Guenter Mayer

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.

Circuit and Physical Design of the zEnterprise™ EC12 Microprocessor Chips and Multi-Chip Module

This work describes the circuit and physical design implementation of the processor chip (CP), level-4 cache chip (SC), and the multi-chip module at the heart of the EC12 system. The chips were implemented in IBMs high-performance 32nm high-k/metal-gate SOI technology. The CP chip contains 6 super-scalar, out-of-order processor cores, running at 5.5 GHz, while the SC chip contains 192 MB of eDRAM cache. Six CP chips and two SC chips are mounted on a high-performance glass-ceramic substrate, which provides high-bandwidth, low-latency interconnections. Various aspects of the design are explored in detail, with most of the focus on the CP chip, including the circuit design implementation, clocking, thermal modeling, reliability, frequency tuning, and comparison to the previous design in 45nm technology.

4.1 22nm Next-generation IBM System z microprocessor

The next-generation System z design introduces a new microprocessor chip (CP) and a system controller chip (SC) aimed at providing a substantial boost to maximum system capacity and performance compared to the previous zEC12 design in 32nm [1,2]. As shown in the die photo, the CP chip includes 8 high-frequency processor cores, 64MB of eDRAM L3 cache, interface IOs (“XBUS”) to connect to two other processor chips and the L4 cache chip, along with memory interfaces, 2 PCIe Gen3 interfaces, and an I/O bus controller (GX). The design is implemented on a 678 mm2 die with 4.0 billion transistors and 17 levels of metal interconnect in IBMs high-performance 22nm high-x CMOS SOI technology [3]. The SC chip is also a 678 mm2 die, with 7.1 billion transistors, running at half the clock frequency of the CP chip, in the same 22nm technology, but with 15 levels of metal. It provides 480 MB of eDRAM L4 cache, an increase of more than 2× from zEC12 [1,2], and contains an 18 MB eDRAM L4 directory, along with multi-processor cache control/coherency logic to manage inter-processor and system-level communications. Both the CP and SC chips incorporate significant logical, physical, and electrical design innovations.

5.5GHz system z microprocessor and multi-chip module

The new System z microprocessor chip (“CP chip”) features a high-frequency processor core running at 5.5GHz in a 32nm high-κ CMOS technology [1], using 15 levels of metal. This chip is a successor to the 45nm product [2], with significant improvements made to the core and nest (i.e. the logic external to the cores) in order to increase the performance and throughput of the design. Also, special considerations were necessary to ensure robust circuit operation in the high-κ technology used for implementation. As seen in the die photo, the chip contains 6 processor cores (compared to 4 cores in the 45nm version), and a large shared 48MB DRAM L3 cache. Each core includes a pair of data and instruction L2 SRAM caches of 1MB each. In addition, the chip contains a memory control unit (MCU), an I/O bus controller (GX), and two sets of interfaces to the L4 cache chips (also in 32nm technology). The CP chip occupies 598 mm2, contains about 2.75B transistors, and has 1071 signal IOs.

IBM zEnterprise TM energy efficient 5.2Ghz processor chip

The IBM zEnterprise z196 processor chip is an energy efficient high-frequency, high-performance design that implements 4 processor cores optimized for maximum single-thread performance. Chip energy efficiency is improved by 25% compared to the previous 65nm design, which enables the processor chip to run at product frequency of 5.2 GHz, providing a significant performance boost for the z196 system. This paper discusses the enablement of a high frequency and high performance design with a focus on energy consumption challenges and solutions. Design tradeoffs for processor speed, performance and energy consumption were optimized during project concept phase and practiced through detailed implementation stages on all aspects of the processor design. Various high speed circuit techniques were deployed to achieve the high frequency goal and improve overall energy efficiency. A comprehensive power methodology was developed to calculate leakage and dynamic power dissipation at various workloads. Sustained thermal power as well as instantaneous peak power was analyzed and worked on throughout the entire design process. The final design stays within the system power constraints and achieves a 5.2Ghz product frequency.