Michael Fee

IBM zEnterprise 196 microprocessor and cache subsystem

The IBM zEnterprise® 196 (z196) system, announced in the second quarter of 2010, is the latest generation of the IBM System z® mainframe. The system is designed with a new microprocessor and memory subsystems, which distinguishes it from its z10® predecessor. The system has up to 40% improvement in performance for traditional z/OS® workloads and carries up to 60% more capacity when compared with its z10 predecessor. The memory subsystem has four levels of cache hierarchy (L1 through L4) and constructs the L3 and L4 caches with embedded DRAM silicon technology, which achieves approximately three times the cache density over traditional static RAM technology. The microprocessor has 50% more decode and dispatch bandwidth when compared with the z10 microprocessor, as well as an out-of-order design that can issue and execute up to five instructions every single cycle. The microprocessor has an advanced branch prediction structure and employs enhanced store queue management algorithms. At the date of product announcement, the microprocessor was the fastest complex-instruction-set computing processor in the industry, running at a sustained 5.2 GHz, executing approximately 1,100 instructions, 220 of which are cracked into reduced-instruction-set computing-type operations, to achieve large performance gains in legacy online transaction processing and compute-intensive workloads.

A 5.2GHz microprocessor chip for the IBM zEnterprise™ system

The microprocessor chip for the IBM zEnterprise 196 (z 196) system is a high-frequency, high-performance design that adds support for out-of-order instruction execution and increases operating frequency by almost 20% compared to the previous 65nm design, while still fitting within the same power envelope. Despite the many difficult engineering hurdles to be overcome, the design team was able to achieve a product frequency of 5.2GHz, providing a significant performance boost for the new system.

The zEnterprise 196 System and Microprocessor

The zEnterprise 196 is the latest IBM System zSeries mainframe computer, which builds on IBMs 46-year heritage of compatible enterprise-class machines. This design advances the prior z10 processor pipeline with out-of-order execution to achieve considerable performance gains in legacy online transaction processing and computationally intensive workloads. This article describes the system structure and details of this new high-frequency microprocessor.

The S/390 G5/G6 binodal cache

The IBM S/390® fifth-generation CMOS-based server (more commonly known as the G5) produced a dramatic improvement in system-level performance in comparison with its predecessor, the G4. Much of this improvement can be attributed to an innovative approach to the cache and memory hierarchy: the binodal cache architecture. This design features shared caching and very high sustainable bandwidths at all points in the system. It contains several innovations in managing shared data, in maintaining high bandwidths at critical points in the system, and in sustaining high performance with unparalleled fault tolerance and recovery capabilities. This paper addresses several of these key features as they are implemented in the S/390 G5 server and its successor, the S/390 G6 server.

Storage hierarchy to support a 600 MHz G5 S/390 microprocessor

Although a microprocessors maximum frequency and internal design are important, the storage hierarchy is the primary reason for the large system performance improvement of the S/390 G5 compared to the G4. The improvement is achieved with an L2 cache, system controller and memory interface clocked at 1/4 the microprocessor frequency.