Dynamically switching between synchronous and asynchronous replication

What is claimed is: 1. A method for use in replication comprising: dynamically switching between asynchronous replication and synchronous replication during continuous replication of intercepted IO being written in the production environment while the production environment is active; without stopping the continuous replication of IO from the production environment and the replication environment in a manner that is transparent to a user of the production environment; wherein switching from asynchronous replication to synchronous replication reduces IO transfer lag between the production environment and the replication environment in a manner transparent to a user until a synchronous replication policy has been reached; and wherein switching from synchronous replication policy to asynchronous replication policy enables IO transfer lag between the production environment and the replication environment; wherein switching from synchronous to asynchronous replication includes: determining an IO transfer lag between the production environment and the replication environment; and acknowledging all IO transmitted between the production site and the replication site within the lag; determining a lag decrement for decreasing IO transfer lag between the production environment and the replication environment; reducing the IO transfer lag by the lag decrement; and updating the current IO transfer lag based on acknowledgements received from the replication site until the reduced lag has been reached; and continuing to reduce the lag by continuing to implement the reduction method, until a synchronous replication policy has been reached; wherein the lag is an amount of data. 2. The method of claim 1 wherein the lag is an amount of data. 3. The method of claim 1 wherein the lag is an amount of time. 4. The method of claim 1 wherein the system switches between asynchronous and synchronous replication based on a predetermined policy. 5. The method of claim 1 wherein the system switches from asynchronous to synchronous replication when a data rate between the production and replication site is low; and wherein the system switches from synchronous to asynchronous replication when latency between the production and replication site is high. 6. The method of claim 1 wherein switch between asynchronous and synchronous replication is based the load of the production environment. 7. The method of claim 1 wherein switch between asynchronous and synchronous replication is based the load of the production available bandwidth between the production environment and the replication environment. 8. A system comprising: a production environment and computer-executable logic operating in memory, wherein the computer-executable program logic is configured for execution of: dynamically switching between asynchronous replication and synchronous replication during continuous replication of intercepted IO being written in the production environment while the production environment is active; without stopping the continuous replication of IO from the production environment and the replication environment in a manner that is transparent to a user of the production environment; wherein switching from asynchronous replication to synchronous replication reduces IO transfer lag between the production environment and the replication environment in a manner transparent to a user until a synchronous replication policy has been reached; and wherein switching from synchronous replication policy to asynchronous replication policy enables TO transfer lag between the production environment and the replication environment; wherein switching from synchronous to asynchronous replication includes: determining an TO transfer lag between the production environment and the replication environment; and acknowledging all TO transmitted between the production site and the replication site within the lag; determining a lag decrement for decreasing TO transfer lag between the production environment and the replication environment; reducing the TO transfer lag by the lag decrement; and updating the current TO transfer lag based on acknowledgements received from the replication site until the reduced lag has been reached; and continuing to reduce the lag by continuing to implement the reduction method, until a synchronous replication policy has been reached; wherein the lag is an amount of data. 9. The system of claim 8 wherein the system switches from synchronous to asynchronous replication when a data rate between the production and replication site is high; and wherein the system switches from asynchronous to synchronous replication when a data rate between the production and replication site is low. 10. The system of claim 8 wherein switching from asynchronous replication to synchronous replication reduces IO transfer lag between the production environment and the replication environment in a manner transparent to a user until a synchronous replication policy has been reached; and wherein switching from synchronous replication policy to asynchronous replication policy enables TO transfer lag between the production environment and the replication environment. 11. The system of claim 8 wherein the system switches between asynchronous and synchronous replication based on a predetermined policy. 12. The system of claim 8 wherein the lag is an amount of time. 13. A program product for use in a system comprising a production environment and a replication environment, a program product comprising: a non-transitory computer-readable storage medium encoded with computer-executable program code enabling: dynamically switching between asynchronous replication and synchronous replication during continuous replication of intercepted TO being written in the production environment while the production environment is active; without stopping the continuous replication of TO from the production environment and the replication environment in a manner that is transparent to a user of the production environment; wherein switching from asynchronous replication to synchronous replication reduces TO transfer lag between the production environment and the replication environment in a manner transparent to a user until a synchronous replication policy has been reached; and wherein switching from synchronous replication policy to asynchronous replication policy enables TO transfer lag between the production environment and the replication environment; wherein switching from synchronous to asynchronous replication includes: determining an TO transfer lag between the production environment and the replication environment; and acknowledging all TO transmitted between the production site and the replication site within the lag; determining a lag decrement for decreasing TO transfer lag between the production environment and the replication environment; reducing the TO transfer lag by the lag decrement; and updating the current TO transfer lag based on acknowledgements received from the replication site until the reduced lag has been reached; and continuing to reduce the lag by continuing to implement the reduction method, until a synchronous replication policy has been reached; wherein the lag is an amount of data. 14. The computer product of claim 13 wherein switching from asynchronous replication to synchronous replication reduces TO transfer lag between the production environment and the replication environment in a manner transparent to a user until a synchronous replication policy has been reached; and wherein switching from synchronous replication policy to a