ENPASSANT: AN ENVIRONMENT FOR EVALUATING MASSIVELY PARALLEL ARRAY ARCHITECTURES FOR SPATIALLY MAPPED APPLICATIONS

Abstract

Although massively parallel arrays for spatially mapped applications have been proposed since the 1950s42 and built since the 1960s,12 there have been very few systematic empirical studies that cover more than a small fraction of the design space. The problems have included the lack of a test suite of non-trivial application codes; inadequate language support; the difficulties of balancing evaluation performance with flexibility; and balancing test suite portability with accuracy of evaluation. We describe an environment that addresses these problems. A realistic workload including a series of applications currently being used as building blocks in vision research has been constructed. Both flexibility in architectural parameter selection and simulation efficiency are maintained with a novel new technique that combines virtual machine emulation with trace-driven simulation. The trade-off between fairness to diverse target architectures and programmability of the test suite is addressed through the use of operator and application libraries for a small set of critical functions. We also present examples of the type of results we are obtaining, including the effects of changing ALU designs and datapath widths, finding critical points in register set and cache sizes, the benefits of various types of router networks, and the performance cost of processor virtualization.