Early cost/performance cache analysis of a split MCM-based MicroSparc CPU

Abstract

Optimization of a microelectronic system is a difficult task involving a number of different disciplines. Often, an optimization in one discipline will result in a sub-optimal solution in other areas and the overall system. This paper looks into the optimization of a microelectronics system by concurrent consideration of the micro-architecture, package, and logic partitioning. This approach will attempt to identify an optimized design by helping the designer to explore the multi-dimensional solution space and evaluate the design candidates based on their system-level cost/performance. As a demonstration vehicle, we have evaluated the SUN MicroSparc CPU for possible MCM packaging based on sets of smaller dies using this approach. Cost/performance figure-of-merits are presented for various cache sizes using cost-optimized partitioning for flip-chip MCM-D packaging.