Logarithmic Revoke Routine
Starting with ULFM-1.0, the implementation features a logarithmic revoke operation, with a logarithmically bound per-node communication degree. A paper presenting this implementation will be presented at EuroMPI’15. The purpose of the Revoke operation is the propagation of failure knowledge, and the interruption of ongoing, pending communication, under the control of the user. We explain that the Revoke operation can be implemented with a reliable broadcast over the scalable and failure resilient Binomial Graph (BMG) overlay network. Evaluation at scale, on a Cray XC30 supercomputer, demonstrates that the Revoke operation has a small latency, and does not introduce system noise outside of failure recovery periods. Purpose of the Revoke Operation If the communication pattern of the application is complex, the occurrence of failures has the potential to deeply disturb the application and prevent an effective recovery from being implemented. Consider the example in the above figure: as long as no failure occurs, the processes are communicating in a point-to-point pattern (we decide to call plan A). Process Pk is waiting to receive a message from Pk-1, then sends a message to Pk+1 (when such processes exist). Let’s observe the effect of introducing a failure in plan A, and consider that P1 has failed. As only P2 communicates directly with P1, other processes do not Continue reading Logarithmic Revoke Routine