold such that: if the reliability measure of the service is less than the reliability threshold, responding by: reconfiguring the samples to use a second bit width, wherein the second bit width has more bits per sample than the first bit width, and reconfiguring the fronthaul link to use the second capacity configuration, wherein the second capacity configuration is greater than the first capacity configuration; and if the reliability measure of the service is more than the reliability threshold, responding by: reconfiguring the samples to use a third bit width, wherein the third bit width has fewer bits per sample than the first bit width, and reconfiguring the fronthaul link to use the second capacity configuration, wherein the second capacity configuration is less than the first capacity configuration; and communicating samples over the fronthaul link at the second capacity configuration and the second bit width or the third bit width. 2. The method as claimed in claim 1 , wherein the fronthaul link is reconfigured to use the second capacity configuration by one or more of: switching to a different transmission mode, switching to a different communications protocol, or switching to alternative transmission hardware or additional transmission hardware. 3. The method as claimed in claim 1 , wherein reconfiguring the samples to use the second bit width or the third bit width, respectively, includes: estimating a capacity requirement when communicating samples over the fronthaul link using the second bit width or the third bit width, respectively, and comparing the estimated capacity requirement to the second capacity configuration of the fronthaul link. 4. The method as claimed in claim 1 , wherein the samples are In-Phase and Quadrature (IQ) samples. 5. The method as claimed in claim 1 , wherein communications between the central base station unit and the UE utilize a configurable error mitigation technique, and the method further comprises reconfiguring the error mitigation technique. 6. A non-transitory computer-readable storage medium storing a computer program comprising instructions which, when the computer program is executed by a computer, cause the computer to carry out the method of claim 1 . 7. A base station unit for a cellular telecommunications network, wherein the cellular telecommunications network includes a User Equipment (UE) consuming a service via the base station unit, the base station unit comprising: a transceiver configured to communicate samples over a fronthaul link with a distributed base station unit at a first capacity configuration and a first bit width; and a processor configured to determine that a reliability measure of the service is either less than or more than a reliability threshold such that: if the reliability measure of the service is less than the reliability threshold, responding by: reconfiguring the samples to use a second bit width, wherein the second bit width has more bits per sample than the first bit width, and reconfiguring the fronthaul link to use a second capacity configuration, wherein the second capacity configuration is greater than the first capacity configuration; and if the reliability measure of the service is more than the reliability threshold, responding by: reconfiguring the samples to use a third bit width, wherein the third bit width has fewer bits per sample than the first bit width, and reconfiguring the fronthaul link to use a second capacity configuration, wherein the second capacity configuration is less than the first capacity configuration; and wherein, following reconfiguration, the transceiver is configured to communicate samples over the fronthaul link at the second capacity configuration and the second bit width or the third bit width. 8. The base station unit as claimed in claim 7 , wherein the transceiver is reconfigured to use the second capacity configuration by one or more of: switching to a different transmission mode, switching to a different communications protocol, or switching to alternative transmission hardware or additional transmission hardware. 9. The base station unit as claimed in claim 7 , wherein reconfiguring the samples to use second bit width or the third bit width, respectively, includes: estimating a capacity requirement when communicating samples over the fronthaul link using the second bit width or the third bit width, respectively, and comparing the estimated capacity requirement to the second capacity configuration of the fronthaul link. 10. A base station unit as claimed in claim 7 , wherein the samples are In-Phase and Quadrature (IQ) samples. 11. The base station unit as claimed in claim 7 , wherein the base station unit is a central base station unit configured to communicate with the UE using a configurable error mitigation technique, wherein the processor is further configured to reconfigure the error mitigation technique in response to the reliability measure satisfying the threshold.