Pete Keleher
Nonetheless, such protocols still do not perform as well as expected. We show that the one of the major factors limiting performance is interaction with the operating system on page faults and page protection changes. We further optimize our protocol by completely eliminating such memory manipulation calls from the steady-state execution. Our resulting protocol improves average application performance by a further 34%, on top of the 19% improvement gained by our initial modification of the home-based protocol.
@article{keleher99, title = "Update Protocols and Cluster-based Shared Memory", author = "Pete Keleher", journal = {Computer Communications}, pages = {1045-1055}, volume = {22}, issue = {11}, month = {July}, year = {1999}, }