Communication system architecture

The invention claimed is: 1. A communication system for effecting communication events between endpoints connected via a communication network, the communication system comprising: a plurality of processing units, each having access to computer storage holding executable code modules for managing a communication event between a first end user device and a second end user device, the code modules configured to implement a plurality of media modality controllers configured to manage media modality of an established communication event and a call controller configured to establish the communication event, the plurality of media modality controllers including an audio controller configured to convey audio control signals between the first end user device and the second end user device and a video controller configured to convey video control signals between the first end user device and the second end user device; and a resource allocator configured to allocate physical resources of the processing units and computer storage to each of the call controller and the media modality controllers; wherein a grant of physical resources to the call controller is independent and different from a grant of physical resources to the media modality controllers, and a grant of physical resources to the audio controller is independent and different from a grant of physical resources to the video controller. 2. A communication system according to claim 1 , wherein the physical resources are distributed across multiple failure-tolerant regions, the physical resources granted to the call controller being of a failure-tolerant region different from that of the physical resources granted to the media modality controllers. 3. A communication system according to claim 2 , wherein the physical resources granted to the call controller have a geo-location different from that of the physical resources granted to the media modality controllers. 4. A communication system according to claim 1 , wherein physical resources are distributed across multiple failure-tolerant regions, the grant of physical resources to the audio controller being of a failure region different from that of the physical resources granted to the video controller. 5. A communication system according to claim 4 , wherein the physical resources granted to the audio controller have a geo-location different from that of the physical resources granted to video controller. 6. A communication system according to claim 1 , wherein the processing units are configured to run a respective plurality of virtual machines respectively configured to execute one or more of said code modules. 7. A communication system according to claim 6 , wherein the call controller is implemented by code modules executed on virtual machines which are different from virtual machines executing code modules implementing the media modality controllers. 8. A communication system according to claim 7 , wherein the plurality of virtual machines are substantially isolated from one another. 9. A communication system according to claim 7 , wherein the resource allocator is configured to effect the respective grants to the call controller and the media modality controllers by controlling the virtual machines of those controllers. 10. A communication system according to claim 9 , wherein the grant for each controller is effected by increasing a size of one or more virtual machines of that controller and/or by increasing a number of virtual machines of that controller. 11. A communication system according to claim 7 , wherein the call controller is implemented by a plurality of components, each component comprising one or more respective virtual machines executing respective code modules of that component. 12. A communication system according to claim 11 , wherein the call controller is implemented by a call control component for receiving instructions from the network and an in-memory storage component for accessing computer storage, each of said components having a different and independent grant of physical resources. 13. A communication system according to claim 1 , wherein the code modules are configured to implement a transport controller configured to manage transport of media between the first end user device and the second end user devices; wherein the resource allocator is further configured to allocate physical resources of the processing units and computer storage to the transport controller; and wherein a grant of physical resources to the transport controller is independent and different from the respective grants of physical resources to the call controller and the media modality controllers. 14. A communication system according to claim 13 , wherein the code modules are configured to implement a pipe controller configured to create a pipe for said transportation of media under control of the transport controller; and wherein a grant of physical resources to the pipe controller is independent and different from the grant of physical resources to the transport controller. 15. A communication system according to claim 6 , wherein at least one of said controllers is implemented by a plurality of components, each component comprising one or more virtual machines executing respective code modules of that component; and wherein a grant of physical resources to one of said components of that controller is independent and different from a grant of physical resources to another of said components of that same controller. 16. A communication system according to any of claim 15 , wherein the communication system comprises a load balancer for each component, virtual machines of that component being load-balanced by that load balancer. 17. A communication system according to claim 1 , wherein the code modules accessible by the processing units are further configured to implement the resource allocator. 18. At least one computer readable storage medium storing executable code which is configured to implement a method of resource allocation in a communication system comprising a plurality of processing units, each having access to computer storage holding executable code modules for managing the communication event between a first end user device and a second end user device, the code modules being configured to implement media modality controllers configured to manage media modality of an established communication event and a call controller configured to establish the communication event, the media modality controllers including an audio controller configured to convey audio control signals between the first end user device and the second end user device and a video controller configured to convey video control signals between the first end user device and the second end user device, the method comprising: allocating first physical resources to the call controller; and independently allocating second physical resources to the audio controller, the second physical resources being different to the first physical resources; and independently allocating third physical resources to the video controller, the third physical resources being different to the first physical resources and the second physical resources. 19. A method of resource allocation in a communication system comprising a plurality of processing units, each having access to computer storage holding executable code modules for managing a communication event between a first end user device and a second end user device, the code modules being configured to implement a media modality contro