Abstract
Speculative execution is an important source of parallelism for VLIW and superscalar processors. A serious challenge with compiler-controlled speculative execution is to efficiently handle exceptions for speculative instructions. In this article, a set of architectural features and compile-time scheduling support collectively referred to assentinel schedulingis introduced. Sentinel scheduling provides an effective framework for both compiler-controlled speculative execution and exception handling. All program exceptions are accurately detected and reported in a timely manner with sentinel scheduling. Recovery from exceptions is also ensured with the model. Experimental results show the effectiveness of sentinel scheduling for exploiting instruction-level parallelism and overhead associated with exception handling.
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