Mark H. Decker

Decimal floating-point in z9: an implementation and testing perspective

Although decimal arithmetic is widely used in commercial and financial applications, the related computations are handled in software. As a result, applications that use decimal data may experience performance degradations. Use of the newly defined decimal floating-point (DFP) format instead of binary floating-point is expected to significantly improve the performance of such applications. System z9TM is the first IBM machine to support the DFP instructions. We present an overview of this implementation and provide some measurement of the performance gained using hardware assists. Various tools and techniques employed for the DFP verification on unit, element, and system levels are presented in detail. Several groups within IBM collaborated on the verification of the new DFP facility, using a common reference model to predict DFP results.

Functional verification of the IBM system z10 processor chipset

This paper describes the comprehensive verification effort of the IBM System z10™ processor chipset, which consists of the z10™ quad-core central processor chip and the companion z10 symmetric multiprocessor (SMP) chip. The z10 processor chipset represented a significant redesign of its predecessor and thus presented a new challenge to ensure complete functional correctness of the product before the construction of actual system hardware. The z10 microprocessor pipeline was completely redesigned to support a doubling of the operating frequency. It also includes new hardware performance features, such as enhanced branch prediction, a reoptimized cache hierarchy, hardware-based prefetching, and a hardware implementation of decimal floating-point arithmetic in IEEE formats. In addition, there were significant hardware changes in the SMP storage hierarchy for optimized data latency performance. These changes include a new system topology, interprocessor book protocol, larger SMP size, and various aggressive cache ownership schemes. Key verification innovations are described, and a direct relationship to improved z10 system quality is provided for most cases.