Kuniki Morita

A 1.3GHz fifth generation SPARC64 microprocessor

A 5th generation SPARC64 processor is fabricated in 130nm SOI CMOS process with 8 layers of Cu metallization. It runs at 1.3GHz with 37.4W power dissipation in the laboratory. The chip contains over 190M transistors with 19M in logic circuits. The chip size is 18.14mm x 15.99mm. The error detection and recovery mechanism is implemented for execution units and data path logic circuits in addition to on-chip arrays to detect and recover from data logic error. This processor is developed by using mostly in-house CAD tools.A fifth generation SPARC64 processor implemented in 130 nm CMOS process with 8 layers of Cu metallization operates with a 1.3 GHz clock and dissipates 34.7 W. The processor is a 4-issue out-of-order design with 2 MB on-chip level-2 cache. Error checking is added on the data-path in addition to memory. An instruction is retried for correction when an error is detected in the datapath.

Microarchitecture and performance analysis of a SPARC-V9 microprocessor for enterprise server systems

We developed a 1.3-GHz SPARC-V9 processor: the SPARC64 V. This processor is designed to address requirements for enterprise servers and high-performance computing. Processing speed under multiuser interactive workloads is very sensitive to system balance because of the large number of memory requests included. From many years of experience with such workloads in mainframe system developments, we give importance to design a well-balanced communication structure. To accomplish this task, a system-level performance study must begin at an early please. Therefore we developed a performance model, which consists of a detailed processor model and detailed memory model, before hardware design was started. We updated it continuously. Once a logic simulator became available, we used it to verify the performance model for improving its accuracy. The model quite effectively enabled us to achieve performance goals and finish development quickly. This paper describes the SPARC64 V microarchitecture and performance analyses for hardware design.